Есть код на java awt. Из него мне нужна была только "логика". Теперь же, мне нужно это "завести" чтобы оно работало через JavaFX. Исходный код написан на awt и все константы написаны под него. Большую часть я смог перевести, но не могу скомпилировать через fx. Остался последний вроде бы шаг. Очень нужно. Буду благодарен любой помощи. Вот код на AWT:
import java.awt.*;
import java.awt.event.*;
import javax.swing.*;
import java.util.*;
class GameXonix extends JFrame {
final String TITLE_OF_PROGRAM = "Xonix";
final int POINT_SIZE = 10;
final int FIELD_WIDTH = 640 / POINT_SIZE;
final int FIELD_HEIGHT = 460 / POINT_SIZE;
final int FIELD_DX = 6;
final int FIELD_DY = 28 + 28;
final int START_LOCATION = 200;
final int LEFT = 37; // key codes
final int UP = 38;
final int RIGHT = 39;
final int DOWN = 40;
final int SHOW_DELAY = 60; // delay for animation
final int COLOR_TEMP = 1; // for temporary filling
final int COLOR_WATER = 0;
final int COLOR_LAND = 0x00a8a8;
final int COLOR_TRACK = 0x901290;
final int PERCENT_OF_WATER_CAPTURE = 75;
final String FORMAT_STRING = "Score: %d %20s %d %20s %2.0f%%";
final Font font = new Font("", Font.BOLD, 21);
Random random = new Random();
Canvas canvas = new Canvas();
JLabel board = new JLabel();
Delay delay = new Delay();
Field field = new Field();
Xonix xonix = new Xonix();
Balls balls = new Balls();
Cube cube = new Cube();
GameOver gameover = new GameOver();
public static void main(String[] args) {
new GameXonix().go();
}
GameXonix() {
setTitle(TITLE_OF_PROGRAM);
setDefaultCloseOperation(EXIT_ON_CLOSE);
setBounds(START_LOCATION, START_LOCATION, FIELD_WIDTH*POINT_SIZE + FIELD_DX, FIELD_HEIGHT*POINT_SIZE + FIELD_DY);
setResizable(false);
board.setFont(font);
board.setOpaque(true);
board.setBackground(Color.black);
board.setForeground(Color.white);
board.setHorizontalAlignment(JLabel.CENTER);
add(BorderLayout.CENTER, canvas);
add(BorderLayout.SOUTH, board);
addKeyListener(new KeyAdapter() {
public void keyPressed(KeyEvent e) {
if (e.getKeyCode() >= LEFT && e.getKeyCode() <= DOWN)
xonix.setDirection(e.getKeyCode());
}
});
setVisible(true);
}
void go() { // main loop of game
while (!gameover.isGameOver()) {
xonix.move();
balls.move();
cube.move();
canvas.repaint();
board.setText(String.format(FORMAT_STRING, field.getCountScore(), "Xn:", xonix.getCountLives(), "Full:", field.getCurrentPercent()));
delay.wait(SHOW_DELAY);
if (xonix.isSelfCrosed() || balls.isHitTrackOrXonix() || cube.isHitXonix()) {
xonix.decreaseCountLives();
if (xonix.getCountLives() > 0) {
xonix.init();
field.clearTrack();
delay.wait(SHOW_DELAY * 10);
}
}
if (field.getCurrentPercent() >= PERCENT_OF_WATER_CAPTURE) {
field.init();
xonix.init();
cube.init();
balls.add();
delay.wait(SHOW_DELAY * 10);
}
}
}
class Field {
private final int WATER_AREA = (FIELD_WIDTH - 4)*(FIELD_HEIGHT - 4);
private int[][] field = new int[FIELD_WIDTH][FIELD_HEIGHT];
