/** * Writes the <code>shape</code>, <code>coords</code>, <code>href</code>, * <code>nohref</code> Attribute for the specified figure and shape. * * @return Returns true, if the polygon is inside of the image bounds. */ private boolean writePolyAttributes(IXMLElement elem, SVGFigure f, Shape shape) { AffineTransform t = TRANSFORM.getClone(f); if (t == null) { t = drawingTransform; } else { t.preConcatenate(drawingTransform); } StringBuilder buf = new StringBuilder(); float[] coords = new float[6]; GeneralPath path = new GeneralPath(); for (PathIterator i = shape.getPathIterator(t, 1.5f); ! i.isDone(); i.next()) { switch (i.currentSegment(coords)) { case PathIterator.SEG_MOVETO : if (buf.length() != 0) { throw new IllegalArgumentException("Illegal shape "+shape); } if (buf.length() != 0) { buf.append(','); } buf.append((int) coords[0]); buf.append(','); buf.append((int) coords[1]); path.moveTo(coords[0], coords[1]); break; case PathIterator.SEG_LINETO : if (buf.length() != 0) { buf.append(','); } buf.append((int) coords[0]); buf.append(','); buf.append((int) coords[1]); path.lineTo(coords[0], coords[1]); break; case PathIterator.SEG_CLOSE : path.closePath(); break; default : throw new InternalError("Illegal segment type "+i.currentSegment(coords)); } } elem.setAttribute("shape", "poly"); elem.setAttribute("coords", buf.toString()); writeHrefAttribute(elem, f); return path.intersects(new Rectangle2D.Float(bounds.x, bounds.y, bounds.width, bounds.height)); }
/** * Writes the <code>shape</code>, <code>coords</code>, <code>href</code>, * <code>nohref</code> Attribute for the specified figure and ellipse. * * @return Returns true, if the circle is inside of the image bounds. */ private boolean writeCircleAttributes(IXMLElement elem, SVGFigure f, Ellipse2D.Double ellipse) { AffineTransform t = TRANSFORM.getClone(f); if (t == null) { t = drawingTransform; } else { t.preConcatenate(drawingTransform); } if ((t.getType() & (AffineTransform.TYPE_UNIFORM_SCALE | AffineTransform.TYPE_TRANSLATION)) == t.getType() && ellipse.width == ellipse.height ) { Point2D.Double start = new Point2D.Double(ellipse.x, ellipse.y); Point2D.Double end = new Point2D.Double(ellipse.x + ellipse.width, ellipse.y + ellipse.height); t.transform(start, start); t.transform(end, end); ellipse.x = Math.min(start.x, end.x); ellipse.y = Math.min(start.y, end.y); ellipse.width = Math.abs(start.x - end.x); ellipse.height = Math.abs(start.y - end.y); elem.setAttribute("shape", "circle"); elem.setAttribute("coords", (int) (ellipse.x + ellipse.width / 2d)+","+ (int) (ellipse.y + ellipse.height / 2d)+","+ (int) (ellipse.width / 2d) ); writeHrefAttribute(elem, f); return bounds.intersects(ellipse.getBounds()); } else { return writePolyAttributes(elem, f, (Shape) ellipse); } }
/** * 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(); }
@Override public void transform(AffineTransform tx) { if (get(TRANSFORM) != null || (tx.getType() & (AffineTransform.TYPE_TRANSLATION)) != tx.getType()) { if (get(TRANSFORM) == null) { TRANSFORM.setClone(this, tx); } else { AffineTransform t = TRANSFORM.getClone(this); t.preConcatenate(tx); set(TRANSFORM, t); } } else { super.transform(tx); } }
/** * Writes the <code>shape</code>, <code>coords</code>, <code>href</code>, * <code>nohref</code> Attribute for the specified figure and rectangle. * * @return Returns true, if the rect is inside of the image bounds. */ private boolean writeRectAttributes(IXMLElement elem, SVGFigure f, Rectangle2D.Double rect) { AffineTransform t = TRANSFORM.getClone(f); if (t == null) { t = drawingTransform; } else { t.preConcatenate(drawingTransform); } if ((t.getType() & (AffineTransform.TYPE_UNIFORM_SCALE | AffineTransform.TYPE_TRANSLATION)) == t.getType() ) { Point2D.Double start = new Point2D.Double(rect.x, rect.y); Point2D.Double end = new Point2D.Double(rect.x + rect.width, rect.y + rect.height); t.transform(start, start); t.transform(end, end); Rectangle r = new Rectangle( (int) Math.min(start.x, end.x), (int) Math.min(start.y, end.y), (int) Math.abs(start.x - end.x), (int) Math.abs(start.y - end.y) ); elem.setAttribute("shape", "rect"); elem.setAttribute("coords", r.x + ","+ r.y + ","+ (r.x + r.width) + ","+ (r.y + r.height) ); writeHrefAttribute(elem, f); return bounds.intersects(r); } else { return writePolyAttributes(elem, f, (Shape) rect); } }