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A Simple Object Oriented Program. public class Simple { public static void main (String [] args) { System.out.println(“howdy”); } } System.out is an object of class PrintStream, provided by the Java library
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A Simple Object Oriented Program public class Simple { public static void main (String [] args) { System.out.println(“howdy”); } } System.out is an object of class PrintStream, provided by the Java library println is a method of the PrintStream class
Objects and Classes • Object: entity that contains data and can performs actions in a program (by invoking methods) • Class: describes a type of object, a class must be defined in order to ‘create’ an object • So, each object belongs to a class • Class determines legal methods for an objectSystem.out.fill(); // Error, no fill methodSystem.out.println(“howdy”); // OK
Creating Objects The System.out object has already been created, and already exists for your use in a Java program. Typically, you must create an object before you can use it. In order to create an object, a class must exist which ‘describes’ this type of object . To use this class, you must be familiar with the creation methods (constructors) it provides. A constructor method always has the same name as the class.
One class which already exists for your use in the Java library is the Rectangle class. Let’s create a Rectangle object……… Two of the constructors available with the Rectangle class: Rectangle() Rectangle(int x, int y, int width, int height) www.java.sun.com provides class specs (see API specs)
Declare a rectangle reference variable: Rectangle myrec; Construct a rectangle:myrec = new Rectangle(5, 10, 20, 30); Adjust the size of this Rectangle object by calling the setsize method of the Rectangle class: myrec.setsize(45,15); • Print the Rectangle object • System.out.println(myrec); printsjava.awt.Rectangle[x=5,y=10,width=45,height=15]
Syntax: Variable Definition TypeName variableName; TypeName variableName = expression; • Example: Rectangle myrec; Rectangle box = new Rectangle(); • Purpose: To define a new variable of a particular type and optionally supply an initial value
Syntax: Object Construction • new ClassName(parameters) • Example: • new Rectangle(5, 10, 20, 30) • new Car(“red”, “Ford”,”Pinto”, 4.5) • Purpose: • To construct a new object, initialize it with the construction parameters, and return a reference to the constructed object.
Object Variables Declare Rectangle crispyCrunchy; Declare and initialize: Rectangle cerealBox = new Rectangle(5, 10, 20, 30); • Once you have an object, you can apply methods: cerealBox.translate(15, 25); crispyCrunchy.translate(10,5); //error !! • Share objects:r = cerealBox;
Uninitialized and Initialized Variables Rectangle cerealBox; Rectangle cerealBox = new Rectangle(5,10,20,30);
These variables are references (like pointers) to objects, SO: Rectangle r; r = cerealBox; is NOT the same as: r = new Rectangle(5,10,20,30); In the first case, two variables will refer to the SAME object, in the second, an additional object is created and referred to by crispCrunchy.
Writing a Test Program • Invent a new class, say MoveTest • Supply a main method (which makes this an application class) • Place instructions inside the main method • Import any library classes you need by specifying the package and class name:import java.awt.Rectangle; • You don't need to import classes in the java.lang package such as String and System
Syntax : Importing a Class from a Package • import packageName.ClassName ; • Example: • import java.awt.Rectangle; • Purpose: • To import a class from a package for use in a program
File MoveTest.java import java.awt.Rectangle; public class MoveTest { public static void main(String[] args){ // declare and create the rectangle Rectangle cerealBox = new Rectangle(5,10,20,30); // move the rectangle cerealBox.translate(15, 25); // print the moved rectangle System.out.println(cerealBox); } }
Using Class Methods In order to call a class method successfully, you must examine it’s signature: // the following bold signature indicates how to use this // method of the Rectangle class public boolean contains (int x, int y) { //method body }
Using Class Methods • access specifier (such as public) • return type (such as String or void) • method name (such as contains or setSize) • list of parameters (number, type and purpose of parameters needed in call)
public boolean contains (int x, int y) { //method body } • This method is ‘callable’, because its access specifier is public • This method will return a true or false result, so the call should occur within an expression • The method is called using the name ‘contains’ • the call must provide 2 arguments Call: myrec.contains(6,7)