I've posted a video on Youtube, where you can see the problem. I've slowed the video down, so you really can see the jumps.
LINK: https://www.youtube.com/watch?v=17Wftj2-MRM&feature=youtu.be
The problem is most visible in the last part of the video. You can clearly see the frame jumps, it's like it skipped a frame or two..
I have none problems with lag or performance, as the computer i'm running the games on got the latest tech..
I thought it may had something to do with the game loop, like a rounding error or something, but I can't seem to find any bug in the code..
I've looked for a similar problem online, but can't find it..
So here's my code
The GUI
import java.awt.Container;
import java.awt.Graphics2D;
import java.awt.event.KeyAdapter;
import java.awt.event.KeyEvent;
import java.awt.event.MouseAdapter;
import java.awt.event.MouseEvent;
import java.awt.image.BufferedImage;
import javax.swing.JFrame;
public class Gui extends JFrame implements Runnable {
private static final long serialVersionUID = 1L;
public static final int FRAMES_PR_SEC = 60;
public static final int TIME_PR_FRAME = 1000 / FRAMES_PR_SEC;
public static final int MARGIN_X = 3;
public static final int MARGIN_Y = 32;
public static final int WIDTH = 800;
public static final int HEIGHT = 600;
public static int TILE_SIZE = 32;
public static int SPEED = 5;
public static void main(final String[] args) {
new Gui();
}
private Game _game;
private Container _cp;
private BufferedImage _img;
private Graphics2D _g;
public Gui() {
super("Tile Based Game");
setSize(WIDTH + MARGIN_X + 3, HEIGHT + MARGIN_Y - 4);
setResizable(false);
setVisible(true);
setLocationRelativeTo(null);
setDefaultCloseOperation(EXIT_ON_CLOSE);
_cp = getContentPane();
_game = new Game();
newGraphics();
addMouseListener(new MouseAdapter() {
#Override
public void mousePressed(final MouseEvent arg0) {
_game.mP(arg0.getX() - MARGIN_X, arg0.getY() - MARGIN_Y);
}
#Override
public void mouseReleased(final MouseEvent arg0) {
_game.mR(arg0.getX() - MARGIN_X, arg0.getY() - MARGIN_Y);
}
});
addKeyListener(new KeyAdapter() {
#Override
public void keyPressed(final KeyEvent arg0) {
_game.keyP(arg0.getKeyCode());
}
#Override
public void keyReleased(final KeyEvent arg0) {
_game.keyR(arg0.getKeyCode());
}
});
new Thread(this).start();
}
private void newGraphics() {
_img = getGraphicsConfiguration().createCompatibleImage(WIDTH, HEIGHT);
_g = _img.createGraphics();
}
#Override
public void run() {
while (true) {
long before = System.currentTimeMillis();
_game.update();
newGraphics();
_game.draw(_g);
_cp.getGraphics().drawImage(_img, 0, 0, null);
long after = System.currentTimeMillis();
long sleep = TIME_PR_FRAME - (after - before);
System.out.println(sleep);
if (sleep < 5) {
sleep = 5;
}
try {
Thread.sleep(sleep);
} catch (InterruptedException e) {
}
}
}
}
I suppose that everything you will need is in the GUI class, but I've included the other classes in case you need anything from them.
The Game class
import java.awt.Color;
import java.awt.Graphics2D;
import java.awt.event.KeyEvent;
public class Game {
private Map[] _maps;
private String[] _mapNames;
private int _currentMap;
private boolean _r;
private boolean _l;
private boolean _u;
private boolean _d;
public Game() {
_mapNames = new String[0];
_maps = new Map[0];
addMap("test.map");
}
public void addMap(final String s) {
String[] stringTemp = _mapNames;
_mapNames = new String[stringTemp.length + 1];
for (int i = 0; i < stringTemp.length; i++) {
_mapNames[i] = stringTemp[i];
}
_mapNames[_mapNames.length - 1] = s.replace(".map", "");
Map[] mapTemp = _maps;
_maps = new Map[mapTemp.length + 1];
for (int i = 0; i < mapTemp.length; i++) {
_maps[i] = mapTemp[i];
}
_maps[_maps.length - 1] = new Map(s);
}
public void draw(final Graphics2D _g) {
_maps[_currentMap].draw(_g);
_g.setColor(Color.WHITE);
_g.drawString(_mapNames[_currentMap], 5, 595);
}
public void keyP(final int keyCode) {
if (keyCode == KeyEvent.VK_RIGHT) {
_r = true;
}
if (keyCode == KeyEvent.VK_LEFT) {
_l = true;
}
if (keyCode == KeyEvent.VK_UP) {
_u = true;
}
if (keyCode == KeyEvent.VK_DOWN) {
_d = true;
}
}
public void keyR(final int keyCode) {
if (keyCode == KeyEvent.VK_SPACE) {
if (_currentMap < _maps.length - 1) {
_currentMap++;
} else {
_currentMap = 0;
}
}
if (keyCode == KeyEvent.VK_RIGHT) {
_r = false;
}
if (keyCode == KeyEvent.VK_LEFT) {
_l = false;
}
if (keyCode == KeyEvent.VK_UP) {
_u = false;
}
if (keyCode == KeyEvent.VK_DOWN) {
_d = false;
}
}
public void mP(final int i, final int j) {
}
public void mR(final int i, final int j) {
}
public void update() {
if (_r) {
_maps[_currentMap].incOffsetX(Gui.SPEED);
}
if (_l) {
_maps[_currentMap].decOffsetX(Gui.SPEED);
}
if (_u) {
_maps[_currentMap].decOffsetY(Gui.SPEED);
}
if (_d) {
_maps[_currentMap].incOffsetY(Gui.SPEED);
}
_maps[_currentMap].update();
}
}
And finally the Map class (handles loading of .map files and such)
import java.awt.Color;
import java.awt.Graphics2D;
import java.awt.Image;
import java.awt.image.BufferedImage;
import java.io.BufferedReader;
import java.io.File;
import java.io.FileNotFoundException;
import java.io.FileReader;
import java.io.IOException;
import javax.imageio.ImageIO;
public class Map {
private class Tile {
private Image _img;
private int _x;
private int _y;
public Tile(final Image img) {
_img = img;
}
public Image getImg() {
return _img;
}
public int getX() {
return _x;
}
public int getY() {
return _y;
}
public void setLoc(final int x, final int y) {
_x = x * Gui.TILE_SIZE;
_y = y * Gui.TILE_SIZE;
}
}
private int _offsetX;
private int _offsetY;
private String[][] _map;
private Tile[][] _tileMap;
private BufferedImage _terrain;
private Color _waterColor;
public Map(final String s) {
_terrain = loadImg("terrain.png");
_waterColor = new Color(21, 108, 153);
_map = loadMap(s);
_offsetX = _map[0].length * Gui.TILE_SIZE / 2 - Gui.WIDTH / 2;
_offsetY = _map.length * Gui.TILE_SIZE / 2 - Gui.HEIGHT / 2;
_tileMap = new Tile[_map.length][_map[0].length];
for (int i = 0; _map.length > i; i++) {
for (int j = 0; _map[0].length > j; j++) {
Image img;
switch (_map[i][j]) {
case "o":
img = getSubimage(_terrain, 0, 0, 3, 6);
break;
case "0":
img = getSubimage(_terrain, 0, 1, 3, 6);
break;
case "a":
img = getSubimage(_terrain, 1, 0, 3, 6);
break;
case "b":
img = getSubimage(_terrain, 2, 0, 3, 6);
break;
case "c":
img = getSubimage(_terrain, 1, 1, 3, 6);
break;
case "d":
img = getSubimage(_terrain, 2, 1, 3, 6);
break;
case "1":
img = getSubimage(_terrain, 0, 2, 3, 6);
break;
case "2":
img = getSubimage(_terrain, 1, 2, 3, 6);
break;
case "3":
img = getSubimage(_terrain, 2, 2, 3, 6);
break;
case "4":
img = getSubimage(_terrain, 0, 3, 3, 6);
break;
case "5":
img = getSubimage(_terrain, 1, 3, 3, 6);
break;
case "6":
img = getSubimage(_terrain, 2, 3, 3, 6);
break;
case "7":
img = getSubimage(_terrain, 0, 4, 3, 6);
break;
case "8":
img = getSubimage(_terrain, 1, 4, 3, 6);
break;
case "9":
img = getSubimage(_terrain, 2, 4, 3, 6);
break;
