+
+ specialBoxProperties.put("path", new SpecialBoxProperty() {
+ public Object get(Box b) { throw new JS.Exn("cannot read from the path property"); }
+ public void put(Box b, Object value) {
+ String t = value == null ? "null" : value.toString();
+ b.path = value == null ? null : VectorGraphics.parseVectorPath(value.toString());
+ MARK_FOR_REFLOW_b;
+ b.dirty();
+ } });
+
+ specialBoxProperties.put("transform", new SpecialBoxProperty() {
+ public void put(Box b, Object value) {
+ String t = value.toString().trim();
+ b.transform = VectorGraphics.Affine.identity();
+ while (t.length() > 0) {
+ if (t.startsWith("skewX(")) {
+ // FIXME
+
+ } else if (t.startsWith("shear(")) {
+ // FIXME: nonstandard; remove this
+ b.transform.multiply(VectorGraphics.Affine.shear(Float.parseFloat(t.substring(t.indexOf('(') + 1, t.indexOf(')')))));
+
+ } else if (t.startsWith("skewY(")) {
+ // FIXME
+
+ } else if (t.startsWith("rotate(")) {
+ String sub = t.substring(t.indexOf('(') + 1, t.indexOf(')'));
+ if (sub.indexOf(',') != -1) {
+ float angle = Float.parseFloat(sub.substring(0, sub.indexOf(',')));
+ sub = sub.substring(sub.indexOf(',') + 1);
+ float cx = Float.parseFloat(sub.substring(0, sub.indexOf(',')));
+ sub = sub.substring(sub.indexOf(',') + 1);
+ float cy = Float.parseFloat(sub);
+ b.transform.multiply(VectorGraphics.Affine.translate(cx, cy));
+ b.transform.multiply(VectorGraphics.Affine.rotate(angle));
+ b.transform.multiply(VectorGraphics.Affine.translate(-1 * cx, -1 * cy));
+ } else {
+ b.transform.multiply(VectorGraphics.Affine.rotate(Float.parseFloat(t.substring(t.indexOf('(') + 1, t.indexOf(')')))));
+ }
+
+ } else if (t.startsWith("translate(")) {
+ String sub = t.substring(t.indexOf('(') + 1, t.indexOf(')'));
+ if (sub.indexOf(',') > -1) {
+ b.transform.multiply(VectorGraphics.Affine.translate(Float.parseFloat(t.substring(t.indexOf('(') + 1, t.indexOf(','))),
+ Float.parseFloat(t.substring(t.indexOf(',') + 1, t.indexOf(')')))));
+ } else {
+ b.transform.multiply(VectorGraphics.Affine.translate(Float.parseFloat(t.substring(t.indexOf('(') + 1, t.indexOf(','))), 0));
+ }
+
+ } else if (t.startsWith("flip(")) {
+ String which = t.substring(t.indexOf('(') + 1, t.indexOf(')'));
+ b.transform.multiply(VectorGraphics.Affine.flip(which.equals("horizontal"), which.equals("vertical")));
+
+ } else if (t.startsWith("scale(")) {
+ String sub = t.substring(t.indexOf('(') + 1, t.indexOf(')'));
+ if (sub.indexOf(',') > -1) {
+ b.transform.multiply(VectorGraphics.Affine.scale(Float.parseFloat(t.substring(t.indexOf('(') + 1, t.indexOf(','))),
+ Float.parseFloat(t.substring(t.indexOf(',') + 1, t.indexOf(')')))));
+ } else {
+ b.transform.multiply(VectorGraphics.Affine.scale(Float.parseFloat(t.substring(t.indexOf('(') + 1, t.indexOf(','))),
+ Float.parseFloat(t.substring(t.indexOf('(') + 1, t.indexOf(',')))));
+ }
+
+ } else if (t.startsWith("matrix(")) {
+ // FIXME: is this mapped right?
+ float d[] = new float[6];
+ StringTokenizer st = new StringTokenizer(t, ",", false);
+ for(int i=0; i<6; i++)
+ d[i] = Float.parseFloat(st.nextToken());
+ b.transform.multiply(new VectorGraphics.Affine(d[0], d[1], d[2], d[3], d[4], d[5]));
+ }
+ t = t.substring(t.indexOf(')') + 1).trim();
+ }
+ b.dirty();
+ }
+ public Object get(Box b) { return b.transform.toString(); }
+ });
+