I made Breakout and it works fine but its a bit laggy due to tons of checks being made for hits. Does anyone know how I can redo my hit checking to improve the speed/efficiency? (FYI the didCollide[Direction] methods check if it hit on that side - didCollideTop() checks if it hit the top of the block)

import java.awt.Color;
import java.awt.Graphics;
import java.awt.Graphics2D;
import java.awt.Canvas;
import java.awt.event.KeyListener;
import java.awt.event.KeyEvent;
import static java.lang.Character.*;
import java.awt.image.BufferedImage;
import java.util.ArrayList;

public class Breakout extends Canvas implements KeyListener, Runnable, Frame
private Ball ball;
private Paddle paddle;
private boolean[] keys;
private BufferedImage back;
private ArrayList<Wall> walls = new ArrayList<Wall>();
private ArrayList<Square> squares = new ArrayList<Square>();
private final int SIDEBORDER = 20;
private final int BOTTOMBORDER = 60;
private final int BALL_SPEED = 20;
private final int WALL_SIZE = 20;

public Breakout()
    ball = new Ball((int) (Frame.WIDTH / 2.1), (int) (Frame.HEIGHT / 1.15), 20, 20, Color.green, BALL_SPEED, -BALL_SPEED);      //instantiate a Ball
    paddle = new Paddle((int) (Frame.WIDTH / 2.2), Frame.HEIGHT - 80, 100, 25, Color.blue, 20);     //instantiate a Paddle

    //makes the left walls
    for (int i = 20; i < Frame.HEIGHT - BOTTOMBORDER; i += 20)
        walls.add(new Wall(0, i, WALL_SIZE, WALL_SIZE));

    //makes the top walls
    for (int i = 0; i < Frame.WIDTH - SIDEBORDER; i += 20)
        walls.add(new Wall(i, 0, WALL_SIZE, WALL_SIZE));

    //makes the right walls
    for (int i = 20; i < Frame.HEIGHT - BOTTOMBORDER; i += 20)
        walls.add(new Wall(Frame.WIDTH - 40, i, WALL_SIZE, WALL_SIZE));

    //makes the squares (the ones you hit)
    for (int i = 80; i < Frame.HEIGHT / 2; i += 40)
        for (int j = 80; j < Frame.WIDTH / 1.1; j += 70)
            squares.add(new Square(j, i, 60, 30));

    keys = new boolean[2];


    new Thread(this).start();

public void update(Graphics window)

public void paint(Graphics window)
    Graphics2D twoDGraph = (Graphics2D) window;

    back = null;

    //take a snap shop of the current screen and save it as an image
    if (back == null)
       back = (BufferedImage)(createImage(getWidth(), getHeight()));

    //create a graphics reference to the back ground image
    //draw all changes on the background image
    Graphics graphToBack = back.createGraphics();


    for (int i = 0; i < walls.size(); i++) //draw walls

    for (int i = 0; i < squares.size(); i++) //draw squares

    //see if the paddle can move
    if (keys[0] == true && paddle.getX() > WALL_SIZE + 15)
        paddle.moveLeftAndDraw(window);     //move paddle left and draw it

    if (keys[1] == true && paddle.getX() + paddle.getWidth() < walls.get(walls.size() - 1).getX() - 15)
        paddle.moveRightAndDraw(window);    //move paddle right and draw it

    //see if the ball hits the top walls
    if (ball.getY() + ball.getYSpeed() <= WALL_SIZE)

    //see if the ball hits the left walls
    if (ball.getX() + ball.getXSpeed() <= WALL_SIZE)

    //see if the ball hits the right walls
    if (ball.getX() + ball.getWidth() + ball.getXSpeed() >= walls.get(walls.size() - 1).getX())

    //see if the ball hits the paddle
    if (ball.didCollideTop(paddle))         //top of paddle

    else if (ball.didCollideLeft(paddle) || ball.didCollideRight(paddle))   //sides of paddle

    //checks if the ball hits a square
    for (int i = squares.size() - 1; i >= 0; i--)
        if (ball.didCollideLeft(squares.get(i)) || ball.didCollideRight(squares.get(i)))

        else if (ball.didCollideTop(squares.get(i)) || ball.didCollideBottom(squares.get(i)))

    if (ball.getY() + ball.getHeight() > Frame.HEIGHT)  //resets ball if it goes off screen

    if (squares.size() == 0)
        graphToBack.drawString("You Win!", (int) (Frame.WIDTH / 6.5), (int) (Frame.HEIGHT / 2.5));

    twoDGraph.drawImage(back, null, 0, 0);

 * Randomly generates true or false
 * Used to randomize ball direction on reset
 * @return true or false
public boolean genRandom()
   if ((int) (Math.random() * 2) == 0)
       return true;
       return false;

 * Generates a random color
 * @return a random color
public Color randomColor()
    int r = (int) (1 + Math.random() * 255);
    int g = (int) (1 + Math.random() * 255);
    int b = (int) (1 + Math.random() * 255);
    return new Color(r, g, b);

 * Resets the ball in middle
 * Resets the ball's speed
 * Chooses a random direction
public void resetBall()
   ball.setPos((int) (Frame.WIDTH / 2.1), (int) (Frame.HEIGHT / 1.15)); //reset position
   ball.setXSpeed(BALL_SPEED);                      //reset speeds

   if (genRandom())                                 //random X direction

public void keyPressed(KeyEvent e)
     case 'D' : keys[0] = true; break;  //left
     case 'J' : keys[1] = true; break;  //right

public void keyReleased(KeyEvent e)
    case 'D' : keys[0] = false; break;
    case 'J' : keys[1] = false; break;

public void run()
catch(Exception e){}

public void keyTyped(KeyEvent e) {}
  • It would be nice to the see the collision detection methods themselves, but one quick optimization would be to stop hit-testing if you detect a collision. Also, you could initially calculate the dead-zone between the top of the paddle and the bottom of the lowest block and don't do any testing if the y position is in that zone. – dlev Mar 12 '14 at 0:54

Your blocks are arranged in a grid. If you store the blocks in a 2D array (indexed by grid row and column number), you can directly compute the grid coordinates of the ball (divide ball X / block width and ball Y / block height) then check to see if there is a block in that grid cell (or the neighboring cells, noting that the ball could be on a border of up to 4 cells [presuming its diameter is less than the smaller dimension of a cell -- but you can easily adapt if this is not the case]). This would be O(1); you would be directly determining the possible blocks that the ball could be overlapping.

Then you only need to do actual collision detection on up to 4 blocks (the ones in the grid cells that the ball is over) instead of every block -- and at no point would you have to iterate over all blocks.

Your wall cells could be worked into this grid as well.

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