case "#":
img = getSubimage(_terrain, 0, 5, 3, 6);
break;
case "&":
img = getSubimage(_terrain, 1, 5, 3, 6);
break;
case "%":
img = getSubimage(_terrain, 2, 5, 3, 6);
break;
default:
img = null;
break;
}
Tile tile = new Tile(img);
int x = j;
int y = i;
tile.setLoc(x, y);
_tileMap[i][j] = tile;
}
}
}
public void decOffsetX(final int i) {
_offsetX -= i;
}
public void decOffsetY(final int i) {
_offsetY -= i;
}
public void draw(final Graphics2D _g) {
for (int i = 0; _tileMap.length > i; i++) {
for (int j = 0; _tileMap[0].length > j; j++) {
if (_tileMap[i][j].getImg() != null
&& isVisible(_tileMap[i][j])) {
_g.drawImage(_tileMap[i][j].getImg(), _tileMap[i][j].getX()
- _offsetX, _tileMap[i][j].getY() - _offsetY, null);
} else if (_tileMap[i][j].getImg() == null
&& isVisible(_tileMap[i][j])) {
_g.setColor(_waterColor);
_g.fillRect(_tileMap[i][j].getX() - _offsetX,
_tileMap[i][j].getY() - _offsetY, Gui.TILE_SIZE,
Gui.TILE_SIZE);
}
}
}
}
private Image getSubimage(final BufferedImage img, final int x,
final int y, final int w, final int h) {
return img.getSubimage(x * Gui.TILE_SIZE, y * Gui.TILE_SIZE,
Gui.TILE_SIZE, Gui.TILE_SIZE);
}
public void incOffsetX(final int i) {
_offsetX += i;
}
public void incOffsetY(final int i) {
_offsetY += i;
}
public boolean isVisible(final Tile tile) {
if (tile.getX() - _offsetX < 0 - Gui.TILE_SIZE) {
return false;
} else if (tile.getX() - _offsetX > Gui.WIDTH) {
return false;
}
if (tile.getY() - _offsetY < 0 - Gui.TILE_SIZE) {
return false;
} else if (tile.getY() - _offsetY > Gui.HEIGHT) {
return false;
}
return true;
}
private BufferedImage loadImg(final String s) {
BufferedImage img = null;
try {
img = ImageIO.read(new File("res/" + s));
} catch (IOException e) {
}
return img;
}
private String[][] loadMap(final String s) {
String _s = null;
String string = null;
int appear = 0;
try {
BufferedReader br;
br = new BufferedReader(new FileReader("res/maps/" + s));
while ((_s = br.readLine()) != null) {
string = string + _s + ",";
appear++;
}
br.close();
} catch (FileNotFoundException e) {
e.printStackTrace();
} catch (IOException e) {
e.printStackTrace();
}
String[] ss = string.replaceAll("null", "").split(",");
String[][] items = new String[appear][];
for (int i = 0; i < items.length; i++) {
items[i] = ss[i].split(" ");
}
return items;
}
public void update() {
if (_offsetX < 0) {
_offsetX += Gui.SPEED;
} else if (_offsetX > _map[0].length * Gui.TILE_SIZE - Gui.WIDTH
- Gui.SPEED) {
_offsetX -= Gui.SPEED;
}
if (_offsetY < 0) {
_offsetY += Gui.SPEED;
} else if (_offsetY > _map.length * Gui.TILE_SIZE - Gui.HEIGHT
- Gui.SPEED) {
_offsetY -= Gui.SPEED;
}
}
}
I'm aware that there probably is a some bugs in the code, and everything is probably not optimal, but this project is VERY early development, and I'm a very inexperienced game developer.. I would appreciate if you would focus on the posted problem, and not my other crap code. :-D
I would really like if you would comment, if you have any suggestions :-D
Thank you
EDIT:
I updated the post, as the problem was unclear. So i uploaded a video, where you can view the bug. I've also cleared some other things :-)
EDIT 2:
Made a new thread on gamedev.stackexchange. It may help you solve the problem: https://gamedev.stackexchange.com/questions/77998/java-game-loop-frame-jumps
SOLUTION:
After a ton of research i came to the conclusion, that it had something to do with the screens refresh rate, and my loops refresh rate.. My screen was simply skipping frames, which was very noticeable!
If you want a indepth solution, google made a video, where they described the problem: https://www.youtube.com/watch?v=hAzhayTnhEI
There are two ways (according to my research) to get rid of this problem:
Either you have to enable VSync through OpenGL, as java doesn't have the option to do so..
Or you have to use a mixture of swing and awt in java (the option i chose).. Here's a thread describing how to do: Smooth Drawing using Java2d without the Opengl or Direct3d Pipelines?
Thank you for all responses!
First of all, an idea is to look into BufferStrategy as a mechanism to create a more robust and performant game loop. Secondly, your game loop is sleeping on varying values dependent on how long your update/rendering takes. This is fine, but your update method should reflect this as well, and not move things around with constant speed. You'll want your entities to move relative to the delta time elapsed since last loop cycle (lastTime - currentTime).
Some of your constants shouldn't be ints. TIME_PR_FRAME for instance, should not really be 16, but 16.67, so make this a double, or at least a float. Your if(sleep < 5) sleep = 5; code makes no sense. If rendering and updating takes very long, you shouldn't waste time sleeping, basically you are deliberately or not introducing jittering in these cases.
Did you debug the code to see what the average values of the sleep variable are, and whether it spikes or not? I'd also do that, if not.
Related
I have this array of classes extending JButtons, and when one is clicked it registers that.
Then if another one gets clicked, they should 'switch' places. So my question is: How can i implement it that is swiches the buttons (so far i got before) and (the important part) how can i 'refresh' the GUI, so the user can see the chenge visually. Following the code:
import javax.swing.*; import Pieces.*;
import java.awt.*;
import java.awt.event.ActionEvent;
import java.awt.event.ActionListener;
public class Game extends JFrame {
private static final int width = 8;
private static final int height = 8;
private static Piece clicked;
public static Piece[][] fields = new Piece[width][height];
private JPanel main = new JPanel();
public static void init(JPanel g) {
for (int y = 0; y < fields.length; y++) {
for (int x = 0; x < fields[y].length; x++) {
if (y == 0) {
switch (x) {
case 0,7:
fields[y][x] = new Rook(x,y,1);
break;
case 1,6:
fields[y][x] = new Knight(x,y,1);
break;
case 2,5:
fields[y][x] = new Bishop(x,y,1);
break;
case 3:
fields[y][x] = new Queen(x,y,1);
break;
case 4:
fields[y][x] = new King(x,y,1);
break;
}
}
if (y == 1) fields[y][x] = new Pawn(x, y, 1);
else if (y >= 2 && y <= 5) fields[y][x] = new Empty(x,y,9);
else if (y == 6) fields[y][x] = new Pawn(x, y, 0);
else if(y == 7) {
switch (x) {
case 0,7:
fields[y][x] = new Rook(x,y,0);
break;
case 1,6:
fields[y][x] = new Knight(x,y,0);
break;
case 2,5:
fields[y][x] = new Bishop(x,y,0);
break;
case 3:
fields[y][x] = new Queen(x,y,0);
break;
case 4:
fields[y][x] = new King(x,y,0);
break;
}
}
fields[y][x].addActionListener(e -> {
var p = (Piece) e.getSource();
var pPos = p.getCell();
if(clicked == null) {
clicked = p;
System.out.println(fields[clicked.getCell().y][clicked.getCell().x]);
clicked.setForeground(Color.yellow.darker());
System.out.println("clicked " + pPos);
} else if (pPos == clicked.getCell()) {
clicked.setForeground(Color.white);
System.out.println("deselecting " + pPos);
