This article from JavaTuturial
Java provides a mechanism, called object serialization where an object can be represented as a sequence of bytes that includes the object's data as well as information about the object's type and the types of data stored in the object.
After a serialized object has been written into a file, it can be read from the file and deserialized that is, the type information and bytes that represent the object and its data can be used to recreate the object in memory.
Most impressive is that the entire process is JVM independent, meaning an object can be serialized on one platform and deserialized on an entirely different platform.
Classes ObjectInputStream and ObjectOutputStream are high-level streams that contain the methods for serializing and deserializing an object.
The ObjectOutputStream class contains many write methods for writing various data types, but one method in particular stands out:
/** * Write the specified object to the ObjectOutputStream. The class of the * object, the signature of the class, and the values of the non-transient * and non-static fields of the class and all of its supertypes are * written. Default serialization for a class can be overridden using the * writeObject and the readObject methods. Objects referenced by this * object are written transitively so that a complete equivalent graph of * objects can be reconstructed by an ObjectInputStream. * * <p>Exceptions are thrown for problems with the OutputStream and for * classes that should not be serialized. All exceptions are fatal to the * OutputStream, which is left in an indeterminate state, and it is up to * the caller to ignore or recover the stream state. * * @throws InvalidClassException Something is wrong with a class used by * serialization. * @throws NotSerializableException Some object to be serialized does not * implement the java.io.Serializable interface. * @throws IOException Any exception thrown by the underlying * OutputStream. */ public final void writeObject(Object obj) throws IOException { if (enableOverride) { writeObjectOverride(obj); return; } try { writeObject0(obj, false); } catch (IOException ex) { if (depth == 0) { writeFatalException(ex); } throw ex; } }
The above method serializes an Object and sends it to the output stream. Similarly, the ObjectInputStream class contains the following method for deserializing an object:
1 /** 2 * Read an object from the ObjectInputStream. The class of the object, the 3 * signature of the class, and the values of the non-transient and 4 * non-static fields of the class and all of its supertypes are read. 5 * Default deserializing for a class can be overriden using the writeObject 6 * and readObject methods. Objects referenced by this object are read 7 * transitively so that a complete equivalent graph of objects is 8 * reconstructed by readObject. 9 * 10 * <p>The root object is completely restored when all of its fields and the 11 * objects it references are completely restored. At this point the object 12 * validation callbacks are executed in order based on their registered 13 * priorities. The callbacks are registered by objects (in the readObject 14 * special methods) as they are individually restored. 15 * 16 * <p>Exceptions are thrown for problems with the InputStream and for 17 * classes that should not be deserialized. All exceptions are fatal to 18 * the InputStream and leave it in an indeterminate state; it is up to the 19 * caller to ignore or recover the stream state. 20 * 21 * @throws ClassNotFoundException Class of a serialized object cannot be 22 * found. 23 * @throws InvalidClassException Something is wrong with a class used by 24 * serialization. 25 * @throws StreamCorruptedException Control information in the 26 * stream is inconsistent. 27 * @throws OptionalDataException Primitive data was found in the 28 * stream instead of objects. 29 * @throws IOException Any of the usual Input/Output related exceptions. 30 */ 31 public final Object readObject() 32 throws IOException, ClassNotFoundException 33 { 34 if (enableOverride) { 35 return readObjectOverride(); 36 } 37 38 // if nested read, passHandle contains handle of enclosing object 39 int outerHandle = passHandle; 40 try { 41 Object obj = readObject0(false); 42 handles.markDependency(outerHandle, passHandle); 43 ClassNotFoundException ex = handles.lookupException(passHandle); 44 if (ex != null) { 45 throw ex; 46 } 47 if (depth == 0) { 48 vlist.doCallbacks(); 49 } 50 return obj; 51 } finally { 52 passHandle = outerHandle; 53 if (closed && depth == 0) { 54 clear(); 55 } 56 } 57 }
This method retrieves the next Object out of the stream and deserializes it. The return value is Object, so you will need to cast it to its appropriate data type.
