Sign up ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I'm trying to learn java by following the cs106a course online. Currently I've arrived at the breakout exersize and I'm having some trouble with bugs

I haven't finished it completely but I want to solves these issues first before I go further.

Problem 1:

when the ball collides with the bricks they don't always seem to be removed from the canvas. sometimes the brick will be removed on a second time it collides. But there is one row (of yellow bricks) that doesn't respond at all to the ball collisions.

Problem 2:

my paddle can be moved by dragging the mouse. the only problem is. the bricks can also be moved like the paddle.

I know it has something to do with this piece of code

gobj = getElementAt(lastX, lastY);

If I remove it altogether the bricks aren't moveable anymore. which is good. but I'm still able to move the paddle no matter where I click and drag.

can anyone give me a hint so I can correct the mistakes?

Here's my code below. Thanks

 * File: 
 * ------------------- 
 * This file will eventually implement the game of Breakout. 
import acm.program.*;
import acm.util.*;
import java.applet.*;
import java.awt.*;
import java.awt.event.*;

import org.omg.CORBA.PUBLIC_MEMBER;

public class breakout extends GraphicsProgram {
    /** Width and height of application window in pixels */
    public static final int APPLICATION_WIDTH = 400;
    public static final int APPLICATION_HEIGHT = 600;
    /** Dimensions of game board (usually the same) */
    private static final int WIDTH = APPLICATION_WIDTH;
    private static final int HEIGHT = APPLICATION_HEIGHT;
    /** Dimensions of the paddle */
    private static final int PADDLE_WIDTH = 60;
    private static final int PADDLE_HEIGHT = 10;
    /** Offset of the paddle up from the bottom */
    private static final int PADDLE_Y_OFFSET = 30;
    /** Number of bricks per row */
    private static final int NBRICKS_PER_ROW = 10;
    /** Number of rows of bricks */
    private static final int NBRICK_ROWS = 8;
    /** Separation between bricks */
    private static final int BRICK_SEP = 4;
    /** Width of a brick */
    private static final int BRICK_WIDTH = (WIDTH - (NBRICKS_PER_ROW - 1)* BRICK_SEP)/ NBRICKS_PER_ROW;
    /** Height of a brick */
    private static final int BRICK_HEIGHT = 8;
    /** Radius of the ball in pixels */
    private static final int BALL_RADIUS = 10;
    /** Offset of the top brick row from the top */
    private static final int BRICK_Y_OFFSET = 70;
    /** Number of turns */
    private static final int NTURNS = 3;

    private static final int DELAY = 50;
    private static final double X_START = WIDTH / 2;
    private static final double Y_START = 450;

    public void run() {

    private void ball() {

        ball = new GOval(X_START, Y_START, BALL_RADIUS, BALL_RADIUS);


    private void paddle() {

        paddle = new GRect(100, 500, PADDLE_WIDTH, PADDLE_HEIGHT);

    private void brick(int x, int y, Color c) {

        GRect brick = new GRect(x, y, BRICK_WIDTH, BRICK_HEIGHT);


    private void brickRow(int x, int y, Color c) {
        x = BRICK_SEP / 2;
        y += BRICK_Y_OFFSET;
        for (int i = 0; i < NBRICKS_PER_ROW; i++) {
            brick(x, y, c);
            x += BRICK_WIDTH + BRICK_SEP;


private void world() {

        //initialize x and y position for the rows of bricks
        int x = 0;
        int y = 0;
        // set starting color for first row
        Color c =;


        //create 2 rows of bricks and switch colors
        for (int i = 0; i < NBRICK_ROWS; i++) {
            if (i <= 1) {
                c = Color.ORANGE;

            } else if (i > 1 && i <= 3) {
                c = Color.YELLOW;

            } else if (i > 3 && i <= 5) {
                c = Color.GREEN;

            } else if (i > 5 && i <= 7) {
                c = Color.CYAN;

            brickRow(x, y, c);
            y += BRICK_HEIGHT + BRICK_SEP;


    private void moveBall() {
        ball.move(xVel, yVel);


    public void mousePressed(MouseEvent e) {

        lastX = e.getX();
        lastY = e.getY();
        gobj = getElementAt(lastX, lastY);


    public void mouseDragged(MouseEvent e) {
        if (paddle != null) {
            paddle.move(e.getX() - lastX, getY());
            lastX = e.getX();
            lastY = e.getY();