clicked = null;
} else {
if (clicked.canMoveTo(fields, pPos)) {
fields[p.getCell().y][p.getCell().x] = clicked;
fields[clicked.getCell().y][clicked.getCell().x] = new Empty(clicked.getCell().x, clicked.getCell().y, 9);
System.out.println("moving " + clicked.getCell() + " to " + pPos);
clicked.setForeground(Color.white);
}
else System.out.println("can´t move there, sry");
clicked = null;
}
SwingUtilities.updateComponentTreeUI(g);
});
g.add(fields[y][x]);
}
}
}
public Game() {
main.setBackground(Color.darkGray.darker());
main.setLayout(new GridLayout(8,8));
this.setSize(800,800);
init(main);
this.add(main);
this.setDefaultCloseOperation(EXIT_ON_CLOSE);
this.setLocationRelativeTo(null);
this.setVisible(true);
}
public static void main(String[] args) {
var g = new Game();
}
}
package Pieces;
import javax.swing.*;
import java.awt.*;
public abstract class Piece extends JButton {
private final int isWhite; //0 is false, 1 is true, 9 is undefined
private Point cell;
public Piece(int x, int y, int isWhite) {
cell = new Point(x, y);
this.isWhite = isWhite;
this.setForeground(Color.white);
this.setOpaque(false);
//this.setContentAreaFilled(false);
}
public Point getCell() {
return cell;
}
public int isWhite() {
return isWhite;
}
public boolean canMoveTo(Piece[][] fields, Point point) {
return true;
}
}
*all the pieces are setup like this
package Pieces;
public class Bishop extends Piece{
public Bishop(int x, int y, int isWhite) {
super(x, y, isWhite);
this.setText("Bishop");
}
}
(yee, this will hopefully be chess sometimes)
I am creating a simple 9x9 grid for Minesweeper. One of the primary functions of this game is to have a recursion to check all the sides when the tile clicked has no bombs surrounding it. In the code attached below, I have been able to create a function that checks the upper and left side of the tile. If I add more directions, such as lower and right side, the program will crash and will not properly display the tiles. (Check the method countBorders under the line //MY MAIN PROBLEM)
//displays the main GUI
package Minesweeper4;
public class mainFrame {
public static void main(String[] args) {
new Grid().setVisible(true);
}
}
// the main code
package Minesweeper4;
import java.awt.*;
import java.awt.event.ActionEvent;
import java.awt.event.ActionListener;
import java.util.ArrayList;
import java.util.Random;
import javax.swing.*;
public class Grid extends JFrame implements ActionListener {
private JPanel mainGrid;
private JButton button1, button2;
private JButton[][] buttons = new JButton[9][9];
private String[][] mines = new String[9][9];
private ArrayList<ParentSquare> parentSquare = new ArrayList<ParentSquare>();
Random rand = new Random();
NumberSquare numberSquare = new NumberSquare();
MineSquare mineSquare = new MineSquare();
public void addMines() {
for (int j = 0; j < 9; j++) {
for (int k = 0; k < 9; k++) {
mines[j][k] = ".";
}
}
for (int i = 0; i < 3; i++) {
int temp_x = rand.nextInt(9);
int temp_y = rand.nextInt(9);
mines[temp_x][temp_y] = "x";
}
}
public void showMines() {
for (int x = 0; x < 9; x++) {
for (int y = 0; y < 9; y++) {
String temp = mines[x][y];
if (temp.equals("x")) {
System.out.println("X: " + (x + 1) + " Y: " + (y + 1) + " Value: " + temp);
}
}
}
}
public Grid() {
this.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE);
this.setSize(500, 500);
this.setTitle("Minesweeper 1.0");
mainGrid = new JPanel();
mainGrid.setLayout(new GridLayout(9, 9));
this.add(mainGrid);
button1 = new JButton("Boop");
button2 = new JButton("Poop");
for (int i = 0; i < 9; i++) {
for (int j = 0; j < 9; j++) {
buttons[i][j] = new JButton("");
buttons[i][j].addActionListener(this);
buttons[i][j].setBackground(Color.GRAY);
}
}
for (int k = 0; k < 9; k++) {
for (int l = 0; l < 9; l++) {
mainGrid.add(buttons[k][l]);
}
}
addMines();
showMines();
}
public void countBorders(int x, int y) {
int UL = 0, UU = 0, UR = 0, LL = 0, RR = 0, DL = 0, DD = 0, DR = 0, SUM = 0;
if (x > 0) {
UU = checkTile(x - 1, y);
}
if (y > 0) {
LL = checkTile(x, y - 1);
}
if (y < 8) {
RR = checkTile(x, y + 1);
}
if (x < 8) {
DD = checkTile(x + 1, y);
}
if ((x > 0) && (y > 0)) {
UL = checkTile(x - 1, y - 1);
}
if ((x > 0) && (y < 8)) {
UR = checkTile(x - 1, y + 1);
}
if ((x < 8) && (y > 0)) {
DL = checkTile(x + 1, y - 1);
}
if ((x < 8) && (y < 8)) {
DR = checkTile(x + 1, y + 1);
}
SUM = UL + UU + UR + LL + RR + DL + DD + DR;
printTile(x, y, SUM);
if (SUM == 0) { //MY MAIN PROBLEM
// if ((x > 0) && (y > 0)) {countBorders(x-1, y-1);} //Upper left
if (x > 0) {
countBorders(x - 1, y);
} //Upper
// if ((x > 0) && (y < 8)) {countBorders(x-1, y+1);} //Upper right
if (y > 0) {
countBorders(x, y - 1);
} //Left
// if (y < 8) {countBorders(x, y+1);} //Right
// if ((x < 8) && (y > 0)) {countBorders(x+1, y-1);} //Down Left
// if (x < 8) {countBorders(x+1, y);} //Down
// if ((x < 8) && (y < 8)) {countBorders(x+1, y+1);} //Down Right
}
}
public void printTile(int x, int y, int SUM) {
String text = Integer.toString(SUM);
buttons[x][y].setText(text);
buttons[x][y].setBackground(Color.CYAN);
}
public int checkTile(int x, int y) {
String c = mines[x][y];
if (c.equals("x")) {
return 1;
} else {
return 0;
}
}
public void click(int x, int y) {
String mine = mines[x][y];
if (mine.equals("x")) {
System.out.println("Bomb!!!");
buttons[x][y].setText("!");
buttons[x][y].setBackground(Color.RED);
} else {
countBorders(x, y);
System.out.println("Safe!!!");
// buttons[x][y].setText("√");
// buttons[x][y].setBackground(Color.WHITE);
}
}
#Override
public void actionPerformed(ActionEvent e) {
for (int i = 0; i < 9; i++) {
for (int j = 0; j < 9; j++) {
if (e.getSource() == buttons[i][j]) {
System.out.println("Clicked Tile X: " + (i + 1) + " Y: " + (j + 1));
//buttons[i][j].setText("!");
click(i, j);
}
}
}
}
}
Is there a way on how to fix this recursion problem?
Thank you in advance and I'm really trying to learn Java. Have a nice day!
Your error-causing recursion has no stopping logic that I can find, and what you need to do is to somehow check to make sure that a cell hasn't already been counted or pressed before re-counting it. Otherwise the code risks throwing a stackoverflow error. This will require giving the cells being counted some state that would tell you this information, that would tell you if the cell has already been counted.
For an example of a successful program that does this logic, feel free to look at my Swing GUI example, one I created 5 years ago. In this code, I've got a class, MineCellModel, that provides the logic (not the GUI) for a single mine sweeper cell, and the class contains a boolean field, pressed, that is false until the cell is "pressed", either by the user pressing the equivalent button, or recursively in the model's logic. If the cell is pressed, if the boolean is true, the recursion stops with this cell.
You can find the code here: Minesweeper Action Events. It's an old program, and so I apologize for any concepts or code that may be off.
