279

What is the difference between Serializable and Externalizable in Java?

11 Answers 11

263

To add to the other answers, by implementating java.io.Serializable, you get "automatic" serialization capability for objects of your class. No need to implement any other logic, it'll just work. The Java runtime will use reflection to figure out how to marshal and unmarshal your objects.

In earlier version of Java, reflection was very slow, and so serializaing large object graphs (e.g. in client-server RMI applications) was a bit of a performance problem. To handle this situation, the java.io.Externalizable interface was provided, which is like java.io.Serializable but with custom-written mechanisms to perform the marshalling and unmarshalling functions (you need to implement readExternal and writeExternal methods on your class). This gives you the means to get around the reflection performance bottleneck.

In recent versions of Java (1.3 onwards, certainly) the performance of reflection is vastly better than it used to be, and so this is much less of a problem. I suspect you'd be hard-pressed to get a meaningful benefit from Externalizable with a modern JVM.

Also, the built-in Java serialization mechanism isn't the only one, you can get third-party replacements, such as JBoss Serialization, which is considerably quicker, and is a drop-in replacement for the default.

A big downside of Externalizable is that you have to maintain this logic yourself - if you add, remove or change a field in your class, you have to change your writeExternal/readExternal methods to account for it.

In summary, Externalizable is a relic of the Java 1.1 days. There's really no need for it any more.

  • 61
    Not according to these benchmarks: [code.google.com/p/thrift-protobuf-compare/wiki/Benchmarking], manual serialization (using externizable) is much, much faster than using java's default serialization. If speed matters for your work, definitely write your own serializer. – volni Dec 12 '10 at 15:53
  • 6
    updating to new link github.com/eishay/jvm-serializers/wiki suggested by @Jack – noquery Jun 18 '11 at 17:18
  • 3
    The "java-manual" in github.com/eishay/jvm-serializers/wiki does not use Externalizable, which would imply using ObjectOutputStream. See github.com/eishay/jvm-serializers/wiki/ToolBehavior for a link to the code. Instead, it is hand-written code that uses DataOutputStream, so it doesn't suffer from the things which make ObjectOutputStream slow (such as keeping track of object instances and supporting object cycles). – Esko Luontola May 23 '12 at 21:56
  • 21
    Why can't clear answers like these be part of the Javadoc? – Phillip May 9 '13 at 19:13
  • 7
    Having to maintain the logic yourself is only a downside if the class never changes and you never have to read in persisted versions of old data. If you want the freedom to change your class without having to write hellish code to deserialize old versions of it, Externalizable helps a lot. – Tim Boudreau Aug 28 '13 at 21:56
35

Serialization provides default functionality to store and later recreate the object. It uses verbose format to define the whole graph of objects to be stored e.g. suppose you have a linkedList and you code like below, then the default serialization will discover all the objects which are linked and will serialize. In default serialization the object is constructed entirely from its stored bits, with no constructor calls.

  ObjectOutputStream oos = new ObjectOutputStream(
                new FileOutputStream("/Users/Desktop/files/temp.txt"));
        oos.writeObject(linkedListHead); //writing head of linked list
        oos.close();

But if you want restricted serialization or don't want some portion of your object to be serialized then use Externalizable. The Externalizable interface extends the Serializable interface and adds two methods, writeExternal() and readExternal(). These are automatically called while serialization or deserialization. While working with Externalizable we should remember that the default constructer should be public else the code will throw exception. Please follow the below code:

public class MyExternalizable implements Externalizable
{

private String userName;
private String passWord;
private Integer roll;

public MyExternalizable()
{

}

public MyExternalizable(String userName, String passWord, Integer roll)
{
    this.userName = userName;
    this.passWord = passWord;
    this.roll = roll;
}

@Override
public void writeExternal(ObjectOutput oo) throws IOException 
{
    oo.writeObject(userName);
    oo.writeObject(roll);
}

@Override
public void readExternal(ObjectInput oi) throws IOException, ClassNotFoundException 
{
    userName = (String)oi.readObject();
    roll = (Integer)oi.readObject();
}

public String toString()
{
    StringBuilder b = new StringBuilder();
    b.append("userName: ");
    b.append(userName);
    b.append("  passWord: ");
    b.append(passWord);
    b.append("  roll: ");
    b.append(roll);

    return b.toString();
}
public static void main(String[] args)
{
    try
    {
        MyExternalizable m  = new MyExternalizable("nikki", "student001", 20);
        System.out.println(m.toString());
        ObjectOutputStream oos = new ObjectOutputStream(new FileOutputStream("/Users/Desktop/files/temp1.txt"));
        oos.writeObject(m);
        oos.close();