        //constrain paddle movement
        if (paddle.getX() < 0){
            paddle.setLocation(0, 500);
        }else if (paddle.getX()+BRICK_WIDTH > WIDTH ){
            paddle.setLocation(WIDTH-BRICK_WIDTH, 500);


    private void checkForCollision() {

        // ball collission with walls
        if (ball.getY() > getHeight() - BALL_RADIUS
                || ball.getY() < 0 + BALL_RADIUS) {
            yVel = -yVel;
        } else if (ball.getX() > getWidth() - BALL_RADIUS
                || ball.getX() < 1 + BALL_RADIUS) {
            xVel = -xVel;

            // ball collission with paddle
        } else if (getElementAt(ball.getX() + BALL_RADIUS, ball.getY()
                + BALL_RADIUS) == paddle) {
            yVel = -yVel;

            // check for collision with bricks to remove them but ignore collision with paddle
        } else if (getElementAt(ball.getX(), ball.getY()) != null
                && getElementAt(ball.getX(), ball.getY()) != paddle) {
            remove(getCollidingObject(ball.getX(), ball.getY()));
            yVel = -yVel;

        } else if (getElementAt(ball.getX() + BALL_RADIUS, ball.getY()
                + BALL_RADIUS) != null
                && getElementAt(ball.getX() + BALL_RADIUS, ball.getY()
                        + BALL_RADIUS) != paddle) {
            remove(getCollidingObject(ball.getX() + BALL_RADIUS, ball.getY()
                    + BALL_RADIUS));
            yVel = -yVel;

        } else if (getElementAt(ball.getX() + BALL_RADIUS, ball.getY()
                + BALL_RADIUS) != null
                && getElementAt(ball.getX() + BALL_RADIUS, ball.getY()
                        + BALL_RADIUS) != paddle) {
            remove(getCollidingObject(ball.getX() + BALL_RADIUS, ball.getY()
                    + BALL_RADIUS));
            yVel = -yVel;

        } else if (getElementAt(ball.getX(), ball.getY() + BALL_RADIUS) != null
                && getElementAt(ball.getX(), ball.getY() + BALL_RADIUS) != paddle) {
            remove(getCollidingObject(ball.getX(), ball.getY() + BALL_RADIUS));
            yVel = -yVel;

    private void play() {
        while (true) {


    private GObject getCollidingObject(double x, double y) {
        return getElementAt(x, y);


    private double lastX;
    private double lastY;

    private double xVel = 5;
    private double yVel = 15;

    private GOval ball;
    private GRect paddle;
    private GObject gobj;

share|improve this question
One problem here is that you've got one huge god-class, making your code difficult to analyze or debug. Have you thought of refactoring and decomposing the problem into separate classes? –  Hovercraft Full Of Eels Jun 30 '11 at 21:28
@Ramin I normally wouldn't comment on this type of question but I'm bored on my last day at work here. Your code assumes that there will never be an overlap during a collision and the ball will always neatly strike the brick at the top left corner (or bottom right). You should probably re-evaluation your collision detection code. This is a problem that has been solved a million times over - a quick search of "collision detection" will tell you all you need to know. –  SRM Jun 30 '11 at 21:29
@Hovercraft Full Of Eels I think that you mean my "private void checkForCollision() {" method is way to complicated and messy? you probably have a good point there. I'll see if I can structure this better. –  Ramin Jun 30 '11 at 21:42
@Ramin No, I think he means what he said. I can see at least three classes that you could refactor out from there. I would even look at abstracting the eventing system (so you can assign multiple "hard" events, e.g. mouse, keyboard, to the same "soft" event, e.g. MoveUpEvent) –  SRM Jun 30 '11 at 21:44
ok @SRM I get it. I'll try to break this down into different classes. and I'll look into what you said about the collision detection. I'll get back with an improved version. –  Ramin Jun 30 '11 at 21:59

2 Answers 2

Why don't you use suggested method in handout 19:

private GObject getCollidingObject()

use also collider:

GObject collider = getCollidingObject();

First of all separate your conditions with walls collisions and (paddle with bricks) game elements collisions into two separate methods cause to simplify else if cascading (decomposition I think you know what it means). You have only two objects what you should worry about paddle and bricks, so you need to compare only on (collider == paddle) and collider != null. Also you use only radius in comparisons but should use diameter (2 * radius). Have fun :)

share|improve this answer

You're y step for each movement of the ball is too large at 15. Since each brick is only 8 in height, at times you're bypassing the brick before evaluating whether that location contained an object or not. E.g. Lets assume you're last evaluation left you're ball with a Y location of 20 and the closest brick is only length of 2 away. You're next evaluation will not include this brick since you move 15 and the height of the brick is 8, meaning range of y values 22 to 30. You'll be out by 5 away from this brick in you're next evaluation. I know the values should be inverted considering the location of the bricks, but you get the point...

With smaller steps in y values collisions will be checked more regularly and provided you make the step small enough, remove this problem.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.