Running the code results in this:
Here's the code present in a single file:
import java.awt.CardLayout;
import java.awt.Color;
import java.awt.Dimension;
import java.awt.Font;
import java.awt.GridLayout;
import java.awt.Insets;
import java.awt.event.ActionEvent;
import java.awt.event.ActionListener;
import java.awt.event.KeyEvent;
import java.awt.event.MouseAdapter;
import java.awt.event.MouseEvent;
import java.beans.PropertyChangeEvent;
import java.beans.PropertyChangeListener;
import java.util.ArrayList;
import java.util.Collections;
import java.util.List;
import javax.swing.BoxLayout;
import javax.swing.JButton;
import javax.swing.JFrame;
import javax.swing.JLabel;
import javax.swing.JOptionPane;
import javax.swing.JPanel;
import javax.swing.JSeparator;
import javax.swing.SwingConstants;
import javax.swing.event.SwingPropertyChangeSupport;
#SuppressWarnings("serial")
public class MineSweeper {
private JPanel mainPanel = new JPanel();
private MineCellGrid mineCellGrid;
private JButton resetButton = new JButton("Reset");
public MineSweeper(int rows, int cols, int mineTotal) {
mainPanel.setLayout(new BoxLayout(mainPanel, BoxLayout.PAGE_AXIS));
mineCellGrid = new MineCellGrid(rows, cols, mineTotal);
resetButton.setMnemonic(KeyEvent.VK_R);
resetButton.addActionListener(new ActionListener() {
public void actionPerformed(ActionEvent e) {
mineCellGrid.reset();
}
});
mainPanel.add(mineCellGrid);
mainPanel.add(new JSeparator());
mainPanel.add(new JPanel() {
{
add(resetButton);
}
});
}
private JPanel getMainPanel() {
return mainPanel;
}
private static void createAndShowUI() {
JFrame frame = new JFrame("MineSweeper");
// frame.getContentPane().add(new MineSweeper(20, 20,
// 44).getMainPanel());
frame.getContentPane().add(new MineSweeper(12, 12, 13).getMainPanel());
frame.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE);
frame.pack();
frame.setLocationRelativeTo(null);
frame.setVisible(true);
}
public static void main(String[] args) {
java.awt.EventQueue.invokeLater(new Runnable() {
public void run() {
createAndShowUI();
}
});
}
}
#SuppressWarnings("serial")
class MineCellGrid extends JPanel {
private MineCellGridModel model;
private List<MineCell> mineCells = new ArrayList<MineCell>();
public MineCellGrid(final int maxRows, final int maxCols, int mineNumber) {
model = new MineCellGridModel(maxRows, maxCols, mineNumber);
setLayout(new GridLayout(maxRows, maxCols));
for (int row = 0; row < maxRows; row++) {
for (int col = 0; col < maxCols; col++) {
MineCell mineCell = new MineCell(row, col);
add(mineCell);
mineCells.add(mineCell);
model.add(mineCell.getModel(), row, col);
}
}
reset();
}
public void reset() {
model.reset();
for (MineCell mineCell : mineCells) {
mineCell.reset();
}
}
}
class MineCellGridModel {
private MineCellModel[][] cellModelGrid;
private List<Boolean> mineList = new ArrayList<Boolean>();
private CellModelPropertyChangeListener cellModelPropChangeListener = new CellModelPropertyChangeListener();
private int maxRows;
private int maxCols;
private int mineNumber;
private int buttonsRemaining;
public MineCellGridModel(final int maxRows, final int maxCols, int mineNumber) {
this.maxRows = maxRows;
this.maxCols = maxCols;
this.mineNumber = mineNumber;
for (int i = 0; i < maxRows * maxCols; i++) {
mineList.add((i < mineNumber) ? true : false);
}
cellModelGrid = new MineCellModel[maxRows][maxCols];
buttonsRemaining = (maxRows * maxCols) - mineNumber;
}
public void add(MineCellModel model, int row, int col) {
cellModelGrid[row][col] = model;
model.addPropertyChangeListener(cellModelPropChangeListener);
}
public void reset() {
buttonsRemaining = (maxRows * maxCols) - mineNumber;
// randomize the mine location
Collections.shuffle(mineList);
// reset the model grid and set mines
for (int r = 0; r < cellModelGrid.length; r++) {
for (int c = 0; c < cellModelGrid[r].length; c++) {
cellModelGrid[r][c].reset();
cellModelGrid[r][c].setMined(mineList.get(r * cellModelGrid[r].length + c));
}
}
// advance value property of all neighbors of a mined cell
for (int r = 0; r < cellModelGrid.length; r++) {
for (int c = 0; c < cellModelGrid[r].length; c++) {
if (cellModelGrid[r][c].isMined()) {
int rMin = Math.max(r - 1, 0);
int cMin = Math.max(c - 1, 0);
int rMax = Math.min(r + 1, cellModelGrid.length - 1);
int cMax = Math.min(c + 1, cellModelGrid[r].length - 1);
for (int row2 = rMin; row2 <= rMax; row2++) {
for (int col2 = cMin; col2 <= cMax; col2++) {
cellModelGrid[row2][col2].incrementValue();
}
}
}
}
}
}
private class CellModelPropertyChangeListener implements PropertyChangeListener {
public void propertyChange(PropertyChangeEvent evt) {
MineCellModel model = (MineCellModel) evt.getSource();
int row = model.getRow();
int col = model.getCol();
if (evt.getPropertyName().equals(MineCellModel.BUTTON_PRESSED)) {
if (cellModelGrid[row][col].isMineBlown()) {
mineBlown();
} else {
buttonsRemaining--;
if (buttonsRemaining <= 0) {
JOptionPane.showMessageDialog(null, "You've Won!!!", "Congratulations",
JOptionPane.PLAIN_MESSAGE);
}
if (cellModelGrid[row][col].getValue() == 0) {
zeroValuePress(row, col);
}
}
}
}
private void mineBlown() {
for (int r = 0; r < cellModelGrid.length; r++) {
for (int c = 0; c < cellModelGrid[r].length; c++) {
MineCellModel model = cellModelGrid[r][c];
if (model.isMined()) {
model.setMineBlown(true);
}
}
}
}
private void zeroValuePress(int row, int col) {
int rMin = Math.max(row - 1, 0);
int cMin = Math.max(col - 1, 0);
int rMax = Math.min(row + 1, cellModelGrid.length - 1);
int cMax = Math.min(col + 1, cellModelGrid[row].length - 1);
for (int row2 = rMin; row2 <= rMax; row2++) {
for (int col2 = cMin; col2 <= cMax; col2++) {
cellModelGrid[row2][col2].pressedAction();
}
}
}
}
}
#SuppressWarnings("serial")
class MineCell extends JPanel {
private static final String LABEL = "label";
private static final String BUTTON = "button";
private static final int PS_WIDTH = 24;
private static final int PS_HEIGHT = PS_WIDTH;
private static final float LABEL_FONT_SIZE = (float) (24 * PS_WIDTH) / 30f;
private static final float BUTTON_FONT_SIZE = (float) (14 * PS_WIDTH) / 30f;
private JButton button = new JButton();
private JLabel label = new JLabel(" ", SwingConstants.CENTER);
private CardLayout cardLayout = new CardLayout();
private MineCellModel model;
public MineCell(final boolean mined, int row, int col) {
model = new MineCellModel(mined, row, col);
model.addPropertyChangeListener(new MyPCListener());
label.setFont(label.getFont().deriveFont(Font.BOLD, LABEL_FONT_SIZE));
button.setFont(button.getFont().deriveFont(Font.PLAIN, BUTTON_FONT_SIZE));
button.setMargin(new Insets(1, 1, 1, 1));
setLayout(cardLayout);
add(button, BUTTON);
add(label, LABEL);
button.addActionListener(new ActionListener() {
public void actionPerformed(ActionEvent e) {
pressedAction();
}
});
button.addMouseListener(new MouseAdapter() {
#Override
public void mousePressed(MouseEvent e) {
if (e.getButton() == MouseEvent.BUTTON3) {
model.upDateButtonFlag();
}
}
});
}
public MineCell(int row, int col) {
this(false, row, col);
}
#Override
public Dimension getPreferredSize() {
return new Dimension(PS_WIDTH, PS_HEIGHT);
}
public void pressedAction() {
if (model.isFlagged()) {
return;
}
model.pressedAction();
}
public void showCard(String cardConstant) {
cardLayout.show(this, cardConstant);
}
// TODO: have this change the button's icon
public void setFlag(boolean flag) {
if (flag) {
button.setBackground(Color.yellow);
button.setForeground(Color.red);
button.setText("f");
} else {
button.setBackground(null);
button.setForeground(null);
button.setText("");
}
}
private void setMineBlown(boolean mineBlown) {
if (mineBlown) {
label.setBackground(Color.red);
label.setOpaque(true);
showCard(LABEL);
} else {
label.setBackground(null);
}
}
public MineCellModel getModel() {
return model;
}
public void addPropertyChangeListener(PropertyChangeListener listener) {
model.addPropertyChangeListener(listener);
}
public void removePropertyChangeListener(PropertyChangeListener listener) {
model.removePropertyChangeListener(listener);
}
private class MyPCListener implements PropertyChangeListener {
public void propertyChange(PropertyChangeEvent evt) {
String propName = evt.getPropertyName();
if (propName.equals(MineCellModel.MINE_BLOWN)) {
setMineBlown(true);
} else if (propName.equals(MineCellModel.FLAG_CHANGE)) {
setFlag(model.isFlagged());
} else if (propName.equals(MineCellModel.BUTTON_PRESSED)) {
if (model.isMineBlown()) {
setMineBlown(true);
} else {
String labelText = (model.getValue() == 0) ? "" : String.valueOf(model
.getValue());
label.setText(labelText);
}
showCard(LABEL);
}
}
}
public void reset() {
setFlag(false);
setMineBlown(false);
showCard(BUTTON);
label.setText("");
}
}
class MineCellModel {
public static final String FLAG_CHANGE = "Flag Change";
public static final String BUTTON_PRESSED = "Button Pressed";
public static final String MINE_BLOWN = "Mine Blown";
private int row;
private int col;
private int value = 0;
private boolean mined = false;;
private boolean flagged = false;
private SwingPropertyChangeSupport pcSupport = new SwingPropertyChangeSupport(this);
private boolean pressed = false;
private boolean mineBlown = false;
public MineCellModel(boolean mined, int row, int col) {
this.mined = mined;
this.row = row;
this.col = col;
}
public void incrementValue() {
int temp = value + 1;
setValue(temp);
}
public void setValue(int value) {
this.value = value;
}
public int getValue() {
return value;
}
public void setMineBlown(boolean mineBlown) {
this.mineBlown = mineBlown;
PropertyChangeEvent evt = new PropertyChangeEvent(this, MINE_BLOWN, false, true);
pcSupport.firePropertyChange(evt);
}
public boolean isMineBlown() {
return mineBlown;
}
public void setMined(boolean mined) {
this.mined = mined;
}
public void setFlagged(boolean flagged) {
this.flagged = flagged;
}
public int getRow() {
return row;
}
public int getCol() {
return col;
}
public boolean isMined() {
return mined;
}
public boolean isFlagged() {
return flagged;
}
public void pressedAction() {
if (pressed) {
return;
}
pressed = true;
if (mined) {
setMineBlown(true);
}
PropertyChangeEvent evt = new PropertyChangeEvent(this, BUTTON_PRESSED, -1, value);
pcSupport.firePropertyChange(evt);
}
public void upDateButtonFlag() {
boolean oldValue = flagged;
setFlagged(!flagged);
PropertyChangeEvent evt = new PropertyChangeEvent(this, FLAG_CHANGE, oldValue, flagged);
pcSupport.firePropertyChange(evt);
}
public void reset() {
mined = false;
flagged = false;
pressed = false;
mineBlown = false;
value = 0;
}
public void addPropertyChangeListener(PropertyChangeListener listener) {
pcSupport.addPropertyChangeListener(listener);
}
public void removePropertyChangeListener(PropertyChangeListener listener) {
pcSupport.removePropertyChangeListener(listener);
}
}
Edit Regarding Recursion
My code uses recursion, but with a level of indirection, since it is based on a Model-View-Controller type of design pattern, and the recursion is within the notification of listeners. Note that each GUI MineCell object holds its own MineCellModel object, the latter holds the MineCell's state. When a GUI JButton held within the MineCell object is pressed, its ActionListener calls the same class's pressed() method:
button.addActionListener(new ActionListener() {
public void actionPerformed(ActionEvent e) {
pressedAction();
}
});
This method first checks the corresponding MineCellModel to see if it has been "flagged", if a boolean called flagged is true. If so, this means that the user has right-clicked on the button, and it is not active, and so the method returns. Otherwise the MineCellModel's pressedAction() method is called,
public void pressedAction() {
if (model.isFlagged()) {
return;
}
model.pressedAction();
}
and here is where the recursion starts, and it does so through an Observer Design Pattern:
// within MineCellModel
public void pressedAction() {
if (pressed) {
// if the button's already been pressed -- return, do nothing
return;
}
// otherwise make pressed true
pressed = true;
// if we've hit a mine -- blow it!