        System.out.println("***********************************************************************");
        ObjectInputStream ois = new ObjectInputStream(new FileInputStream("/Users/Desktop/files/temp1.txt"));
        MyExternalizable mm = (MyExternalizable)ois.readObject();
        mm.toString();
        System.out.println(mm.toString());
    } 
    catch (ClassNotFoundException ex) 
    {
        Logger.getLogger(MyExternalizable.class.getName()).log(Level.SEVERE, null, ex);
    }
    catch(IOException ex)
    {
        Logger.getLogger(MyExternalizable.class.getName()).log(Level.SEVERE, null, ex);
    }
}
}

Here if you comment the default constructer then the code will throw below exception:

 java.io.InvalidClassException: javaserialization.MyExternalizable;     
 javaserialization.MyExternalizable; no valid constructor.

We can observe that as password is sensitive information, so i am not serializing it in writeExternal(ObjectOutput oo) method and not setting the value of same in readExternal(ObjectInput oi). That's the flexibility that is provided by Externalizable.

The output of the above code is as per below:

userName: nikki  passWord: student001  roll: 20
***********************************************************************
userName: nikki  passWord: null  roll: 20

We can observe as we are not setting the value of passWord so it's null.

The same can also be achieved by declaring the password field as transient.

private transient String passWord;

Hope it helps. I apologize if i made any mistakes. Thanks.

24

Just for completeness, the transient keyword also closes the gap between the two.

If you only want to serialize part of your object, just set specific fields as transient, marking them as not to be persisted, and implement Serializable.

  • 3
    how is this ans the que?? – roottraveller Jul 11 '17 at 15:21
22

Key differences between Serializable and Externalizable

  1. Marker interface: Serializable is marker interface without any methods. Externalizable interface contains two methods: writeExternal() and readExternal().
  2. Serialization process: Default Serialization process will be kicked-in for classes implementing Serializable interface. Programmer defined Serialization process will be kicked-in for classes implementing Externalizable interface.
  3. Maintenance: Incompatible changes may break serialisation.
  4. Backward Compatibility and Control: If you have to support multiple versions, you can have full control with Externalizable interface. You can support different versions of your object. If you implement Externalizable, it's your responsibility to serialize super class
  5. public No-arg constructor: Serializable uses reflection to construct object and does not require no arg constructor. But Externalizable demands public no-arg constructor.

Refer to blog by Hitesh Garg for more details.

  • 1
    (3) is incorrect. There is a large repertoire of changes you can make to a class without breaking de-serialization of existing objects, and adding serializable members is certainly one of them. Deleting them is another. See the Object Versioning chapter of the Java Object Serialization Specification. – user207421 Sep 15 '17 at 5:51
  • 1
    Re-phrased sentence. – Ravindra babu Sep 15 '17 at 16:21
  • Thank you for sharing the link to the Serialization spec. – JL_SO Aug 20 at 7:35
21

Serialization uses certain default behaviors to store and later recreate the object. You may specify in what order or how to handle references and complex data structures, but eventually it comes down to using the default behavior for each primitive data field.

Externalization is used in the rare cases that you really want to store and rebuild your object in a completely different way and without using the default serialization mechanisms for data fields. For example, imagine that you had your own unique encoding and compression scheme.

  • 4
    We used Externalizable for large collections of "selected IDs" -- it was far more efficient externalizing as more-or-less a count & an array of primitive ints, than default serialization. That's a very simple usecase, nothing "special" or "unique". – Thomas W Aug 31 '13 at 23:57
9

Object Serialization uses the Serializable and Externalizable interfaces. A Java object is only serializable. if a class or any of its superclasses implements either the java.io.Serializable interface or its subinterface, java.io.Externalizable. Most of the java class are serializable.

  • NotSerializableException: packageName.ClassName « To participate a Class Object in serialization process, The class must implement either Serializable or Externalizable interface.

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Serializable Interface

Object Serialization produces a stream with information about the Java classes for the objects which are being saved. For serializable objects, sufficient information is kept to restore those objects even if a different (but compatible) version of the implementation of the class is present. The Serializable interface is defined to identify classes which implement the serializable protocol:

package java.io;

public interface Serializable {};
  • The serialization interface has no methods or fields and serves only to identify the semantics of being serializable. For serializing/deserializing a class, either we can use default writeObject and readObject methods (or) we can overriding writeObject and readObject methods from a class.
  • JVM will have complete control in serializing the object. use transient keyword to prevent the data member from being serialized.
  • Here serializable objects is reconstructed directly from the stream without executing
  • InvalidClassException « In deserialization process, if local class serialVersionUID value is different from the corresponding sender's class. then result's in conflict as java.io.InvalidClassException: com.github.objects.User; local class incompatible: stream classdesc serialVersionUID = 5081877, local class serialVersionUID = 50818771
  • The values of the non-transient and non-static fields of the class get serialized.

