Solution for Programmming Exercise 6.3
This page contains a sample solution to one of the exercises from Introduction to Programming Using Java.
Exercise 6.3:
Write a panel that shows a pair of dice. When the user clicks on the panel, the dice should be rolled (that is, the dice should be assigned newly computed random values). Each die should be drawn as a square showing from 1 to 6 dots. Since you have to draw two dice, its a good idea to write a subroutine, "void drawDie(Graphics g, int val, int x, int y)", to draw a die at the specified (x,y) coordinates. The second parameter, val, specifies the value that is showing on the die. Assume that the size of the panel is 100 by 100 pixels. Also write an applet that uses your panel as its content pane. Here is a working version of the applet:
This is largely an exercise in precision drawing.
We need a subclass of JPanel to make the panel. We will also need an object to respond to mouse events. As always, there are several ways to approach this: Let the panel implement MouseListener and listen for events on itself, use a separate class to define the listener object, or use an anonymous inner class (see Subsection 6.4.5). In this case, I decided to use an inner class. The listener object is created and registered to listen for mouse events in the constructor of the main class:
addMouseListener( new MouseAdapter() { public void mousePressed(MouseEvent evt) { roll(); } });
By using MouseAdapter instead of MouseListener as the superclass for the listener, I avoid the necessity of providing empty definitions for mouseReleased, mouseClicked, mouseEntered, and mouseExited. MouseAdapter is discussed in Subsection 6.4.5. In the mousePressed() method, roll() is a method that is defined in the main class; it just rolls the dice. It would be reasonable to put the code for rolling the dice in mousePressed(), but writing a subroutine to do it makes the program a little easier to modify for the next exercise. Anyway, when you can identify a self-contained, meaningful task to be performed, it's never a bad a idea to write a subroutine to do it. It will make the program more readable, if nothing else. My roll subroutine assigns random values to the dice and calls repaint() so that the new values will be shown.
The hardest part of this exercise is drawing the dice. I made each die 35 pixels wide, leaving a 10 pixel border on each side and 10 pixels between the dice, for a total of 100 pixels. The top left corner of the left die is at (10,10), the top left corner of the right die is at (55,55). The 55 includes the 10 pixel border on the left, the 35 pixel width of the other die, and the 10 pixels between the dice. The paintComponent() method calls a drawDie() routine to draw each die, using the commands:
drawDie(g, die1, 10, 10); drawDie(g, die2, 55, 55);
where die1 is the numerical value shown on the first die and die2 is the numerical value of the second die.
As for the drawDie routine, there are two quite different algorithms that could have been used for drawing the dots. Either:
if the value shown is 1 draw 1 dot (in the center) else if the value shown is 2 draw 2 dots (in the top-left and bottom-right corners) . . . else if the value shown is 6 draw 6 dots (along the left and right edges)
Or:
if the value has a dot in the top-left corner draw the top-left dot else if the value has a dot in the top-right corner draw the top-right dot . . . else if the value has a dot in the bottom-right corner draw the bottom-right dot
Although the first algorithm is more obvious, the second requires much less typing. (The first algorithm ends up using 21 drawOval() commands, while the second uses only 7.) Furthermore, after drawing the dice on paper, I found that the conditions for testing when a given dot needs to be drawn are simpler than I expected. For example, the values that need a dot in the top-left position are all the values greater than 1. The algorithm leads to my drawDice() routine:
/** * Draw a die with upper left corner at (x,y). The die is * 35 by 35 pixels in size. The val parameter gives the * value showing on the die (that is, the number of dots). */ private void drawDie(Graphics g, int val, int x, int y) { g.setColor(Color.white); g.fillRect(x, y, 35, 35); g.setColor(Color.black); g.drawRect(x, y, 34, 34); if (val > 1) // upper left dot g.fillOval(x+3, y+3, 9, 9); if (val > 3) // upper right dot g.fillOval(x+23, y+3, 9, 9); if (val == 6) // middle left dot g.fillOval(x+3, y+13, 9, 9); if (val % 2 == 1) // middle dot (for odd-numbered val's) g.fillOval(x+13, y+13, 9, 9); if (val == 6) // middle right dot g.fillOval(x+23, y+13, 9, 9); if (val > 3) // bottom left dot g.fillOval(x+3, y+23, 9, 9); if (val > 1) // bottom right dot g.fillOval(x+23, y+23, 9,9); }
It took some care to figure out the numbers to use in the fillOval commands. The individual dots have a diameter of 9 pixels. There are three rows of dots, which have a combined height of 27 pixels. That leaves 35 minus 27, or 8 pixels for spacing. I use 3 pixels between the dots and the edge of the die, and 1 pixel between rows. This puts the tops of the rows at 3, 3+9+1, and 3+9+1+9+1, that is, at 3, 13, and 23. The columns use the same numbers. (If you believe that I got all this right the first time, I won't disillusion you!)
