IN JAVA

Using this link to help:

 Classes and Objects https://docs.oracle.com/javase/tutorial/java/javaOO/index.html

• More on Classes https://docs.oracle.com/javase/tutorial/java/javaOO/more.html 
• Returning a Value from a Method https://docs.oracle.com/javase/tutorial/java/javaOO/returnvalue.html 
• Using the this Keyword https://docs.oracle.com/javase/tutorial/java/javaOO/thiskey.html
• Controling Access to Members of a Class https://docs.oracle.com/javase/tutorial/java/javaOO/accesscontrol.html  
• Understanding Class Members https://docs.oracle.com/javase/tutorial/java/javaOO/classvars.html 
• Initializing Fields https://docs.oracle.com/javase/tutorial/java/javaOO/initial.html 
• Summary https://docs.oracle.com/javase/tutorial/java/javaOO/summaryclasses.html 

Instructions:

• Modify the Figures code below:
  • In constructors, use for parameters the same names as the fields, and use this to access the fields. 
  • Make all fields private. Create getter methods to return the values of the fields. Update the main method as needed. 
  • For point and rectangle classes create a class variable to keep how many objects were instantiated. Create a gettter to return the number. In the main method show the value after each new element is created.
• Modify the Bicycle code below:
  • In constructors, use for parameters the same names as the fields, and use this to access the fields. 
  • Make all fields private. Create getter methods to return the values of the fields. Update the main method as needed.
  • For the generic and mountain bicycle classes create a class variable to keep how many objects were instantiated. Create a gettter to return the number. In the main method show the value after each new element is created.
• Bicycle code:

  interface Bicycle{ //interface for bicycle

      void changeGear(int val); //abstract methods

      void changeSpeed(int inc);

      void applyBrakes(int dec);

      void ringBell(int count);   

  }

   

  class NewCycle implements Bicycle{ //class for a new cycle

     

      int speed=0; //stores the speed value

      int gear=0; //stores the gear value

     

      @Override

      public void changeGear(int val) { //method to change the gear

          gear=val;

      }

   

      @Override

      public void changeSpeed(int inc) { //method to change the speed

          speed=speed+inc;

      }

   

      @Override

      public void applyBrakes(int dec) { //method to apply brakes

          speed=speed-dec;

      }

   

      @Override

      public void ringBell(int count) { //method to ring the bell

          for(int i=0;i<count;i++){

              System.out.print("Clang!!"+"  ");

          }

          System.out.println("");

      }

      public void printState(){ //method to print the states

          System.out.println("Ring bell, Speed, Gear, Brake, Ring Bell, Ring Bell");

      }

     

  }

   

  public class BicycleDemo { //application class

      public static void main(String args[]){ //main method

          NewCycle obj=new NewCycle(); //object creation

         

          obj.ringBell(1); //method call to ring the bell

         

          obj.changeSpeed(3); //method call for changing the speed

          System.out.println("Speed of bicycle: "+obj.speed);

         

          obj.changeGear(2); //method call for changing the gear

          System.out.println("Gear of bicycle: "+obj.gear);

         

          obj.applyBrakes(1); //method call for applying brakes

          System.out.println("Speed of bicycle: "+obj.speed);

         

          obj.ringBell(2); //method call to ring the bell

         

          obj.printState(); //method call for printing the states

         

      }

   

• Figure code:

  class Point{ //class for Point

      int x; //stores the value of x-coordinate

      int y; //stores the value of y-coordinate

      String pname; //stores the name of the point

     

      public Point(){ //default constructor

          this.x=1;

          this.y=1;

          this.pname="Point";

      }

              

      public Point(int a,int b,String n){ //parameterized constructor

          this.x=a;

          this.y=b;

          this.pname=n;

      }

     

      public void printPoint(){ //prints the point data

          System.out.println(this.pname+"("+this.x+","+this.y+")");

      }     

  }

   

  class Rectangle extends Point{ //class for Rectangle

      int height; //stores the height of the rectangle

      int width; //stores the width of the rectangle

      String rname; //stores the name of the rectangle

     

      public Rectangle(Point p,int h,int w,String n){ //parameterized constructor

          super();

          this.height=h;

          this.width=w;

          this.rname=n;

      }

     

      public void printRect(){ //prints the rectangle data

          System.out.println(this.rname+"("+this.x+","+this.y+","+this.width+","+this.height+")");

      }

  }

   

  public class PointNRectangle { //application class

      public static void main (String args[]){ //main method

         

          Point pobj=new Point(5,5,"Point"); //creates an object of point class

          pobj.printPoint(); //method call

         

          Rectangle robj=new Rectangle(pobj,5,10,"Rectangle"); //creates an object of rectangle class

          robj.printRect(); //method call

      }

  }