if (mined) {
setMineBlown(true);
}
// *** Here's the key *** notify all listeners that this button has been pressed
PropertyChangeEvent evt = new PropertyChangeEvent(this, BUTTON_PRESSED, -1, value);
pcSupport.firePropertyChange(evt);
}
The two lines of code on the bottom notify any listeners to this model that its BUTTON_PRESSED state has been changed, and it sends the MineCellModel's value to all listeners. The value int is key as its the number of neighbors that have mines. So what listens to the MineCellModel? Well, one key object is the MineCellGridModel, the model that represents the state of the entire grid. It has a CellModelPropertyChangeListener class that does the actual listening, and within this class is the following code:
private class CellModelPropertyChangeListener implements PropertyChangeListener {
public void propertyChange(PropertyChangeEvent evt) {
// first get the MineCellModel for the cell that triggered this notification
MineCellModel model = (MineCellModel) evt.getSource();
int row = model.getRow();
int col = model.getCol();
// if the event is a button pressed event
if (evt.getPropertyName().equals(MineCellModel.BUTTON_PRESSED)) {
// first check if a mine was hit, and if so, call mineBlown()
if (cellModelGrid[row][col].isMineBlown()) {
mineBlown(); // this method iterates through all cells and blows all mines
} else {
// here we check for a winner
buttonsRemaining--;
if (buttonsRemaining <= 0) {
JOptionPane.showMessageDialog(null, "You've Won!!!", "Congratulations",
JOptionPane.PLAIN_MESSAGE);
}
// here is the key spot -- if cell's value is 0, call the zeroValuePress method
if (cellModelGrid[row][col].getValue() == 0) {
zeroValuePress(row, col);
}
}
}
}
private void mineBlown() {
// ... code to blow all the un-blown mines
}
// this code is called if a button pressed has 0 value -- no mine neighbors
private void zeroValuePress(int row, int col) {
// find the boundaries of the neighbors
int rMin = Math.max(row - 1, 0); // check for the top edge
int cMin = Math.max(col - 1, 0); // check for the left edge
int rMax = Math.min(row + 1, cellModelGrid.length - 1); // check for the bottom edge
int cMax = Math.min(col + 1, cellModelGrid[row].length - 1); // check for right edge
// iterate through the neighbors
for (int row2 = rMin; row2 <= rMax; row2++) {
for (int col2 = cMin; col2 <= cMax; col2++) {
// *** Here's the recursion ***
// call pressedAction on all the neighbors
cellModelGrid[row2][col2].pressedAction();
}
}
}
}
So the key method in the listener above is the zeroValuePress(...) method. It first finds the boundaries of the neighbors around the current mine cell, using Math.min(...) and Math.max(...) to be careful not to go beyond the right, left, or top or bottom boundaries of the grid. It then iterates through the cell neighbors calling pressedAction() on each one of the neighbors MineCellModels held by this grid. As you know from above, the pressedAction() method will check if the cell has already been pressed, and if not, changes its state, which then notifies this same listener, resulting in recursion.
One of the primary functions of this game is to have a recursion to check all the sides when the tile clicked has no bombs surrounding it.
Looks like you are stucked on the part where you need to update the cell with number according to the number of bombs surrounding it.
These are the things for you to take note:
To update the numbers on the cells, there is no need to use recursion. The only part I used recursion is when user clicks on a cell with value == 0(stepped on an empty grid).
Checking all 8 directions can be done easily without writing large number of if-conditions. All you need is a pair of nested for-loop. Just traverse the 3x3 grid like a 2D array (see diagram below for illustration).
In the loop, set conditions to ensure you are within bounds (of the 3x3 matrix) before reading current grid's value (see code below).
To traverse the 3x3 matrix as shown in the diagram, we can use a pair of nested loops:
for(int x=(coordX-1); x<=(coordX+1); x++)
for(int y=(coordY-1); y<=(coordY+1); y++)
if(x!=-1 && y!= -1 && x! = ROWS && y! = COLS && map[x][y] != 'B')
if(map[x][y] == '.')
map[x][y] = '1';
else
map[x][y] += 1;
The if-condition prevents working on array element which is out of bounds.
This question already has answers here:
How to change JFrame icon [duplicate]
(8 answers)
Closed 6 years ago.
How do I add an icon to this snake game and where do I put it, also how do I increase speed of the game after so many points? The code below is the class in which I believe these two pieces of code should go.
