I have recently begun working with double buffering in Java. I have read tutorials that have shown me how to display images and move them using mouse and keyboard events. However this is where I become confused. My program is simple, there is a rectangle at the bottom of my window that is movable by LEFT and RIGHT key events. However I can not figure out for the life of my how to draw another shape onto the screen by an event and continue buffering it.
I would like to be able to push a key to draw a "missile" (which in my case would be a small Oval) at the X and Y position of the rectangle I have drawn already, and have it fire upwards. Much like any classic space shooter.
This however is not as much of a specific, concrete problem of mine, but a concept I do not understand. I learned how to do many of the similar things in Lua, however when it came to drawing new images after initialization or an image upon key events, I was stumped.
My question is this: In what order of Java's init(), stop(), destroy(), start(), run(), paint(), and update() cycle do I use to buffer a new shape/image onto the screen from a key event?
I have searched many tutorials with example code, but with no avail. I have been learning Java for nearly 8 months now, but no matter how basic or simple I try to understand something, it's as if even the most primordial tutorial requires prerequisite knowledge.
My code is as follows.
import java.applet.*;
import java.awt.*;
public class SquareApplet extends Applet implements Runnable
{
int x_pos = 10;
int y_pos = 400;
int rectX = 50;
int rectY = 20;
int x_speed = 5;
private Image dbImage;
private Graphics dbg;
public void init( ) { }
//public void start() { }
public void stop( ) { }
public void destroy( ) { }
//public void run ( ) { }
//public void paint (Graphics g) { }
public void start()
{
// define a new thread
Thread th = new Thread (this);
// start this thread
th.start ();
}
public void run ()
{
// lower ThreadPriority
Thread.currentThread().setPriority(Thread.MIN_PRIORITY);
// run a long while (true) this means in our case "always"
while (true) //Runtime
{
if (x_pos > this.getSize().width - rectX) {x_pos = this.getSize().width - rectX;}
if (x_pos < 0) {x_pos = 0 ;}
// repaint the applet
repaint();
try
{
// Stop thread for 20 milliseconds
Thread.sleep (20);
}
catch (InterruptedException beepis)
{
// do nothing
}
// set ThreadPriority to maximum value
Thread.currentThread().setPriority(Thread.MAX_PRIORITY);
}
}
public void paint (Graphics g)
{
// set background color
g.setColor(Color.black);
g.fillRect(0,0,this.getSize().width,this.getSize().height);
// set player color
g.setColor (Color.white);
// paint a filled colored rectangle
g.fillRect(x_pos, y_pos, rectX,rectY );
}
public void update (Graphics g)
{
// initialize buffer
if (dbImage == null)
{
dbImage = createImage (this.getSize().width, this.getSize().height);
dbg = dbImage.getGraphics ();
}
// clear screen in background
dbg.setColor (getBackground ());
dbg.fillRect (0, 0, this.getSize().width, this.getSize().height);
// draw elements in background
dbg.setColor (getForeground());
paint (dbg);
// draw image on the screen
g.drawImage (dbImage, 0, 0, this);
}
//KEY EVENTS
public boolean keyDown(Event e, int key)
{
//Up Down Left Right
if (key == Event.LEFT)
{
x_pos -= x_speed;
}
if (key == Event.RIGHT)
{
x_pos += x_speed;
}
return true;
}
}
