Showing posts with label applet life cycle. Show all posts
Showing posts with label applet life cycle. Show all posts

Saturday, April 21, 2012

Java Applet Animation Program for Moving Car

Hello friends, this is a Java applet program of moving car. In this java program draw a car. Car moves left to right direction on the screen continuously. Here use concepts of applet life cycle, multithreading.

Program Code: Applet_Animation.java
//Java Applet Animation Program  
//Developed by: Om Prakash Vishnoi
import java.awt.*; //import package
import java.applet.*; // import package
/*
<applet code=Applet_Animation width=1000 height =500>
</applet>
*/
public class Applet_Animation extends Applet implements Runnable
{
 int col,col1, row;
 int angle;
 Thread th;
 int x,y;
 public void init()   //initilize applet cycle
 {
  col=50;
  col1=col+220;
  row=400;
  angle=0;
  repaint();
 }
 public void start()   //start applet
 {
  th=new Thread(this);
  th.start();
 }
 public void run()  //run applet
 {
  for(int i=0;;i++)
  {
  try
  {

   Thread.sleep(100);
   repaint();
  }
  catch(InterruptedException e){}
  }
 }
 public void paint(Graphics g)  //draw on screen
 {

  Color c1=new Color(255,255,255);
  Color black = new Color(0,0,0);
  Color c2=new Color(255,0,0);
  Color c3=new Color(0,255,0);
  Color c4=new Color(0,0,255);
  Color c5=new Color(150,150,150);
  Color c6=new Color(190,160,160);
  g.setColor(c2);
  g.drawString("Developed By: Om Prakash Vishnoi",100,100);
  g.setColor(c1);  
  g.setColor(black);
//Car Designing  
  g.drawLine(col+47, row-4, col1-10, row-4); //connection line of wheel cover
  g.drawLine(col-47, row-4, col-10, row-4); //back wheel cover to back line- engine down line
  g.drawLine(col1+10, row-4, col1+80, row-4); //front wheel cover to front line
  g.drawLine(col-47, row-4, col-47, row-60); //back panel line
  //silencer
  g.drawLine(col-47, row-7,col-57,row-7 );
  g.drawLine(col-47, row-15,col-57,row-15 );  
  g.drawArc(col-58, row-15, 4, 8, 0, 360);

  g.drawLine(col1+80, row-4, col1+80, row-60); //engine front line
  g.drawLine(col-47, row-60, col, row-60); //back panel line
  g.drawLine(col1+20, row-60, col1+80, row-60); //engine up line
  g.drawArc(col, row-130, 240,140,15,165);  //uper arc
  g.drawLine(col1+18,321, col1+18,340);
//red light
  if(col%5==0)
   g.setColor(c2);
  else
   g.setColor(c1);

  g.fillArc(col+150, row-145, 15,40, 0,180); 
  g.setColor(black);
  g.drawArc(col+40, row-100, 50, 80, 0, 180); //back mirror
  g.drawLine(col+40, row-60, col+90, row-60);  //back mirror down line
  g.drawArc(col1-70, row-100, 50,80,0,180); //front mirror
  g.drawLine(col1-70, row-60,col1-20, row-60); //front mirror back line
  
//back wheel cover
  g.fillArc(col-9, row-28, 58,50, 0, 180);
  g.setColor(c1);
  g.fillArc(col-5, row-25, 50,50, 0, 180);
  
//front wheel cover
  g.setColor(black);
  g.fillArc(col1-9, row-28, 58,50, 0, 180);
  g.setColor(c1);
  g.fillArc(col1-5, row-25, 50,50, 0, 180);
 
//back wheel
  g.setColor(c3);
  g.drawOval(col,row-20,40,40);