import java.awt.BorderLayout;
import java.awt.Point;
import java.awt.event.KeyAdapter;
import java.awt.event.KeyEvent;
import java.io.IOException;
import java.util.LinkedList;
import java.util.Random;
import javax.imageio.ImageIO;
import javax.swing.JFrame;
public class SnakeGame extends JFrame {
private static final long FRAME_TIME = 1000L / 50L;
private static final int MIN_SNAKE_LENGTH = 5;
private static final int MAX_DIRECTIONS = 3;
private BoardPanel board;
private SidePanel side;
private Random random;
private Clock logicTimer;
private boolean isNewGame;
private boolean isGameOver;
private boolean isPaused;
private LinkedList<Point> snake;
private LinkedList<Direction> directions;
private int score;
private int foodsEaten;
private int nextFoodScore;
private SnakeGame() {
super("Snake");
setLayout(new BorderLayout());
setDefaultCloseOperation(EXIT_ON_CLOSE);
setResizable(false);
this.board = new BoardPanel(this);
this.side = new SidePanel(this);
add(board, BorderLayout.CENTER);
add(side, BorderLayout.EAST);
addKeyListener(new KeyAdapter() {
#Override
public void keyPressed(KeyEvent e) {
switch(e.getKeyCode()) {
case KeyEvent.VK_W:
case KeyEvent.VK_UP:
if(!isPaused && !isGameOver) {
if(directions.size() < MAX_DIRECTIONS) {
Direction last = directions.peekLast();
if(last != Direction.South && last != Direction.North) {
directions.addLast(Direction.North);
}
}
}
break;
case KeyEvent.VK_S:
case KeyEvent.VK_DOWN:
if(!isPaused && !isGameOver) {
if(directions.size() < MAX_DIRECTIONS) {
Direction last = directions.peekLast();
if(last != Direction.North && last != Direction.South) {
directions.addLast(Direction.South);
}
}
}
break;
case KeyEvent.VK_A:
case KeyEvent.VK_LEFT:
if(!isPaused && !isGameOver) {
if(directions.size() < MAX_DIRECTIONS) {
Direction last = directions.peekLast();
if(last != Direction.East && last != Direction.West) {
directions.addLast(Direction.West);
}
}
}
break;
case KeyEvent.VK_D:
case KeyEvent.VK_RIGHT:
if(!isPaused && !isGameOver) {
if(directions.size() < MAX_DIRECTIONS) {
Direction last = directions.peekLast();
if(last != Direction.West && last != Direction.East) {
directions.addLast(Direction.East);
}
}
}
break;
case KeyEvent.VK_P:
if(!isGameOver) {
isPaused = !isPaused;
logicTimer.setPaused(isPaused);
}
break;
case KeyEvent.VK_ENTER:
if(isNewGame || isGameOver) {
resetGame();
}
break;
}
}
});
pack();
setLocationRelativeTo(null);
setVisible(true);
}
private void startGame() {
this.random = new Random();
this.snake = new LinkedList<>();
this.directions = new LinkedList<>();
this.logicTimer = new Clock(10.0f);
//////////////////////////////////////////////////////////////////////////////////////////////////
this.isNewGame = true;
logicTimer.setPaused(true);
while(true) {
long start = System.nanoTime();
logicTimer.update();
if(logicTimer.hasElapsedCycle()) {
updateGame();
}
board.repaint();
side.repaint();
long delta = (System.nanoTime() - start) / 1000000L;
if(delta < FRAME_TIME) {
try {
Thread.sleep(FRAME_TIME - delta);
} catch(Exception e) {
e.printStackTrace();
}
}
}
}
private void updateGame() {
TileType collision = updateSnake();
if(collision == TileType.Food) {
foodsEaten++;
score += nextFoodScore;
spawnFood();
} else if(collision == TileType.SnakeBody) {
isGameOver = true;
logicTimer.setPaused(true);
} else if(nextFoodScore > 10) {
}
}
private TileType updateSnake() {
Direction direction = directions.peekFirst();
Point head = new Point(snake.peekFirst());
switch(direction) {
case North:
head.y--;
break;
case South:
head.y++;
break;
case West:
head.x--;
break;
case East:
head.x++;
break;
}
if(head.x < 0 || head.x >= BoardPanel.COL_COUNT || head.y < 0 || head.y >= BoardPanel.ROW_COUNT) {
return TileType.SnakeBody;
}
TileType old = board.getTile(head.x, head.y);
if(old != TileType.Food && snake.size() > MIN_SNAKE_LENGTH) {
Point tail = snake.removeLast();
board.setTile(tail, null);
old = board.getTile(head.x, head.y);
}
if(old != TileType.SnakeBody) {
board.setTile(snake.peekFirst(), TileType.SnakeBody);
snake.push(head);
board.setTile(head, TileType.SnakeHead);
if(directions.size() > 1) {
directions.poll();
}
}
return old;
}
private void resetGame() {
this.score = 0;
this.foodsEaten = 0;
this.isNewGame = false;
this.isGameOver = false;
Point head = new Point(BoardPanel.COL_COUNT / 2, BoardPanel.ROW_COUNT / 2);
snake.clear();
snake.add(head);
board.clearBoard();
board.setTile(head, TileType.SnakeHead);
directions.clear();
directions.add(Direction.North);
logicTimer.reset();
spawnFood();
}
public boolean isNewGame() {
return isNewGame;
}
public boolean isGameOver() {
return isGameOver;
}
public boolean isPaused() {
return isPaused;
}
private void spawnFood() {
this.nextFoodScore = 10;
int index = random.nextInt(BoardPanel.COL_COUNT * BoardPanel.ROW_COUNT - snake.size());
int freeFound = -1;
for(int x = 0; x < BoardPanel.COL_COUNT; x++) {
for(int y = 0; y < BoardPanel.ROW_COUNT; y++) {
TileType type = board.getTile(x, y);
if(type == null || type == TileType.Food) {
if(++freeFound == index) {
board.setTile(x, y, TileType.Food);
break;
}
}
}
}
}
public int getScore() {
return score;
}
public int getFoodsEaten() {
return foodsEaten;
}
public int getNextFoodScore() {
return nextFoodScore;
}
public Direction getDirection() {
return directions.peek();
}
public static void main(String[] args) {
SnakeGame snake = new SnakeGame();
snake.startGame();
}
}
Create a new ImageIcon object like this:
ImageIcon img = new ImageIcon(pathToFileOnDisk);
Then set it to your JFrame with setIconImage():
myFrame.setIconImage(img.getImage());
Also checkout setIconImages() which takes a List instead.
How to change JFrame icon
It 's not my answer !!!!
I'm currently making a space invaders-esque game for my software engineering course. I've already got everything working that satisfies the requirements, so this isn't a 'solve my homework' kind of question. My problem is that the game will lag (at what seems like random times & intervals) to the point where it becomes too frustrating to play. Some things I think might be causing this - though I'm not positive - are as follows:
Problem with timer event every 10 ms (I doubt this because of the very limited resources required for this game).
Problem with collision detection (checking for collision with every visible enemy every 10 ms seems like it would take up a large chunk of resources)
Problem with repainting? This seems unlikely to me however...
#SuppressWarnings("serial")
public class SIpanel extends JPanel {
private SIpanel panel;
private Timer timer;
private int score, invaderPace, pulseRate, mysteryCount, distanceToEdge;
private ArrayList<SIthing> cast;
private ArrayList<SIinvader> invaders, dead;
private ArrayList<SImissile> missileBase, missileInvader;
private SIinvader[] bottomRow;
private SIbase base;
private Dimension panelDimension;
private SImystery mysteryShip;
private boolean gameOver, left, right, mysteryDirection, space, waveDirection;
private boolean runningTimer;
private Music sound;
private void pulse() {
pace();
processInputs();
if (gameOver) gameOver();
repaint();
}
private void pace() {
// IF invaders still live
if (!invaders.isEmpty()) {
invaderPace++;
// Switch back manager
if (distanceToEdge <= 10) {
switchBack();
pulseRate = (pulseRate >= 16) ? (int) (pulseRate*(0.8)) : pulseRate;
waveDirection = !waveDirection;
distanceToEdge = calculateDistanceToEdge();
}
// Move invaders left/right
else if (invaderPace >= pulseRate) {
invaderPace = 0;
distanceToEdge = calculateDistanceToEdge();
moveAI();
invadersFire();
if (!dead.isEmpty()) removeDead();
if (mysteryCount < 1) tryInitMysteryShip();
}
// All invaders are kill, create new wave
} else if (missileBase.isEmpty() && missileInvader.isEmpty() && !cast.contains(mysteryShip)) {
// System.out.println("New Wave!");
newWave();
}
// Every pace
if (!missileBase.isEmpty()) moveMissileBase();
// Every two paces
if (invaderPace % 2 == 0) {
if (!missileInvader.isEmpty()) moveMissileInvader();
if (mysteryCount > 0) moveMysteryShip();
}
}
private void processInputs() {
if (left) move(left);
if (right) move(!right);
if (space) fireMissile(base, true);
}
protected void fireMissile(SIship ship, boolean isBase) {
if(isBase && missileBase.isEmpty()) {
base.playSound();
SImissile m = new SImissile(ship.getX()+(ship.getWidth()/2), ship.getY()-(ship.getHeight()/4));
missileBase.add(m);
cast.add(m);
} else if (!isBase && missileInvader.size()<3) {
base.playSound();
SImissile m = new SImissile(ship.getX()+(ship.getWidth()/2), ship.getY()+(ship.getHeight()/4));
missileInvader.add(m);
cast.add(m);
}
}
private void newWave() {
pulseRate = 50;
int defaultY=60, defaultX=120, defaultWidth=30, defaultHeight=24;
for(int i=0; i<5; i++) {
for(int j=0; j<10; j++) {
if (i<1) invaders.add(new SItop((j*defaultWidth)+defaultX, (i*defaultHeight)+defaultY, defaultWidth, defaultHeight));
else if (i<3) invaders.add(new SImiddle((j*defaultWidth)+defaultX, (i*defaultHeight)+defaultY, defaultWidth, defaultHeight));
