La classe ObjectInputStream désérialise les données primitives et les objets précédemment écrits par ObjetOutputStream .
bœuf contre taureau
- ObjectOutputStream et ObjectInputStream sont utilisés car ils fournissent un stockage pour les graphiques d'objet.
- Il garantit que l'objet pour lequel il travaille correspond aux classes de la JVM, c'est-à-dire la machine virtuelle Java. Seuls les objets peuvent être lus à partir des flux prenant en charge Sérialisable ou Externalisable - Classes IO sinon erreur. Serialisable est essentiellement une sorte de marqueur pour JVM (Java Virtual Machine) lui demandant d'écrire l'état de l'objet présent dans Stream.
Déclaration :
public class ObjectInputStream
extends InputStream
implements ObjectInput ObjectStreamConstants
Constructeurs :
- protégé ObjectInputStream() : Aidez les sous-classes à ne pas allouer de données privées utilisées par ObjectInputStream si elles réimplémentent ObjectInputStream.
- ObjectInputStream(InputStream source_input) : Créez un ObjectInputStream qui lit les données du flux d'entrée 'source_input'.
Méthodes :
- read() : java.io.ObjectInputStream.read() lit l'octet de données et bloque au cas où aucune donnée ne serait présente à lire. Syntaxe :
public int read()
Parameters :
-----------
Return :
reads byte else return -1 if end of Stream is detected.
Exception :
-> IOException : in case of any IO error occurs.
- readBoolean() : java.io.ObjectInputStream.readBoolean() lit en booléen.
Syntaxe :
public int readBoolean()Java
Parameters :
-----------
Return :
reads in a boolean.
Exception :
-> IOException : in case of any IO error occurs.
-> EOFException : if end of the stream is reached.
// Java program explaining the working of read() readBoolean() method import java.io.*; public class NewClass { public static void main(String[] args) throws IOException { // create a new file with an ObjectOutputStream and ObjectInputStream FileOutputStream geek_out = new FileOutputStream("GEEKS.txt"); ObjectOutputStream geek_outStream = new ObjectOutputStream(geek_out); ObjectInputStream Geek_inStream = new ObjectInputStream(new FileInputStream("GEEKS.txt")); // Methods covered in later geek_outStream.writeBoolean(true); geek_outStream.writeUTF("Geeks For Geeks"); geek_outStream.flush(); // Use of readBoolean() System.out.println("USe of readBoolean() : " + Geek_inStream.readBoolean()); System.out.print("Use of read() method in Java : "); // Use of read() method : reading the content of file for (int i = 0; i < Geek_inStream.available();) { System.out.print((char) Geek_inStream.read()); } } }
- Sortir :
USe of readBoolean() : true
Use of read() method in Java : Geeks For Geeks
- read(byte[] buffer int offset int maxlen) : java.io.ObjectInputStream.read(byte[] buffer int offset int maxlen) lit une partie des données du « tampon » à partir de la position offset jusqu'à la position maxlen du tampon. Syntaxe :
public int read(byte[] buffer int offset int maxlen)Java
Parameters :
buffer : buffer to be read
offset : starting position of the buffer
maxlen : max. no. of bytes to be read
Return :
reads 'maxlen' bytes of data else return -1 if end of Stream is detected.
Exception :
-> IOException : in case of any IO error occurs.
// Java program explaining the working of // read(byte[] buffer int offset int maxlen) import java.io.*; public class NewClass { public static void main(String[] args) throws IOException { // create a new file with an ObjectOutputStream and ObjectInputStream FileOutputStream geek_out = new FileOutputStream("GEEKS.txt"); ObjectOutputStream geek_outStream = new ObjectOutputStream(geek_out); // create an ObjectInputStream for the file we created before ObjectInputStream Geek_inStream = new ObjectInputStream(new FileInputStream("GEEKS.txt")); geek_outStream.writeUTF("GeeksForGeeks"); geek_outStream.flush(); byte[] buffer = new byte[25]; // Use of read(byte[] buffer int offset int maxlen) Geek_inStream.read(buffer 2 20); System.out.print("Use of read(buffer offset maxlen) : "); for (int i = 0; i < 19; i++) { System.out.print((char)buffer[i]); } } }
- Sortir :
GeeksForGeeks
- readByte() : java.io.ObjectInputStream.readByte() lit un octet de 8 bits.
Syntaxe :
public byte readByte()
Parameters :
-----------
Return :
reads 8-bit byte.
Exception :
-> IOException : in case of any IO error occurs.
-> EOFException : if end of the stream is reached.
- readChar() : java.io.ObjectInputStream.readChar() lit 16 bits de caractère.
Syntaxe :
public int read()
Parameters :
-----------
Return :
reads 16-bit of char.
Exception :
-> IOException : in case of any IO error occurs.
-> EOFException : if end of the stream is reached.