private float currentWaterArea;
private int countScore = 0;
Field() {
init();
}
void init() {
for (int y = 0; y < FIELD_HEIGHT; y++)
for (int x = 0; x < FIELD_WIDTH; x++)
field[x][y] = (x < 2 || x > FIELD_WIDTH - 3 || y < 2 || y > FIELD_HEIGHT - 3)? COLOR_LAND : COLOR_WATER;
currentWaterArea = WATER_AREA;
}
int getColor(int x, int y) {
if (x < 0 || y < 0 || x > FIELD_WIDTH - 1 || y > FIELD_HEIGHT - 1) return COLOR_WATER;
return field[x][y];
}
void setColor(int x, int y, int color) { field[x][y] = color; }
int getCountScore() { return countScore; }
float getCurrentPercent() { return 100f - currentWaterArea / WATER_AREA * 100; }
void clearTrack() { // clear track of Xonix
for (int y = 0; y < FIELD_HEIGHT; y++)
for (int x = 0; x < FIELD_WIDTH; x++)
if (field[x][y] == COLOR_TRACK) field[x][y] = COLOR_WATER;
}
void fillTemporary(int x, int y) {
if (field[x][y] > COLOR_WATER) return;
field[x][y] = COLOR_TEMP; // filling temporary color
for (int dx = -1; dx < 2; dx++)
for (int dy = -1; dy < 2; dy++) fillTemporary(x + dx, y + dy);
}
void tryToFill() {
currentWaterArea = 0;
for (Ball ball : balls.getBalls()) fillTemporary(ball.getX(), ball.getY());
for (int y = 0; y < FIELD_HEIGHT; y++)
for (int x = 0; x < FIELD_WIDTH; x++) {
if (field[x][y] == COLOR_TRACK || field[x][y] == COLOR_WATER) {
field[x][y] = COLOR_LAND;
countScore += 10;
}
if (field[x][y] == COLOR_TEMP) {
field[x][y] = COLOR_WATER;
currentWaterArea++;
}
}
}
void paint(Graphics g) {
for (int y = 0; y < FIELD_HEIGHT; y++)
for (int x = 0; x < FIELD_WIDTH; x++) {
g.setColor(new Color(field[x][y]));
g.fillRect(x*POINT_SIZE, y*POINT_SIZE, POINT_SIZE, POINT_SIZE);
}
}
}
class Xonix {
private int x, y, direction, countLives = 3;
private boolean isWater, isSelfCross;
Xonix() {
init();
}
void init() {
y = 0;
x = FIELD_WIDTH / 2;
direction = 0;
isWater = false;
}
int getX() { return x; }
int getY() { return y; }
int getCountLives() { return countLives; }
void decreaseCountLives() { countLives--; }
void setDirection(int direction) { this.direction = direction; }
void move() {
if (direction == LEFT) x--;
if (direction == RIGHT) x++;
if (direction == UP) y--;
if (direction == DOWN) y++;
if (x < 0) x = 0;
if (y < 0) y = 0;
if (y > FIELD_HEIGHT - 1) y = FIELD_HEIGHT - 1;
if (x > FIELD_WIDTH - 1) x = FIELD_WIDTH - 1;
isSelfCross = field.getColor(x, y) == COLOR_TRACK;
if (field.getColor(x, y) == COLOR_LAND && isWater) {
direction = 0;
isWater = false;
field.tryToFill();
}
if (field.getColor(x, y) == COLOR_WATER) {
isWater = true;
field.setColor(x, y, COLOR_TRACK);
}
}
boolean isSelfCrosed() { return isSelfCross; }
void paint(Graphics g) {
g.setColor((field.getColor(x, y) == COLOR_LAND) ? new Color(COLOR_TRACK) : Color.white);
g.fillRect(x*POINT_SIZE, y*POINT_SIZE, POINT_SIZE, POINT_SIZE);
g.setColor((field.getColor(x, y) == COLOR_LAND) ? Color.white : new Color(COLOR_TRACK));
g.fillRect(x*POINT_SIZE + 3, y*POINT_SIZE + 3, POINT_SIZE - 6, POINT_SIZE - 6);