To demonstrate how serialization works in Java, I am going to use the Employee class that we discussed early on in the book. Suppose that we have the following Employee class, which implements the Serializable interface:
class Employee implements java.io.Serializable{ public String name; public String addr; public transient int SSN; public int num; public void mailCheck(){ System.out.println("Mailing a check to " + name + " " + addr); } }
Notice that for a class to be serialized successfully, two conditions must be met:
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The class must implement the java.io.Serializable interface.
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All of the fields in the class must be serializable. If a field is not serializable, it must be marked transient.
If you are curious to know if a Java Standard Class is serializable or not, check the documentation for the class. The test is simple: If the class implements java.io.Serializable, then it is serializable; otherwise, it's not.
Serializing an Object:
The ObjectOutputStream class is used to serialize an Object. The following SerializeDemo program instantiates an Employee object and serializes it to a file.
When the program is done executing, a file named employee.ser is created. The program does not generate any output, but study the code and try to determine what the program is doing.
Note: When serializing an object to a file, the standard convention in Java is to give the file a .ser extension.
static void serializeEmployee(){ Employee e = new Employee(); e.name = "Reyan Ali"; e.addr = "Zpark, China"; e.SSN = 111222333; e.num = 101; try{ FileOutputStream fileOut = new FileOutputStream("./employee.ser"); ObjectOutputStream out = new ObjectOutputStream(fileOut); out.writeObject(e); out.close(); fileOut.close(); System.out.println("Serialized data is saved in employee.ser"); } catch (IOException i){ i.printStackTrace(); } }
Deserializing an Object:
The following DeserializeDemo program deserializes the Employee object created in the SerializeDemo program. Study the program and try to determine its output:
static void deserializeEmployee(){ Employee e = null; try { FileInputStream inputFile = new FileInputStream("./employee.ser"); ObjectInputStream in = new ObjectInputStream(inputFile); e = (Employee) in.readObject(); in.close(); inputFile.close(); e.mailCheck(); } catch (IOException i){ i.printStackTrace(); } catch (ClassNotFoundException c){ c.printStackTrace(); } }
Here are following important points to be noted:
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The try/catch block tries to catch a ClassNotFoundException, which is declared by the readObject() method. For a JVM to be able to deserialize an object, it must be able to find the bytecode for the class. If the JVM can't find a class during the deserialization of an object, it throws a ClassNotFoundException.
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Notice that the return value of readObject() is cast to an Employee reference.
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The value of the SSN field was 11122333 when the object was serialized, but because the field is transient, this value was not sent to the output stream. The SSN field of the deserialized Employee object is 0.
The result and whole source code is here:
package serialization; import java.io.*; /** * Created by *** on 1/3/16. */ class Employee implements java.io.Serializable{ public String name; public String addr; public transient int SSN; public int num; public void mailCheck(){ System.out.println("Mailing a check to " + name + " " + addr); } } public class SerializeDemo { static void serializeEmployee(){ Employee e = new Employee(); e.name = "Reyan Ali"; e.addr = "Zpark, China"; e.SSN = 111222333; e.num = 101; try{ FileOutputStream fileOut = new FileOutputStream("./employee.ser"); ObjectOutputStream out = new ObjectOutputStream(fileOut); out.writeObject(e); out.close(); fileOut.close(); System.out.println("Serialized data is saved in employee.ser"); } catch (IOException i){ i.printStackTrace(); } } static void deserializeEmployee(){ Employee e = null; try { FileInputStream inputFile = new FileInputStream("./employee.ser"); ObjectInputStream in = new ObjectInputStream(inputFile); e = (Employee) in.readObject(); in.close(); inputFile.close(); e.mailCheck(); } catch (IOException i){ i.printStackTrace(); } catch (ClassNotFoundException c){ c.printStackTrace(); } } public static void main(String[] args){ serializeEmployee(); deserializeEmployee(); } }
Output of console:
Serialized data is saved in employee.ser
Mailing a check to Reyan Ali Zpark, China