- readDouble() : java.io.ObjectInputStream.readDouble() lit 64 bits double.
Syntaxe :
public double readDouble()
Parameters :
-----------
Return :
reads 64 bit double.
Exception :
-> IOException : in case of any IO error occurs.
-> EOFException : if end of the stream is reached.
- readFloat() : java.io.ObjectInputStream.readFloat() lit un flottant 32 bits.
Syntaxe :
public float readFloat()
Parameters :
-----------
Return :
reads a 32 bit float.
Exception :
-> IOException : in case of any IO error occurs.
-> EOFException : if end of the stream is reached.
- readInt() : java.io.ObjectInputStream.readInt() lit un entier 32 bits.
Syntaxe :
public int readInt()
Parameters :
-----------
Return :
reads a 32 bit int.
Exception :
-> IOException : in case of any IO error occurs.
-> EOFException : if end of the stream is reached.
- readLong() : java.io.ObjectInputStream.readLong() lit un fichier de 64 bits.
Syntaxe :
public long readLong()Java
Parameters :
-----------
Return :
reads a 64 bit long.
Exception :
-> IOException : in case of any IO error occurs.
-> EOFException : if end of the stream is reached.
// Java program explaining the working of // readChar() writeByte() writeDouble() // writeFloat() writeInt() writeLong() import java.io.*; public class NewClass { public static void main(String[] args) throws IOException { // create a new file with an ObjectOutputStream and ObjectInputStream FileOutputStream geek_out = new FileOutputStream("GEEKS.txt"); ObjectOutputStream geek_outStream = new ObjectOutputStream(geek_out); // create an ObjectInputStream for the file we created before ObjectInputStream Geek_inStream = new ObjectInputStream(new FileInputStream("GEEKS.txt")); geek_outStream.writeChar('G'); geek_outStream.writeByte('G'); geek_outStream.writeDouble(00436754746); geek_outStream.writeFloat(2.12345f); geek_outStream.writeInt(3576); geek_outStream.writeLong(368723776); geek_outStream.flush(); // Use of readChar() System.out.println("Use of readChar() : " + Geek_inStream.readChar()); // Use of readByte() : System.out.println("Use of readByte() : " + Geek_inStream.readByte()); // Use of readDouble() : System.out.println("Use of readDouble() : " + Geek_inStream.readDouble()); // Use of readFloat() : System.out.println("Use of readFloat() : " + Geek_inStream.readFloat()); // Use of readInt() : System.out.println("Use of readInt() : " + Geek_inStream.readInt()); // Use of readLong() : System.out.println("Use of readLong() : " + Geek_inStream.readLong()); } }
- Sortir :
Use of readChar() : G
Use of readByte() : 71
Use of readDouble() : 7.5225574E7
Use of readFloat() : 2.12345
Use of readInt() : 3576
Use of readLong() : 368723776
- readUnsignedByte() : java.io.ObjectInputStream.readUnsignedByte() lit un octet non signé de 8 bits.
Syntaxe :
public int readUnsignedByte()
Parameters :
-----------
Return :
reads an unsigned 8 bit byte.
Exception :
-> IOException : in case of any IO error occurs.
-> EOFException : if end of the stream is reached.
- readUnsignedShort() : java.io.ObjectInputStream.readUnsignedShort() lit un court-circuit de 16 bits non signé. Syntaxe :
public int readUnsignedShort()Java
Parameters :
-----------
Return :
reads an unsigned 16 bit short.
Exception :
-> IOException : in case of any IO error occurs.
-> EOFException : if end of the stream is reached.
// Java program explaining the working of // readUnsignedByte() and readUnsignedShort() import java.io.*; public class NewClass { public static void main(String[] args) throws IOException { // create a new file with an ObjectOutputStream and ObjectInputStream FileOutputStream geek_out = new FileOutputStream("GEEKS.txt"); ObjectOutputStream geek_outStream = new ObjectOutputStream(geek_out); // create an ObjectInputStream for the file we created before ObjectInputStream Geek_inStream = new ObjectInputStream(new FileInputStream("GEEKS.txt")); geek_outStream.writeByte(111); geek_outStream.writeShort(121212); geek_outStream.flush(); // Use of readUnsignedByte() System.out.println("readUnsignedByte() : " + Geek_inStream.readUnsignedByte()); // Use of readUnsignedShort() : System.out.println("readUnsignedShort() : " + Geek_inStream.readUnsignedShort()); } }
- Sortir :
readUnsignedByte() : 111
readUnsignedShort() : 55676
- readUTF() : java.io.ObjectInputStream.readUTF() lit String au format UTF-8 (Unicode Transformation Format) modifié. UTF -8 signifie qu'il utilise des blocs de 8 bits pour représenter un caractère.