}
}
class Balls {
private ArrayList<Ball> balls = new ArrayList<Ball>();
Balls() {
add();
}
void add() { balls.add(new Ball()); }
void move() { for (Ball ball : balls) ball.move(); }
ArrayList<Ball> getBalls() { return balls; }
boolean isHitTrackOrXonix() {
for (Ball ball : balls) if (ball.isHitTrackOrXonix()) return true;
return false;
}
void paint(Graphics g) { for (Ball ball : balls) ball.paint(g); }
}
class Ball {
private int x, y, dx, dy;
Ball() {
do {
x = random.nextInt(FIELD_WIDTH);
y = random.nextInt(FIELD_HEIGHT);
} while (field.getColor(x, y) > COLOR_WATER);
dx = random.nextBoolean()? 1 : -1;
dy = random.nextBoolean()? 1 : -1;
}
void updateDXandDY() {
if (field.getColor(x + dx, y) == COLOR_LAND) dx = -dx;
if (field.getColor(x, y + dy) == COLOR_LAND) dy = -dy;
}
void move() {
updateDXandDY();
x += dx;
y += dy;
}
int getX() { return x; }
int getY() { return y; }
boolean isHitTrackOrXonix() {
updateDXandDY();
if (field.getColor(x + dx, y + dy) == COLOR_TRACK) return true;
if (x + dx == xonix.getX() && y + dy == xonix.getY()) return true;
return false;
}
void paint(Graphics g) {
g.setColor(Color.white);
g.fillOval(x*POINT_SIZE, y*POINT_SIZE, POINT_SIZE, POINT_SIZE);
g.setColor(new Color(COLOR_LAND));
g.fillOval(x*POINT_SIZE + 2, y*POINT_SIZE + 2, POINT_SIZE - 4, POINT_SIZE - 4);
}
}
class Cube {
private int x, y, dx, dy;
Cube() {
init();
}
void init() { x = dx = dy = 1; }
void updateDXandDY() {
if (field.getColor(x + dx, y) == COLOR_WATER) dx = -dx;
if (field.getColor(x, y + dy) == COLOR_WATER) dy = -dy;
}
void move() {
updateDXandDY();
x += dx;
y += dy;
}
boolean isHitXonix() {
updateDXandDY();
if (x + dx == xonix.getX() && y + dy == xonix.getY()) return true;
return false;
}
void paint(Graphics g) {
g.setColor(new Color(COLOR_WATER));
g.fillRect(x*POINT_SIZE, y*POINT_SIZE, POINT_SIZE, POINT_SIZE);
g.setColor(new Color(COLOR_LAND));
g.fillRect(x*POINT_SIZE + 2, y*POINT_SIZE + 2, POINT_SIZE - 4, POINT_SIZE - 4);
}
}
class Delay {
void wait(int milliseconds) {
try {
Thread.sleep(milliseconds);
} catch (Exception e) { e.printStackTrace(); }
}
}
class GameOver {
private final String GAME_OVER_MSG = "GAME OVER";
private boolean gameOver;
boolean isGameOver() { return gameOver; }
void paint(Graphics g) {
if (xonix.getCountLives() == 0) {
gameOver = true;
g.setColor(Color.white);
g.setFont(new Font("", Font.BOLD, 60));
FontMetrics fm = g.getFontMetrics();
g.drawString(GAME_OVER_MSG, (FIELD_WIDTH*POINT_SIZE + FIELD_DX - fm.stringWidth(GAME_OVER_MSG))/2, (FIELD_HEIGHT*POINT_SIZE)/2);
}
}
}
class Canvas extends JPanel { // my canvas for painting
@Override
public void paint(Graphics g) {
super.paint(g);
field.paint(g);
xonix.paint(g);
balls.paint(g);
cube.paint(g);
gameover.paint(g);
}
}
}
Переводить классы и методы XONIX, DELAY и остальные не нужно. Нужна помощь в переводе метода GameXonix и метода Go и метода Canvas.