Externalizable Interface

For Externalizable objects, only the identity of the class of the object is saved by the container; the class must save and restore the contents. The Externalizable interface is defined as follows:

package java.io;

public interface Externalizable extends Serializable
{
    public void writeExternal(ObjectOutput out)
        throws IOException;

    public void readExternal(ObjectInput in)
        throws IOException, java.lang.ClassNotFoundException;
}
  • The Externalizable interface has two methods, an externalizable object must implement a writeExternal and readExternal methods to save/restore the state of an object.
  • Programmer has to take care of which objects to be serialized. As a programmer take care of Serialization So, here transient keyword will not restrict any object in Serialization process.
  • When an Externalizable object is reconstructed, an instance is created using the public no-arg constructor, then the readExternal method called. Serializable objects are restored by reading them from an ObjectInputStream.
  • OptionalDataException « The fields MUST BE IN THE SAME ORDER AND TYPE as we wrote them out. If there is any mismatch of type from the stream it throws OptionalDataException.

    @Override public void writeExternal(ObjectOutput out) throws IOException {
        out.writeInt( id );
        out.writeUTF( role );
        out.writeObject(address);
    }
    @Override public void readExternal(ObjectInput in) throws IOException, ClassNotFoundException {
        this.id = in.readInt();
        this.address = (Address) in.readObject();
        this.role = in.readUTF();
    }
    
  • The instance fields of the class which written (exposed) to ObjectOutput get serialized.


Example « implements Serializable

class Role {
    String role;
}
class User extends Role implements Serializable {

    private static final long serialVersionUID = 5081877L;
    Integer id;
    Address address;

    public User() {
        System.out.println("Default Constructor get executed.");
    }
    public User( String role ) {
        this.role = role;
        System.out.println("Parametarised Constructor.");
    }
}

class Address implements Serializable {

    private static final long serialVersionUID = 5081877L;
    String country;
}

Example « implements Externalizable

class User extends Role implements Externalizable {

    Integer id;
    Address address;
    // mandatory public no-arg constructor
    public User() {
        System.out.println("Default Constructor get executed.");
    }
    public User( String role ) {
        this.role = role;
        System.out.println("Parametarised Constructor.");
    }

    @Override
    public void writeExternal(ObjectOutput out) throws IOException {
        out.writeInt( id );
        out.writeUTF( role );
        out.writeObject(address);
    }
    @Override
    public void readExternal(ObjectInput in) throws IOException, ClassNotFoundException {
        this.id = in.readInt();
        this.address = (Address) in.readObject();
        this.role = in.readUTF();
    }
}

Example

public class CustomClass_Serialization {
    static String serFilename = "D:/serializable_CustomClass.ser";

    public static void main(String[] args) throws IOException {
        Address add = new Address();
        add.country = "IND";

        User obj = new User("SE");
        obj.id = 7;
        obj.address = add;

        // Serialization
        objects_serialize(obj, serFilename);
        objects_deserialize(obj, serFilename);

        // Externalization
        objects_WriteRead_External(obj, serFilename);
    }

    public static void objects_serialize( User obj, String serFilename ) throws IOException{
        FileOutputStream fos = new FileOutputStream( new File( serFilename ) );
        ObjectOutputStream objectOut = new ObjectOutputStream( fos );

        // java.io.NotSerializableException: com.github.objects.Address
        objectOut.writeObject( obj );
        objectOut.flush();
        objectOut.close();
        fos.close();

        System.out.println("Data Stored in to a file");
    }
    public static void objects_deserialize( User obj, String serFilename ) throws IOException{
        try {
            FileInputStream fis = new FileInputStream( new File( serFilename ) );
            ObjectInputStream ois = new ObjectInputStream( fis );
            Object readObject;
            readObject = ois.readObject();
            String calssName = readObject.getClass().getName();
            System.out.println("Restoring Class Name : "+ calssName); // InvalidClassException

            User user = (User) readObject;
            System.out.format("Obj[Id:%d, Role:%s] \n", user.id, user.role);

            Address add = (Address) user.address;
            System.out.println("Inner Obj : "+ add.country );
            ois.close();
        } catch (ClassNotFoundException e) {
            e.printStackTrace();
        }
    }

    public static void objects_WriteRead_External( User obj, String serFilename ) throws IOException {
        FileOutputStream fos = new FileOutputStream(new File( serFilename ));
        ObjectOutputStream objectOut = new ObjectOutputStream( fos );

        obj.writeExternal( objectOut );
        objectOut.flush();

        fos.close();