//back wheel spikes
  g.setColor(c2);
  x=(col+20)+(int)(20*Math.sin(angle));
  y=(row)+(int)(20*Math.cos(angle));
  g.drawLine(col+20, row, x, y);
  x=(col+20)+(int)(20*Math.sin(angle+45));
  y=(row)+(int)(20*Math.cos(angle+45));
  g.drawLine(col+20, row, x, y);
  x=(col+20)+(int)(20*Math.sin(angle+90));
  y=(row)+(int)(20*Math.cos(angle+90));
  g.drawLine(col+20, row, x, y);
  x=(col+20)+(int)(20*Math.sin(angle+100));
  y=(row)+(int)(20*Math.cos(angle+100));
  g.drawLine(col+20, row, x, y);
  x=(col+20)+(int)(20*Math.sin(angle+135));
  y=(row)+(int)(20*Math.cos(angle+135));
  g.drawLine(col+20, row, x, y);
  x=(col+20)+(int)(20*Math.sin(angle+145));
  y=(row)+(int)(20*Math.cos(angle+145));
  g.drawLine(col+20, row, x, y);
  x=(col+20)+(int)(20*Math.sin(angle+180));
  y=(row)+(int)(20*Math.cos(angle+180));
  g.drawLine(col+20, row, x, y);
  x=(col+20)+(int)(20*Math.sin(angle+190));
  y=(row)+(int)(20*Math.cos(angle+190));
  g.drawLine(col+20, row, x, y);
  x=(col+20)+(int)(20*Math.sin(angle+225));
  y=(row)+(int)(20*Math.cos(angle+225));
  g.drawLine(col+20, row, x, y);
  x=(col+20)+(int)(20*Math.sin(angle+235));
  y=(row)+(int)(20*Math.cos(angle+235));
  g.drawLine(col+20, row, x, y);
  x=(col+20)+(int)(20*Math.sin(angle+280));
  y=(row)+(int)(20*Math.cos(angle+280));
  g.drawLine(col+20, row, x, y);
  x=(col+20)+(int)(20*Math.sin(angle+325));
  y=(row)+(int)(20*Math.cos(angle+325));
  g.drawLine(col+20, row, x, y);

//front wheel
  g.setColor(c3);
  g.drawOval(col1,row-20,40,40);
//front wheel spikes
  g.setColor(c2);
  x=(col1+20)+(int)(20*Math.sin(angle));
  y=(row)+(int)(20*Math.cos(angle));
  g.drawLine(col1+20, row, x, y);
  x=(col1+20)+(int)(20*Math.sin(angle+45));
  y=(row)+(int)(20*Math.cos(angle+45));
  g.drawLine(col1+20, row, x, y);
  x=(col1+20)+(int)(20*Math.sin(angle+90));
  y=(row)+(int)(20*Math.cos(angle+90));
  g.drawLine(col1+20, row, x, y);
  x=(col1+20)+(int)(20*Math.sin(angle+100));
  y=(row)+(int)(20*Math.cos(angle+100));
  g.drawLine(col1+20, row, x, y);
  x=(col1+20)+(int)(20*Math.sin(angle+135));
  y=(row)+(int)(20*Math.cos(angle+135));
  g.drawLine(col1+20, row, x, y);
  x=(col1+20)+(int)(20*Math.sin(angle+145));
  y=(row)+(int)(20*Math.cos(angle+145));
  g.drawLine(col1+20, row, x, y);
  x=(col1+20)+(int)(20*Math.sin(angle+180));
  y=(row)+(int)(20*Math.cos(angle+180));
  g.drawLine(col1+20, row, x, y);
  x=(col1+20)+(int)(20*Math.sin(angle+190));
  y=(row)+(int)(20*Math.cos(angle+190));
  g.drawLine(col1+20, row, x, y);
  x=(col1+20)+(int)(20*Math.sin(angle+225));
  y=(row)+(int)(20*Math.cos(angle+225));
  g.drawLine(col1+20, row, x, y);
  x=(col1+20)+(int)(20*Math.sin(angle+235));
  y=(row)+(int)(20*Math.cos(angle+235));
  g.drawLine(col1+20, row, x, y);
  x=(col1+20)+(int)(20*Math.sin(angle+280));
  y=(row)+(int)(20*Math.cos(angle+280));
  g.drawLine(col1+20, row, x, y);
  x=(col1+20)+(int)(20*Math.sin(angle+325));
  y=(row)+(int)(20*Math.cos(angle+325));
  g.drawLine(col1+20, row, x, y);
  String str=x+"  "+y;
  if(col%3==0)
  {
   g.setColor(c6);
   g.fillOval(col-90, row-30, 5,8);
   g.fillOval(col-90, row-15, 5,8);
   g.fillOval(col-90, row, 5,8);
  }
  if(col%3==1)
  {
   g.setColor(c5);
   g.fillOval(col-80, row-20, 3,5);
   g.fillOval(col-80, row-5, 3,5);
  }
  if(col%3==2)
  {
   g.setColor(black);
   g.fillOval(col-68, row-10, 3,4);
  }
  angle+=1;
  if(col==1500)
  {
   col=-300;
   col1=col+220;
  }
  else
  {
   col+=1;
   col1+=1;
  }
 }
}

Output
Java Program Name: Applet_Animation.java