Это пример моего кода, частично переведенного на FX.
public static void main(String[] args){
launch(args);
}
class Delay {
void wait(int milliseconds) {
try {
Thread.sleep(milliseconds);
} catch (InterruptedException e) {
e.printStackTrace();
}
}
}
class Field {
private final int WATER_AREA = (FIELD_WIDTH - 4) * (FIELD_HEIGHT - 4);
private int[][] field = new int[FIELD_WIDTH][FIELD_HEIGHT];
private float currentWaterArea;
private int countScore = 0;
Field() {
init();
}
void init() {
for (int y = 0; y < FIELD_HEIGHT; y++)
for (int x = 0; x < FIELD_WIDTH; x++)
field[x][y] = (x < 2 || x > FIELD_WIDTH - 3 || y < 2 || y > FIELD_HEIGHT - 3) ? COLOR_LAND : COLOR_WATER;
currentWaterArea = WATER_AREA;
}
int getColor(int x, int y) {
if (x < 0 || y < 0 || x > FIELD_WIDTH - 1 || y > FIELD_HEIGHT - 1) return COLOR_WATER;
return field[x][y];
}
void setColor(int x, int y, int color) {
field[x][y] = color;
}
int getCountScore() {
return countScore;
}
float getCurrentPercent() {
return 100f - currentWaterArea / WATER_AREA * 100;
}
void clearTrack() { // clear track of Xonix
for (int y = 0; y < FIELD_HEIGHT; y++)
for (int x = 0; x < FIELD_WIDTH; x++)
if (field[x][y] == COLOR_TRACK) field[x][y] = COLOR_WATER;
}
void fillTemporary(int x, int y) {
if (field[x][y] > COLOR_WATER) return;
field[x][y] = COLOR_TEMP; // filling temporary color
for (int dx = -1; dx < 2; dx++)
for (int dy = -1; dy < 2; dy++) fillTemporary(x + dx, y + dy);
}
void tryToFill() {
currentWaterArea = 0;
for (Ball ball : balls.getBalls()) fillTemporary(ball.getX(), ball.getY());
for (int y = 0; y < FIELD_HEIGHT; y++)
for (int x = 0; x < FIELD_WIDTH; x++) {
if (field[x][y] == COLOR_TRACK || field[x][y] == COLOR_WATER) {
field[x][y] = COLOR_LAND;
countScore += 10;
}
if (field[x][y] == COLOR_TEMP) {
field[x][y] = COLOR_WATER;
currentWaterArea++;
}
}
}
void paint (Rectangle g) {
for (int y = 0; y < FIELD_HEIGHT; y++)
for (int x = 0; x < FIELD_WIDTH; x++) {
g.setFill(Color.web(String.valueOf(field[x][y])));
// g.fillRect(x*POINT_SIZE, y*POINT_SIZE, POINT_SIZE, POINT_SIZE);
g.setX(x*POINT_SIZE);
g.setY(y*POINT_SIZE);
g.setWidth(POINT_SIZE);
g.setHeight(POINT_SIZE);
}
}
}
class Xonix {
private int x, y, direction, countLives = 3;
private boolean isWater, isSelfCross;
Xonix() {
init();
}
void init() {
y = 0;
x = FIELD_WIDTH / 2;
direction = 0;
isWater = false;
}
int getX() { return x; }
int getY() { return y; }
int getCountLives() { return countLives; }
void decreaseCountLives() { countLives--; }
void setDirection(int direction) { this.direction = direction; }
void move() {
if (direction == LEFT) x--;
if (direction == RIGHT) x++;
if (direction == UP) y--;
if (direction == DOWN) y++;
if (x < 0) x = 0;
if (y < 0) y = 0;
if (y > FIELD_HEIGHT - 1) y = FIELD_HEIGHT - 1;
if (x > FIELD_WIDTH - 1) x = FIELD_WIDTH - 1;
isSelfCross = field.getColor(x, y) == COLOR_TRACK;
if (field.getColor(x, y) == COLOR_LAND && isWater) {
direction = 0;
isWater = false;
field.tryToFill();
}
if (field.getColor(x, y) == COLOR_WATER) {
isWater = true;
field.setColor(x, y, COLOR_TRACK);
}
}