The paintComponent method just draws the two dice and the border around the panel
public void paintComponent(Graphics g) { super.paintComponent(g); // fill with background color. g.setColor( Color.BLUE ); g.drawRect(0,0,99,99); g.drawRect(1,1,97,97); drawDie(g, die1, 10, 10); drawDie(g, die2, 55, 55); }
It is easy to write an applet class that uses a DicePanel as its content pane, and I do not give the source code for it here. (Look at the bottom of the solution to Exercise 6.2 if you are still not sure how to do it.)
One more small remark on the solution: The constructor of the DicePanel class sets the preferred size of the panel to be 100-by-100 pixels, using the command:
setPreferredSize( new Dimension(100,100) );
When a panel is used in an applet, this has no effect since the size of the applet is set in the <applet> tag in the HTML source code of the web page on which the applet appears. However, if a DicePanel is used in some context where its preferred size is taken into account, it's important for it to have a correctly set preferred size.
import java.awt.*; import java.awt.event.*; import javax.swing.*; /** * Shows a pair of dice that are rolled when the user clicks on the * applet. It is assumed that the panel is 100-by-100 pixels. */ public class DicePanel extends JPanel { private int die1 = 4; // The values shown on the dice. private int die2 = 3; /** * The constructor adds a mouse listener to the panel. The listener * will roll the dice when the user clicks the panel. Also, the * background color and the preferred size of the panel are set. */ public DicePanel() { setPreferredSize( new Dimension(100,100) ); setBackground( new Color(200,200,255) ); // light blue addMouseListener( new MouseAdapter() { public void mousePressed(MouseEvent evt) { roll(); } }); } /** * Draw a die with upper left corner at (x,y). The die is * 35 by 35 pixels in size. The val parameter gives the * value showing on the die (that is, the number of dots). */ private void drawDie(Graphics g, int val, int x, int y) { g.setColor(Color.white); g.fillRect(x, y, 35, 35); g.setColor(Color.black); g.drawRect(x, y, 34, 34); if (val > 1) // upper left dot g.fillOval(x+3, y+3, 9, 9); if (val > 3) // upper right dot g.fillOval(x+23, y+3, 9, 9); if (val == 6) // middle left dot g.fillOval(x+3, y+13, 9, 9); if (val % 2 == 1) // middle dot (for odd-numbered val's) g.fillOval(x+13, y+13, 9, 9); if (val == 6) // middle right dot g.fillOval(x+23, y+13, 9, 9); if (val > 3) // bottom left dot g.fillOval(x+3, y+23, 9, 9); if (val > 1) // bottom right dot g.fillOval(x+23, y+23, 9,9); } /** * Roll the dice by randomizing their values. Tell the * system to repaint the applet, to show the new values. */ void roll() { die1 = (int)(Math.random()*6) + 1; die2 = (int)(Math.random()*6) + 1; repaint(); } /** * The paintComponent method just draws the two dice and draws * a one-pixel wide blue border around the panel. */ public void paintComponent(Graphics g) { super.paintComponent(g); // fill with background color. g.setColor( Color.BLUE ); g.drawRect(0,0,99,99); g.drawRect(1,1,97,97); drawDie(g, die1, 10, 10); drawDie(g, die2, 55, 55); } } // end class DicePanel