public Rectangle2D getBounds2D() {
StringTokenizer tokens = new StringTokenizer(getRenderString(), "\n");
int noLines = tokens.countTokens();
double height = (theFont.getSize2D() * noLines) + 5;
double width = 0;
while (tokens.hasMoreTokens()) {
double l = theFont.getSize2D() * tokens.nextToken().length() * (5.0 / 8.0);
if (l > width) width = l;
}
double parX;
double parY;
if (parent instanceof State) {
parX = ((State) parent).getX();
parY = ((State) parent).getY();
} else if (parent instanceof Transition) {
parX = ((Transition) parent).getMiddle().getX(); // dummy
parY = ((Transition) parent).getMiddle().getY(); // dummy
} else {
parX = 0;
parY = 0;
}
double mx = parX + offsetX;
double my = parY + offsetY - 10;
double tx = parX + width + offsetX;
double ty = parY + height + offsetY - 10;
return new Rectangle2D.Double(mx, my, tx - mx, ty - my);
}
public void workOutMinsAndMaxs() {
StringTokenizer tokens = new StringTokenizer(getRenderString(), "\n");
int noLines = tokens.countTokens();
double height = (theFont.getSize2D() * noLines) + 5;
double width = 0;
while (tokens.hasMoreTokens()) {
double l = theFont.getSize2D() * tokens.nextToken().length() * (5.0 / 8.0);
if (l > width) width = l;
}
double parX;
double parY;
if (parent instanceof State) {
parX = ((State) parent).getX();
parY = ((State) parent).getY();
} else if (parent instanceof Transition) {
parX = ((Transition) parent).getMiddle().getX(); // dummy
parY = ((Transition) parent).getMiddle().getY(); // dummy
} else {
parX = 0;
parY = 0;
}
minX = parX + offsetX - 5;
minY = parY + offsetY - 25;
maxX = parX + width + offsetX + 5;
maxY = parY + height + offsetY - 5;
}
/**
* This method calculates whether a given "Hot area" rectangle intersects with this label and
* returns the result. The aim of this method is that it can be used to detect whether the
* position of the mouse is colliding with the label.
*
* @param rect A "Hot area" which we are looking for the collision to lie in.
* @return the result of the collision.
*/
public boolean intersects(Rectangle2D rect) {
intersects = new ArrayList();
if (!getString().equals("")) {
double parX;
double parY;
if (parent instanceof State) {
parX = ((State) parent).getX();
parY = ((State) parent).getY();
} else if (parent instanceof Transition) {
parX = ((Transition) parent).getMiddle().getX(); // dummy
parY = ((Transition) parent).getMiddle().getY(); // dummy
} else {
parX = 0;
parY = 0;
}
double x = parX + offsetX;
double y = parY + offsetY - 5;
StringTokenizer tokens;
String pre = "";
if (lineLabels) {
pre = getName() + ": ";
}
tokens = new StringTokenizer(pre + getRenderString(), "\n");
int i = 0;
boolean collides = false;
while (tokens.hasMoreTokens() && !collides) {
String str = tokens.nextToken().trim();
// System.out.println("str = \""+str+"\"");
double height = theFont.getSize2D();
double width = theFont.getSize2D() * str.length() * (5.0 / 8.0);
intersects.add(new Rectangle2D.Double(x, y + (i * (height + 1.75) - 2), width, height));
collides =
(new Rectangle2D.Double(x, y + (i * (height + 1.75) - 2), width, height))
.intersects(rect);
i++;
}
return collides;
} else return false;
}
