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Object Orientated Programming
An Introduction to Java
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For the most accurate and up-to-date tutorials, please access the latest version from Sun's official website for the Java SE Tutorials (Last Updated 9/23/2009), which can be found at:
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Features of OOP Classes Objects Instantiation Inheritance
Membership Functions
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More OOP Features Data Encapsulation Polymorphism Operator Overloading
Message Passing Software Re-Use
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History of Java Java Java, first released by Sun Microsystems in 1994
Originally for intelligent consumer-electronic devices Then used for creating Web pages with dynamic content Now also used for: Develop large-scale enterprise applications Enhance WWW server functionality Provide applications for consumer devices (cell phones, etc.)
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The Emergence of Java In the past decade Java has emerged in wide use partially because of its similarity to C and to C++ Perhaps more important is its implementation using a virtual machine that is intended to run code unchanged on many different platforms. This last feature has made it very attractive to larger development shops with heterogeneous environments.
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Key Benefits of Java Java is “write once, run anywhere”
architecture neutral portable across different platforms Due to Java Virtual Machine (JVM) Security features highly configurable security levels prevent any piece of Java code doing harm to the host system Network-centric platform easy to work with resources across a network and to create network based applications Object Oriented an interacting collection of independent software components dynamic extensible programs
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Key Benefits of Java Internationalisation
uses 16 bit Unicode characters that represents the phonetic and ideographic character sets of the entire world Performance although an interpreted language Java programs run almost as fast as native C, C++ programs Simple and easy to develop powerful & well designed set of APIs
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Java Class Libraries Classes Include methods that perform tasks
Return information after task completion Used to build Java programs Java contains class libraries Known as Java APIs (Application Programming Interfaces)
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Basics of a Typical Java Environment
Java programs normally undergo five phases Edit Programmer writes program (and stores program on disk) Compile Compiler creates bytecodes from program Load Class loader stores bytecodes in memory Verify Verifier ensures bytecodes do not violate security requirements Execute Interpreter translates bytecodes into machine language
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Typical Java environment.
Primary Memory . Disk Editor Compiler Class Loader Program is created in an editor and stored on disk in a file ending with .java. Compiler creates bytecodes and stores them on disk in a file ending with .class. Class loader reads .class files containing bytecodes from disk and puts those bytecodes in memory. Phase 1 Phase 2 Phase 3 Bytecode Verifier Bytecode verifier confirms that all bytecodes are valid and do not violate Java’s security restrictions. Phase 4 Interpreter Interpreter reads bytecodes and translates them into a language that the computer can understand, possibly storing data values as the program executes. Phase 5 Typical Java environment.
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Java In discussing java it is important to distinguish between :
The Java Programming Language The Java Virtual Machine The Java Platform
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Java The Java Programming Language is the language in which Java applications, applets , servlets and components are written. It is an object orientated language like C++. The Java Virtual Machine, (or java interpreter) is the crucial piece of every Java installation. Java applications are portable, but they are only portable to platforms to which a java virtual machine ( or java interpreter ) has been ported. 3. The Java Platform . All programs written in Java rely on the set of predefined classes that comprise the java platform. These classes are organised into related groups known as packages. The java platform defines packages for functionality such as input/output, networking, graphics, user interface creation.
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JVM Compiled by Java compiler Interpreted by JVM myCode.class Bytecode
… myCode.class Bytecode Compiled by Java compiler class myCode { … … } myCode.java Interpreted by JVM Source Code Application runs
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JVM JVM provides the run time environment for the bytecode (Java Runtime Environment JRE) executes the bytecode and causes native machine code instructions to execute on the CPU that the JVM is on each target platform needs an implementation of the JVM
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Java Compiler myCode.java Source Code Errors Byte Code Compiler
class myCode { … … } myCode.java Byte Code Compiler Source Code Interpreter for Computer A (JVM) Interpreter for Computer B (JVM) Interpreter for Computer C (JVM)
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Operation of the JRE (Java Runtime Environment)
Compile Class Loader java ______ ________ myCode.java Bytecode verifier Load from hard disk, network or other source javac Interpreter ______ ________ myCode.class RunTime Hardware
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JRE At runtime the java bytecode that makes up a java software program are Loaded, checked and run in an interpreter In the case of applets you can download the bytecode and they are then interpreted by the JVM built into the browser. Bytecode verifier checks Attributes correctly typed Body of the methods check Type checking References to other types checked
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Java Applications vs Java Applets
There are two categories of Java Programs A Java Application – These are stand alone programs in the traditional sense Run independently Run under the java interpreter Java applets These are programs designed to run from browsers such as Netscape or Sun’s HotJava. They don’t run independently Programs that can be included in web documents.
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First Java Program (Application)
// First Program HelloWorld public class HelloWorld { public static void main(String args []){ System.out.println(“Hello world...”): } } A class definition is the basic block of a Java program Each program must have a main method to tell it where to start executing
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Notes // First Program HelloWorld Comments begin with //
Can also use C style comments /* First Program HelloWorld */
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Notes 2 public class HelloWorld
This begins a class definition for class HelloWorld These classes are known as Programmer defined classes or User defined classes The public and class terms are java keywords which are always lowercase HelloWorld is the class identifier which always start with an uppercase letter
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Notes 3 When you save your class definition in a file the filename must be the same as the class identifier with a .java extension So the HelloWorld class would be stored in a HelloWorld.java file
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Notes 4 public static void main(String args [])
Java applications automatically begin executing at main Parentheses () after main indicate a program piece called a method which define some operational component of the class. Void indicates that the method will perform a task without returning any information when it completes String args [] are used as input arguments to the method. In this case we don’t use input but java requires it anyway
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Notes 5 System.out.println(“Hello world...”):
System.out is called the standard output object This will display a line of text in the command window In Java , any source and destination for I/O is considered a stream of bytes or characters. To perform output we insert bytes or characters into a stream. To perform input we extract bytes or characters from a stream. java.lang.System class contains three predefined streams System.out System.err for errors System.in
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A First Java Program This is a Java application not a Java applet – indicated by presence of main Source code exists in a file with same name as the class and an extension of .java. So for the previous example it is HelloWorld.java Java is case sensitive (like C.)
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Using the JDK Create source files for each class in your program
The name of source file should be the same as the name of class public class myCode { … … } myCode.java Source File
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Compiling your source code
Compile each class source file into bytecode (class files) To compile a java source file javac myCode.java This creates a classfile called myCode.class … myCode.class Class File
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To run your program To start your program running you run the bytecode of the program control class The program control class has the main method To run bytecode – pass it to the JVM java classFileName e.g. java myProg note no .class included
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