else if (i<5) invaders.add(new SIbottom((j*defaultWidth)+defaultX, (i*defaultHeight)+defaultY, defaultWidth, defaultHeight));
}
}
for (SIinvader s: invaders) {
cast.add(s);
}
if (!cast.contains(base)) {
cast.add(base);
}
bottomRow = getBottomRow();
}
private void tryInitMysteryShip() {
Random rand = new Random();
int x=rand.nextInt(1000);
if (x<=3) {
mysteryCount = 1;
if (rand.nextBoolean()) {
mysteryDirection = true;
}
if (mysteryDirection) {
mysteryShip = new SImystery(0, 60, 36, 18);
} else {
mysteryShip = new SImystery(480, 60, 36, 18);
}
cast.add(mysteryShip);
}
}
private void moveMysteryShip() {
int distance = 0;
if (mysteryDirection) {
mysteryShip.moveRight(5);
distance = getWidth() - mysteryShip.getX();
} else {
mysteryShip.moveLeft(5);
distance = 30+mysteryShip.getX()-mysteryShip.getWidth();
}
if (distance <= 5) {
dead.add(mysteryShip);
mysteryShip = null;
mysteryCount = 0;
}
}
private void removeDead() {
#SuppressWarnings("unchecked")
ArrayList<SIinvader> temp = (ArrayList<SIinvader>) dead.clone();
dead.clear();
for (SIinvader s : temp) {
invaders.remove(s);
cast.remove(s);
}
bottomRow = getBottomRow();
}
private void invadersFire() {
int[] p = new int[bottomRow.length];
for (int i=0; i<p.length; i++) {
for (int j=0; j<p.length; j++) {
p[j] = j;
}
Random rand = new Random();
int a=rand.nextInt(101);
if (a>=20) {
int b=rand.nextInt(p.length);
fireMissile(bottomRow[b], false);
}
}
}
private int calculateDistanceToEdge() {
int distance = 0;
SIinvader[] outliers = getOutliers();
if (waveDirection) {
distance = getWidth() - outliers[0].getX()-outliers[0].getWidth();
} else {
distance = outliers[1].getX();
}
return distance;
}
private SIinvader[] getOutliers() {
SIinvader leftMost = invaders.get(0), rightMost = invaders.get(0);
for (SIinvader s : invaders) {
if (s.getX() < leftMost.getX()) {
leftMost = s;
}
if (s.getX() > rightMost.getX()) {
rightMost = s;
}
}
return new SIinvader[] { rightMost, leftMost };
}
private SIinvader[] getBottomRow() {
SIinvader[] x = new SIinvader[(invaders.size()>10)?10:invaders.size()];
for (int i=0; i<x.length; i++) {
x[i] = invaders.get(i);
for (SIinvader s:invaders) {
if (s.getX() == x[i].getX()) {
if (s.getY() > x[i].getY()) {
x[i] = s;
}
}
}
}
return x;
}
private void move(boolean b) {
int defaultX = 5;
if (b) base.moveLeft(defaultX);
else base.moveRight(defaultX);
}
private void moveAI() {
for(SIinvader s : invaders) {
s.changeImage();
int defaultX = 5;
if (waveDirection) s.moveRight(defaultX);
else s.moveLeft(defaultX);
}
}
private void moveMissileBase() {
if (invaders.isEmpty()) return;
int movement = -5, bound = 0;
SImissile missile = missileBase.get(0);
missile.moveDown(movement);
SIinvader lowestInvader = getLowestInvader();
if (missile.getY() < (lowestInvader.getY() + lowestInvader.getHeight())) {
for (SIinvader s:bottomRow) {
if (checkCollision(missile, s)) {
s.setHit();
dead.add(s);
cast.remove(missile);
missileBase.clear();
score += s.value;
return;
}
}
if (mysteryCount > 0) {
if (checkCollision(missile, mysteryShip)) {
mysteryShip.setHit();
dead.add(mysteryShip);
cast.remove(missile);
missileBase.clear();
score += mysteryShip.value;
return;
}
}
if (missile.getY() < bound) {
missileBase.remove(missile);
cast.remove(missile);
}
}
}
private SIinvader getLowestInvader() {
SIinvader lowest = bottomRow[0];
for (SIinvader invader : bottomRow) {
if (invader.getY() > lowest.getY()) {
lowest = invader;
}
}
return lowest;
}
private void moveMissileInvader() {
int movement = 5, bound = (int) panelDimension.getHeight();
for (SImissile missile : missileInvader) {
missile.moveDown(movement);
if(missile.getY() >= base.getY()) {
if (checkCollision(missile, base)) {
base.setHit();
gameOver = true;;
missileInvader.remove(missile);
cast.remove(missile);
return;
} else if (missile.getY() >= bound-25) {
missileInvader.remove(missile);
cast.remove(missile);
return;
}
}
}
}
private boolean checkCollision(SIthing missile, SIthing ship) {
Rectangle2D rect1 = new Rectangle2D.Double(
missile.getX(),
missile.getY(),
missile.getWidth(),
missile.getHeight()
);
Rectangle2D rect2 = new Rectangle2D.Double(
ship.getX(),
ship.getY(),
ship.getWidth(),
ship.getHeight()
);
return rect1.intersects(rect2);
}
private void switchBack() {
int defaultY = 12;
for (SIinvader s : invaders) {
if (s.getY() > getHeight()) {
gameOver = true;
return;
}
s.moveDown(defaultY);
}
}
private void gameOver() {
pause(true);
SI.setGameOverLabelVisibile(true);
}
#Override
protected void paintComponent(Graphics g) {
super.paintComponent(g);
Graphics2D g2 = (Graphics2D) g;
g2.setColor(Color.GREEN);
Font font = new Font("Arial", 0, 20);
setFont(font);
String score = "Score: "+this.score;
Rectangle2D rect = font.getStringBounds(score, g2.getFontRenderContext());
int screenWidth = 0;
try { screenWidth = (int) panelDimension.getWidth(); }
catch (NullPointerException e) {}
g2.setColor(Color.GREEN);
g2.drawString(score, (int) (screenWidth - (10 + rect.getWidth())), 20);
for(SIthing a:cast) {
a.paint(g);
}
}
public SIpanel() {
super();
setBackground(Color.BLACK);
cast = new ArrayList<SIthing>();
missileBase = new ArrayList<SImissile>();
score = invaderPace = mysteryCount = pulseRate = 0;
sound = new Music("AmbientMusic.wav");
panel = this;
addKeyListener(new KeyAdapter() {
#Override
public void keyPressed(KeyEvent e) {
switch (e.getKeyCode()) {
case KeyEvent.VK_LEFT : left = true; break;
case KeyEvent.VK_RIGHT : right = true; break;
case KeyEvent.VK_SPACE : space = true; break;
}
}
#Override
public void keyReleased(KeyEvent e) {
switch (e.getKeyCode()) {
case KeyEvent.VK_LEFT : left = false; break;
case KeyEvent.VK_RIGHT : right = false; break;
case KeyEvent.VK_SPACE : space = false; break;
}
}
});
setFocusable(true);
timer = new Timer(10, new ActionListener() {
#Override
public void actionPerformed(ActionEvent e) {
pulse();
}
});
}
public void reset() {
SI.setGameOverLabelVisibile(false);
score = invaderPace = mysteryCount = 0;
pulseRate = 50;
cast = new ArrayList<SIthing>();
invaders = new ArrayList<SIinvader>();
dead = new ArrayList<SIinvader>();
missileBase = new ArrayList<SImissile>();
missileInvader = new ArrayList<SImissile>();
base = new SIbase(230, 370, 26, 20);
waveDirection = true;
gameOver = false;
sound.stop();
sound.loop();
panelDimension = SI.getFrameDimensions();
bottomRow = getBottomRow();
newWave();
timer.start();
runningTimer=true;
}
public SIpanel getPanel() {
return this.panel;
}
public void pause(boolean paused) {
if (paused) timer.stop();
else timer.start();
}
}
I believe that collision detection may be the reason for lagging and you should simply investigate it by trying to increase and decrease count of enemies or missiles drastically to see if that makes a difference.
Consider garbage collector your enemy. In your checkCollision method you are instantiating two (very simple) objects. It may not seem like a lot, but consider that your might be creating them for each collision check, and that at 60fps it adds up until it may reach critical mass when GC says "stop the world" and you see noticeable lag.
If that is the case, possible solution to that would be to not instantiate any objects in a method called so frequently. You may create Rectangle2D once, and then update its position, instead of creating a new one each time, so you will avoid unnecessary memory allocation.
Within the scope of a paper I am writing at high school I chose to make my own audio-file-to-spectrogram-converter from scratch in order to create landscapes out of these spectrograms.
I already do have my implementation of an FFT and of using that to make a heightmap, a spectrogram. But I often get weird artifacts in the form of vertical stripes when the frequencies get dense, as you can see in the image below.
The example is right at the beginning with a window length of 2048 and on a log^2-scale. The FFT I am using is flawless, I've already compared it to others and they produce the same result.
This is the function which transforms the amplitudes into frequencies and stores them in a 2D-array:
private void transform(int from, int until) {
double val, step;
for(int i=from; i<until; i++) {
for(int j=0; j<n; j++)
chunk[j] = data[0][i*n+j+start];
fft.realForward(chunk);
for(int j=0; j<height; j++) {
val = Math.sqrt(chunk[2*j]*chunk[2*j] + chunk[2*j+1]*chunk[2*j+1]);
map[i][j] = val;
}
}
}
Now my Question: Where do these vertical stripes come from and how do I get rid of them?
I currently don't employ a window function and every calculation is stringed to one another, which means there is no overlapping. It is the simplest way you can think of making a spectrogram. Could it help introducing a window function or doing each calculation independent of whether the frame was already involved in a previous calculation, that is to say overlapping the frame-windows?
Also, what other ways are there to improve on my basic approach in order to get a better result?