Syntaxe :
public String readUTF()Java
Parameters :
public final Object readObject()
Return :
reads String in modified UTF-8 (Unicode Transformation Format) format
Exception :
-> IOException : in case of any IO error occurs.
// Java program explaining the working of readUTF() import java.io.*; public class// Java program explaining the working of readUTF() import java.io.*; public class NewClass { public static void main(String[] args) throws IOException ClassNotFoundException { // create a new file with an ObjectOutputStream and ObjectInputStream FileOutputStream geek_out = new FileOutputStream("GEEKS.txt"); ObjectOutputStream geek_outStream = new ObjectOutputStream(geek_out); ObjectInputStream Geek_inStream = new ObjectInputStream(new FileInputStream("GEEKS.txt")); geek_outStream.writeUTF("gEEKSArehERE"); geek_outStream.flush(); // Use of readUTF() method System.out.println("Use of readUTF() : " + Geek_inStream.readUTF()); } }
- Sortir :
Use of readUTF() : gEEKSArehERE
- skipBytes(int maxlen) : java.io.ObjectInputStream.skipBytes(int maxlen) saute 'maxlen' non. d'octets lors de la lecture.
Syntaxe :
public int skipBytes(int maxlen)Java
Parameters :
maxlen : max. no. of bytes to be skipped
Return :
no. of bytes to be skipped
Exception :
-> IOException : in case of any IO error occurs.
// Java program explaining the working of skipBytes() import java.io.*; public class NewClass { public static void main(String[] args) throws IOException ClassNotFoundException { // create a new file with an ObjectOutputStream and ObjectInputStream FileOutputStream geek_out = new FileOutputStream("GEEKS.txt"); ObjectOutputStream geek_outStream = new ObjectOutputStream(geek_out); ObjectInputStream Geek_inStream = new ObjectInputStream(new FileInputStream("GEEKS.txt")); geek_outStream.writeUTF("gEEKSArehERE"); geek_outStream.flush(); // Use of skipBytes() : Geek_inStream.skipBytes(7); for (int i = 2; i < Geek_inStream.available(); i++) { System.out.print((char) Geek_inStream.readByte()); } } }
- Sortir :
Are
- readFully (destination octet []) : java.io.ObjectInputStream.readFully (destination octet []) lit tous les octets de la source vers le tableau de destination.
Syntaxe :
public void readFully(byte[] destination)Java
Parameters :
destination : the buffer in which the data is to be read
Return :
returns the 32 bit float read
Exception :
-> IOException : in case of any IO error occurs.
-> EOFException : if End of stream is reached
// Java program explaining the working of readFully() import java.io.*; public class NewClass { public static void main(String[] args) throws IOException ClassNotFoundException { // create a new file with an ObjectOutputStream and ObjectInputStream FileOutputStream geek_out = new FileOutputStream("GEEKS.txt"); ObjectOutputStream geek_outStream = new ObjectOutputStream(geek_out); ObjectInputStream Geek_inStream = new ObjectInputStream(new FileInputStream("GEEKS.txt")); geek_outStream.writeUTF("gEEKSArehERE"); geek_outStream.flush(); byte[] destination = new byte[14]; // Use of readFully() Geek_inStream.readFully(destination); String str = new String(destination); System.out.println("Use of readFully(destination offset maxlen) : "+str); } }
- Sortir :
Use of readFully(destination offset maxlen) : gEEKSArehERE
- readFully(byte[] destination int offset int maxlen) : java.io.ObjectInputStream.readFully(byte[] destination int offset int maxlen) lit certains octets (en commençant par la position offset jusqu'à la position maxlen) de la source au tableau de destination.
Syntaxe :
public void readFully(byte[] destination int offset int maxlen)Java
Parameters :
destination : the buffer in which the data is to be read
offset : starting position of the buffer
maxlen : max no. of bytes to be read
Return :
void
Exception :
-> IOException : in case of any IO error occurs.
-> EOFException : if End of stream is reached
// Java program explaining the working of // readFully(byte[] destination int offset int maxlen) import java.io.*; public class NewClass { public static void main(String[] args) throws IOException ClassNotFoundException { // create a new file with an ObjectOutputStream and ObjectInputStream FileOutputStream geek_out = new FileOutputStream("GEEKS.txt"); ObjectOutputStream geek_outStream = new ObjectOutputStream(geek_out); ObjectInputStream Geek_inStream = new ObjectInputStream(new FileInputStream("GEEKS.txt")); geek_outStream.writeUTF("gEEKSArehERE"); geek_outStream.flush(); byte[] destination = new byte[14]; // Use of readFully(byte[] destination int offset int maxlen) Geek_inStream.readFully(destination 3 7); String str = new String(destination); System.out.println("Use of readFully(destination offset maxlen) : "+ str); } }
- Sortir :
Use of readFully(destination offset maxlen) : geeks
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