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import org.trinitydesktop.qt.*;
public class CannonField extends TQWidget {
private int ang;
private int f;
private int timerCount;
private TQTimer autoShootTimer;
private float shoot_ang;
private float shoot_f;
private TQPoint target;
private final TQRect barrelRect = new TQRect(33, -4, 15, 8);
public CannonField(TQWidget parent, String name) {
super(parent, name);
ang = 45;
f = 0;
timerCount = 0;
autoShootTimer = new TQTimer(this, "movement handler");
connect(autoShootTimer, TQ_SIGNAL("timeout()"),
this, TQ_SLOT("moveShot()"));
shoot_ang = 0;
shoot_f = 0;
target = new TQPoint(0, 0);
setPalette(new TQPalette(new TQColor(250, 250, 200)));
newTarget();
}
public int angle() {
return ang;
}
public void setAngle(int degrees) {
if (degrees < 5)
degrees = 5;
if (degrees > 70)
degrees = 70;
if (ang == degrees)
return;
ang = degrees;
repaint();
emit("angleChanged", ang);
}
public int force() {
return f;
}
public void setForce(int newton) {
if (newton < 0)
newton = 0;
if (f == newton)
return;
f = newton;
emit("forceChanged", f);
}
public void shoot() {
if (autoShootTimer.isActive())
return;
timerCount = 0;
shoot_ang = ang;
shoot_f = f;
autoShootTimer.start(50);
}
public void newTarget() {
TQRegion r = new TQRegion(targetRect());
target = new TQPoint((int) (200 + Math.random()*190),
(int) (10 + Math.random()*255));
repaint(r.unite(new TQRegion(targetRect())));
}
public void moveShot() {
TQRegion r = new TQRegion(shotRect());
timerCount++;
TQRect shotR = shotRect();
if (shotR.intersects(targetRect())) {
autoShootTimer.stop();
emit("hit");
} else if (shotR.x() > width() || shotR.y() > height()) {
autoShootTimer.stop();
emit("missed");
} else {
r = r.unite(new TQRegion(shotR));
}
repaint(r);
}
public void paintEvent(TQPaintEvent e) {
TQRect updateR = e.rect();
TQPainter p = new TQPainter(this);
if (updateR.intersects(cannonRect()))
paintCannon(p);
if (autoShootTimer.isActive() && updateR.intersects(shotRect()))
paintShot(p);
if (updateR.intersects(targetRect()))
paintTarget(p);
}
private void paintShot(TQPainter p) {
p.setBrush(black());
p.setPen(NoPen);
p.drawRect(shotRect());
}
private void paintTarget(TQPainter p) {
p.setBrush(red());
p.setPen(black());
p.drawRect(targetRect());
}
private void paintCannon(TQPainter p) {
TQRect cr = cannonRect();
TQPixmap pix = new TQPixmap(cr.size());
pix.fill(new TQColor(250, 250, 200));
TQPainter tmp = new TQPainter(pix);
tmp.setBrush(blue());
tmp.setPen(NoPen);
tmp.translate(0, pix.height() - 1);
tmp.drawPie(new TQRect(-35,-35, 70, 70), 0, 90*16);
tmp.rotate(-ang);
tmp.drawRect(barrelRect);
tmp.end();
p.drawPixmap(cr.topLeft(), pix);
}
private TQRect cannonRect() {
TQRect r = new TQRect(0, 0, 50, 50);
r.moveBottomLeft(rect().bottomLeft());
return r;
}
private TQRect shotRect() {
final double gravity = 4;
double time = timerCount / 4.0;
double velocity = shoot_f;
double radians = shoot_ang*3.14159265/180;
double velx = velocity*Math.cos(radians);
double vely = velocity*Math.sin(radians);
double x0 = (barrelRect.right() + 5)*Math.cos(radians);
double y0 = (barrelRect.right() + 5)*Math.sin(radians);
double x = x0 + velx*time;
double y = y0 + vely*time - 0.5*gravity*time*time;
TQRect r = new TQRect(0, 0, 6, 6);
r.moveCenter(new TQPoint((int) x, height() - 1 - (int) y));
return r;
}
private TQRect targetRect() {
TQRect r = new TQRect(0, 0, 20, 10);
r.moveCenter(new TQPoint(target.x(),height() - 1 - target.y()));
return r;
}
public TQSizePolicy sizePolicy() {
return new TQSizePolicy(TQSizePolicy.Expanding, TQSizePolicy.Expanding);
}
}
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