This is the whole class. I feed it the data and all the necessary information from an audio file:
import java.awt.*;
import java.awt.event.*;
import java.awt.image.*;
import java.io.*;
import javax.imageio.ImageIO;
import javax.swing.*;
import org.jtransforms.fft.DoubleFFT_1D;
public class Heightmap extends JFrame implements WindowListener{
public static final int LOG_SCALE = 0;
public static final int LOG_SQUARE_SCALE = 1;
public static final int SQUARE_SCALE = 2;
public static final int LINEAR_SCALE = 3;
private BufferedImage heightmap;
private FileDialog chooser;
private JMenuBar menuBar;
private JMenu fileMenu;
private JMenuItem save, close;
private DoubleFFT_1D fft;
private int[][] data;
private double[][] map;
private double[] chunk;
private int width, height, n, start, scale;
private String name;
private boolean inactive;
public Heightmap(int[][] data, int resolution, int start,
int width, int height, int scale, String name) {
this.data = data;
this.n = resolution;
this.start = start;
this.width = width;
this.height = height;
this.scale = scale;
this.name = name;
fft = new DoubleFFT_1D(n);
map = new double[width][height];
heightmap = new BufferedImage(width, height, BufferedImage.TYPE_INT_RGB);
chunk = new double[n];
System.out.println("Starting transformation...");
long time;
time = System.currentTimeMillis();
transform();
time = System.currentTimeMillis() - time;
System.out.println("Time taken for calculation: "+time+" ms");
time = System.currentTimeMillis();
makeHeightmap();
initComponents();
time = System.currentTimeMillis() - time;
System.out.println("Time taken for drawing heightmap: "+time+" ms");
}
private void initComponents() {
this.setSize(width, height);
this.setDefaultCloseOperation(DISPOSE_ON_CLOSE);
this.setResizable(false);
this.setLocationRelativeTo(null);
this.setTitle(name);
createMenuBar();
chooser = new FileDialog(this, "Choose a directory", FileDialog.SAVE);
chooser.setDirectory("/Users/<user>/Desktop");
this.addMouseListener(new HeightmapMouseListener());
this.addKeyListener(new HeightmapKeyListener());
this.addWindowListener(this);
this.setVisible(true);
}
private void createMenuBar() {
menuBar = new JMenuBar();
fileMenu = new JMenu();
fileMenu.setText("File");
save = new JMenuItem("Save...", KeyEvent.VK_S);
save.setAccelerator(KeyStroke.getKeyStroke(KeyEvent.VK_S, InputEvent.META_DOWN_MASK));
save.addActionListener(new ActionListener() {
#Override
public void actionPerformed(ActionEvent arg0) {
chooser.setVisible(true);
String fileName = chooser.getFile();
String dir = chooser.getDirectory();
chooser.setDirectory(dir);
if(fileName != null) {
try {
File outputfile = new File(dir + fileName + ".png");
ImageIO.write(heightmap, "png", outputfile);
} catch (IOException e) {
e.printStackTrace();
}
System.out.println("Saved "+fileName+".png to "+dir);
}
}
});
close = new JMenuItem("Close", KeyEvent.VK_C);
close.setAccelerator(KeyStroke.getKeyStroke(KeyEvent.VK_W, InputEvent.META_DOWN_MASK));
close.addActionListener(new ActionListener() {
#Override
public void actionPerformed(ActionEvent e) {
setVisible(false);
dispose();
}
});
fileMenu.add(save);
fileMenu.addSeparator();
fileMenu.add(close);
menuBar.add(fileMenu);
this.setJMenuBar(menuBar);
}
public void paint(Graphics g) {
g.drawImage(heightmap, 0, 0, null);
}
private void transform() {
transform(0, width);
}
private void transform(int from, int until) {
double max = Double.MIN_VALUE;
double min = Double.MAX_VALUE;
double val, step;
for(int i=from; i<until; i++) {
for(int j=0; j<n; j++) {
chunk[j] = data[0][i*n+j+start];
}
fft.realForward(chunk);
for(int j=0; j<height; j++) {
val = Math.sqrt(chunk[2*j]*chunk[2*j] + chunk[2*j+1]*chunk[2*j+1]);
if(val > max)
max = val;
if(val < min)
min = val;
map[i][j] = val;
}
if(min != 0) {
step = max/(max-min);
for(int j=0; j<height; j++)
map[i][j] = (map[i][j]-min)*step;
}
}
}
/*
* Paints heightmap into the BufferedImage
*/
private void makeHeightmap() {
double max = 0;
switch(scale) {
case LOG_SCALE: max = Math.log(findMax(map)+1); break;
case LOG_SQUARE_SCALE: max = Math.pow(Math.log(findMax(map)+1), 2); break;
case SQUARE_SCALE: max = Math.sqrt(findMax(map)); break;
case LINEAR_SCALE: max = findMax(map); break;
default: max = Math.pow(Math.log(findMax(map)+1), 2); break;
}
double stepsize = 255.0/max;
int val, rgb;
for(int x=0; x<width; x++)
for(int y=0; y<height; y++) {
switch(scale) {
case LOG_SCALE: val = (int) (Math.log(map[x][y]+1)*stepsize); break;
case LOG_SQUARE_SCALE: val = (int) (Math.log(map[x][y]+1)*stepsize); val *= val; break;
case SQUARE_SCALE: val = (int) (Math.sqrt(map[x][y])*stepsize); break;
case LINEAR_SCALE: val = (int) (map[x][y]*stepsize); break;
default: val = (int) (Math.log(map[x][y]+1)*stepsize); val *= val; break;
}
rgb = 255<<24 | val<<16 | val<<8 | val;
heightmap.setRGB(x, height-y-1, rgb);
}
}
private double findMax(double[][] data) {
double max = 0;
for(double[] val1: data)
for(double d: val1)
if(d > max)
max = d;
return max;
}
private class HeightmapKeyListener implements KeyListener {
boolean busy = false;
public void keyPressed(KeyEvent e) {
if(e.getKeyCode() == KeyEvent.VK_RIGHT && !busy && start < data[0].length-width*n) {
busy = true;
for(int x=0; x<width-1; x++)
map[x] = map[x+1].clone();
start += n;
transform(width-1, width);
makeHeightmap();
repaint();
busy = false;
}
else if(e.getKeyCode() == KeyEvent.VK_LEFT && !busy && start > 0) {
busy = true;
for(int x=width-1; x>0; x--)
map[x] = map[x-1];
start -= n;
transform(0, 1);
makeHeightmap();
repaint();
busy = false;
}
}
public void keyReleased(KeyEvent e) { }
public void keyTyped(KeyEvent e) { }
}
private class HeightmapMouseListener implements MouseListener {
public void mouseClicked(MouseEvent e) {
if(inactive) {
inactive = false;
return;
}
long time = System.currentTimeMillis();
int posX = e.getX();
int diff = posX - width/2; //difference between old and new center in pixels
int oldStart = start;
start = start + diff*n;
if(start < 0) start = 0;
int maxFrame = data[0].length-width*n;
if(start > maxFrame) start = maxFrame;
if(start == oldStart) return;
System.out.println("Changing center...");
int absDiff = Math.abs(diff);
if(start < oldStart) { //shift the start backward, recalculate the start
for(int x=width-1; x>=absDiff; x--)
map[x] = map[x-absDiff].clone();
transform(0, absDiff);
}
else if(start > oldStart) { //shift the back forward, recalculate the back
for(int x=0; x<width-absDiff; x++)
map[x] = map[x+absDiff].clone();
transform(width-absDiff, width);
}
makeHeightmap();
repaint();
System.out.println("Time taken: "+(System.currentTimeMillis()-time)+" ms");
}
public void mousePressed(MouseEvent e) { }
public void mouseReleased(MouseEvent e) { }
public void mouseEntered(MouseEvent e) { }
public void mouseExited(MouseEvent e) { }
}
public void windowActivated(WindowEvent arg0) { }
public void windowClosed(WindowEvent arg0) { }
public void windowClosing(WindowEvent arg0) { }
public void windowDeactivated(WindowEvent arg0) {
inactive = true;
}
public void windowDeiconified(WindowEvent arg0) { }
public void windowIconified(WindowEvent arg0) { }
public void windowOpened(WindowEvent arg0) { }
}
EDIT:
Implementing a window function improved the result drastically. I really didn't understand what a window function would do and therefore underestimated its effect.
However, after doing so I tried mapping a cosine wave with a frequency of 10kHz which (again) produced some strange artifacts:
What could be the cause of this one? I implemented a overflow protection by clipping everything under 0 to 0 and over 255 to 255 with no change whatsoever.
This type of artifact can be due to overflow or otherwise exceeding parameter bounds before or in your color mapping function, or perhaps with some function (log?) returning NaN values. You might be able to find this by putting in some asserts for out-of-range or illegal values.