        System.out.println("Data Stored in to a file");

        try {
            // create a new instance and read the assign the contents from stream.
            User user = new User();

            FileInputStream fis = new FileInputStream(new File( serFilename ));
            ObjectInputStream ois = new ObjectInputStream( fis );

            user.readExternal(ois);

            System.out.format("Obj[Id:%d, Role:%s] \n", user.id, user.role);

            Address add = (Address) user.address;
            System.out.println("Inner Obj : "+ add.country );
            ois.close();
        } catch (ClassNotFoundException e) {
            e.printStackTrace();
        }
    }
}

@see

7

The Externalizable interface was not actually provided to optimize the serialization process performance! but to provide means of implementing your own custom processing and offer complete control over the format and contents of the stream for an object and its super types!

Examples of this is the implementation of AMF (ActionScript Message Format) remoting to transfer native action script objects over the network.

7

https://docs.oracle.com/javase/8/docs/platform/serialization/spec/serialTOC.html

Default serialization is somewhat verbose, and assumes the widest possible usage scenario of the serialized object, and accordingly the default format (Serializable) annotates the resultant stream with information about the class of the serialized object.

Externalization give the producer of the object stream complete control over the precise class meta-data (if any) beyond the minimal required identification of the class (e.g. its name). This is clearly desirable in certain situations, such as closed environments, where producer of the object stream and its consumer (which reifies the object from the stream) are matched, and additional metadata about the class serves no purpose and degrades performance.

Additionally (as Uri point out) externalization also provides for complete control over the encoding of the data in the stream corresponding to Java types. For (a contrived) example, you may wish to record boolean true as 'Y' and false as 'N'. Externalization allows you to do that.

2

When considering options for improving performance, don't forget custom serialization. You can let Java do what it does well, or at least good enough, for free, and provide custom support for what it does badly. This is usually a lot less code than full Externalizable support.

2

There are so many difference exist between Serializable and Externalizable but when we compare difference between custom Serializable(overrided writeObject() & readObject()) and Externalizable then we find that custom implementation is tightly bind with ObjectOutputStream class where as in Externalizable case , we ourself provide an implementation of ObjectOutput which may be ObjectOutputStream class or it could be some other like org.apache.mina.filter.codec.serialization.ObjectSerializationOutputStream

In case of Externalizable interface

@Override
public void writeExternal(ObjectOutput out) throws IOException {
    out.writeUTF(key);
    out.writeUTF(value);
    out.writeObject(emp);
}

@Override
public void readExternal(ObjectInput in) throws IOException, ClassNotFoundException {
    this.key = in.readUTF();
    this.value = in.readUTF();
    this.emp = (Employee) in.readObject();
}





**In case of Serializable interface**


        /* 
             We can comment below two method and use default serialization process as well
             Sequence of class attributes in read and write methods MUST BE same.
        // below will not work it will not work . 
        // Exception = java.io.StreamCorruptedException: invalid type code: 00\
              private void writeObject(java.io.ObjectOutput stream) 
              */
            private void writeObject(java.io.ObjectOutputStream Outstream)
                    throws IOException {

                System.out.println("from writeObject()");
                /*     We can define custom validation or business rules inside read/write methods.
 This way our validation methods will be automatically 
    called by JVM, immediately after default serialization 
    and deserialization process 
    happens.
                 checkTestInfo();
                */

                stream.writeUTF(name);
                stream.writeInt(age);
                stream.writeObject(salary);
                stream.writeObject(address);
            }

            private void readObject(java.io.ObjectInputStream Instream)
                    throws IOException, ClassNotFoundException {
                System.out.println("from readObject()");
                name = (String) stream.readUTF();
                age = stream.readInt();
                salary = (BigDecimal) stream.readObject();
                address = (Address) stream.readObject();
                // validateTestInfo();
            }

I have added sample code to explain better. please check in/out object case of Externalizable. These are not bound to any implementation directly.
Where as Outstream/Instream are tightly bind to classes. We can extends ObjectOutputStream/ObjectInputStream but it will a bit difficult to use.

  • 1
    Could you elaborate it more? As I read it, I don't understand what you are trying to say. Also, if you could format the text with some paragraphs and examples, this could be a great answer. – Shirkam Oct 11 '17 at 10:56
0

Basically, Serializable is a marker interface that implies that a class is safe for serialization and the JVM determines how it is serialized. Externalizable contains 2 methods, readExternal and writeExternal. Externalizable allows the implementer to decide how an object is serialized, where as Serializable serializes objects the default way.

protected by Naman Nov 25 '18 at 6:24

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