boolean isSelfCrosed() { return isSelfCross; }
void paint( Rectangle g) {
g.setFill((field.getColor(x, y) == COLOR_LAND) ? Color.web(String.valueOf(COLOR_TRACK)) : Color.WHITE);
g.setX(x*POINT_SIZE);
g.setY(y*POINT_SIZE);
g.setWidth(POINT_SIZE);
g.setHeight(POINT_SIZE);
g.setFill((field.getColor(x, y) == COLOR_LAND) ? Color.WHITE : Color.web(String.valueOf(COLOR_TRACK)));
g.setX(x*POINT_SIZE+3);
g.setY(y*POINT_SIZE+3);
g.setWidth(POINT_SIZE-6);
g.setHeight(POINT_SIZE-6);
}
}
class Balls {
private ArrayList<Ball> balls = new ArrayList<Ball>();
Balls() {
add();
}
void add() { balls.add(new Ball()); }
void move() { for (Ball ball : balls) ball.move(); }
ArrayList<Ball> getBalls() { return balls; }
boolean isHitTrackOrXonix() {
for (Ball ball : balls) if (ball.isHitTrackOrXonix()) return true;
return false;
}
void paint(Circle g) {
for (Ball ball : balls) ball.paint(g);
}
}
class Ball {
private int x, y, dx, dy;
Ball() {
do {
x = random.nextInt(FIELD_WIDTH);
y = random.nextInt(FIELD_HEIGHT);
} while (field.getColor(x, y) > COLOR_WATER);
dx = random.nextBoolean()? 1 : -1;
dy = random.nextBoolean()? 1 : -1;
}
void updateDXandDY() {
if (field.getColor(x + dx, y) == COLOR_LAND) dx = -dx;
if (field.getColor(x, y + dy) == COLOR_LAND) dy = -dy;
}
void move() {
updateDXandDY();
x += dx;
y += dy;
}
int getX() { return x; }
int getY() { return y; }
boolean isHitTrackOrXonix() {
updateDXandDY();
if (field.getColor(x + dx, y + dy) == COLOR_TRACK) return true;
if (x + dx == xonix.getX() && y + dy == xonix.getY()) return true;
return false;
}
void paint(Circle g) {
g.setFill(Color.WHITE);
g.setCenterX(x*POINT_SIZE);
g.setCenterY(y*POINT_SIZE);
g.prefWidth(POINT_SIZE);
g.prefHeight(POINT_SIZE);
g.setFill(Color.CYAN);
// g.fillOval(x*POINT_SIZE + 2, y*POINT_SIZE + 2, POINT_SIZE - 4, POINT_SIZE - 4);
g.setCenterX(x*POINT_SIZE+2);
g.setCenterY(y*POINT_SIZE+2);
g.prefWidth(POINT_SIZE-4);
g.prefHeight(POINT_SIZE-4);
}
}
class Cube {
private int x, y, dx, dy;
Cube() {
init();
}
void init() { x = dx = dy = 1; }
void updateDXandDY() {
if (field.getColor(x + dx, y) == COLOR_WATER) dx = -dx;
if (field.getColor(x, y + dy) == COLOR_WATER) dy = -dy;
}
void move() {
updateDXandDY();
x += dx;
y += dy;
}
boolean isHitXonix() {
updateDXandDY();
if (x + dx == xonix.getX() && y + dy == xonix.getY()) return true;
return false;
}
void paint(Rectangle g) {
g.setFill(Color.web(String.valueOf(COLOR_WATER)));
g.setX(x*POINT_SIZE);
g.setY(y*POINT_SIZE);
g.setWidth(POINT_SIZE);
g.setHeight(POINT_SIZE);
g.setFill(Color.web(String.valueOf(COLOR_LAND)));
g.setX(x*POINT_SIZE+2);
g.setY(y*POINT_SIZE+2);
g.setWidth(POINT_SIZE-4);
g.setHeight(POINT_SIZE-4);
}
}
class GameOver {
private final String GAME_OVER_MSG = "GAME OVER";
private boolean gameOver;
boolean isGameOver() { return gameOver; }
}
/*
void paint(Label g) {
if (xonix.getCountLives() == 0) {
gameOver = true;
g.setColor(Color.white);
g.setFont(new Font("Uni Sans", 60));
FontMetrics fm = g.
g.drawString(GAME_OVER_MSG, (FIELD_WIDTH*POINT_SIZE + FIELD_DX - fm.stringWidth(GAME_OVER_MSG))/2, (FIELD_HEIGHT*POINT_SIZE)/2);
}
}
*/
}
