/** * Transforms the figure. * * @param tx the transformation. */ public void transform(AffineTransform tx) { if (TRANSFORM.get(this) != null || tx.getType() != (tx.getType() & AffineTransform.TYPE_TRANSLATION)) { if (TRANSFORM.get(this) == null) { TRANSFORM.basicSet(this, (AffineTransform) tx.clone()); } else { AffineTransform t = TRANSFORM.getClone(this); t.preConcatenate(tx); TRANSFORM.basicSet(this, t); } } else { for (int i = 0; i < coordinates.length; i++) { tx.transform(coordinates[i], coordinates[i]); } if (FILL_GRADIENT.get(this) != null && !FILL_GRADIENT.get(this).isRelativeToFigureBounds()) { Gradient g = FILL_GRADIENT.getClone(this); g.transform(tx); FILL_GRADIENT.basicSet(this, g); } if (STROKE_GRADIENT.get(this) != null && !STROKE_GRADIENT.get(this).isRelativeToFigureBounds()) { Gradient g = STROKE_GRADIENT.getClone(this); g.transform(tx); STROKE_GRADIENT.basicSet(this, g); } } invalidate(); }
public float getFontSize() { // return FONT_SIZE.get(this).floatValue(); Point2D.Double p = new Point2D.Double(0, FONT_SIZE.get(this)); AffineTransform tx = TRANSFORM.get(this); if (tx != null) { tx.transform(p, p); Point2D.Double p0 = new Point2D.Double(0, 0); tx.transform(p0, p0); p.y -= p0.y; /* try { tx.inverseTransform(p, p); } catch (NoninvertibleTransformException ex) { ex.printStackTrace(); }*/ } return (float) Math.abs(p.y); }
// SHAPE AND BOUNDS @Override public void transform(AffineTransform tx) { tx.transform(origin, origin); }