1 // Copyright 2002 Adam Megacz, see the COPYING file for licensing [GPL]
8 import org.mozilla.javascript.*;
12 * Encapsulates the data for a single XWT box as well as all layout
17 * This is the real meat of XWT. Part of its monolithic design is for
18 * performance reasons: deep inheritance heirarchies are slow, and
19 * neither javago nor GCJ can inline across class boundaries.
22 * <p>The rendering process consists of two phases:</p>
24 * <ol><li> <b>Prerendering pipeline</b>: a set of methods that
25 * traverse the tree (DFS, postorder) immediately before
26 * rendering. These methods calculate the appropriate size
27 * and position for all boxes. If no changes requiring a
28 * re-prerender have been made to a box or any of its
29 * descendants, <tt>needs_prerender</tt> will be false, and the box
30 * and its descendants will be skipped.
32 * <li> <b>Rendering pipeline</b>: a second set of methods that
33 * traverses the tree (DFS, preorder) and renders each Box
34 * onto the associated Surface. The render() method takes a
35 * region (x,y,w,h) as an argument, and will only render
36 * onto pixels within that region. Boxes which lie
37 * completely outside that region will be skipped.
41 * Either of these two phases may <i>abort</i> at any time by setting
42 * <tt>surface.abort</tt> to true. Currently, there are two reasons
43 * for aborting: a <tt>SizeChange</tt> or <tt>PosChange</tt> was
44 * triggered in the prerender phase (which ran scripts which modified
45 * the boxtree's composition, requiring another prerender pass), or
46 * else the user resized the surface. In either case, the
47 * [pre]rendering process is halted as soon as possible and
48 * re-started from the beginning.
51 * <p>Why are these done as seperate passes over the box tree?</p>
53 * <ol><li> Sometimes we need to make several trips through
54 * <tt>prerender()</tt?, as a result of <tt>SizeChange</tt>
55 * or <tt>PosChange</tt>. Calling <tt>prerender()</tt> is
56 * cheap; calling <tt>render()</tt> is expensive.
58 * <li> Even if no <tt>SizeChange</tt> or <tt>PosChange</tt> traps are
59 * triggered, updates to the size and position of boxes in
60 * the prerender phase can cause additional regions to be
61 * added to the dirty list. If the prerender and render
62 * passes were integrated, this might cause some screen
63 * regions to be painted twice (or more) in a single pass,
64 * which hurts performance.
68 * A box's <tt>_cmin_*</tt> variables hold the minimum possible
69 * dimensions of this box, taking into account the size of its
70 * children (and their children). The cmin variables must be kept in
71 * sync with its other geometric properties and the geometric
72 * properties of its children at all times -- they are not
73 * periodically recomputed during the [pre]rendering process, as size
74 * and pos are. If any data changes which might invalidate the cmin,
75 * the method <tt>sync_cmin_to_children()</tt> must be invoked
80 * A note on coordinates: the Box class represents regions
81 * internally as x,y,w,h tuples, even though the DoubleBuffer class
82 * uses x1,y1,x2,y2 tuples.
85 public final class Box extends JSObject {
88 // Static Data //////////////////////////////////////////////////////////////
90 /** a pool of one-element Object[]'s */
91 private static Queue singleObjects = new Queue(100);
93 /** caches images, keyed on resource name or url */
94 public static Hash pictureCache = new Hash();
96 /** cache of border objects */
97 static Hash bordercache = new Hash();
99 /** stores image names, keyed on image object */
100 static Hash imageToNameMap = new Hash();
102 /** the empty object, used for get-traps */
103 private static Object[] emptyobj = new Object[] { };
106 // Instance Data: Templates ////////////////////////////////////////////////////////
108 /** the unresolved name of the first template applied to this node [ignoring preapply's], or null if this template was specified anonymously */
109 String templatename = null;
111 /** the importlist which was used to resolve <tt>templatename</tt>, or null if this template was specified anonymously */
112 String[] importlist = Template.defaultImportList;
114 /** the template instance that resulted from resolving <tt>templatename</tt> using <tt>importlist</tt>, or the anonymous template applied */
115 Template template = null;
118 // Instance Data: Geometry ////////////////////////////////////////////////////////
120 /** The number of elements in the geom array */
121 public static final int NUMINTS = 10;
123 /** The maximum <i>defined</i> width and height of this box */
124 public static final int dmax = 0;
125 private short _dmax_0 = 0;
126 private short _dmax_1 = 0;
127 public final short dmax(int axis) { return axis == 0 ? _dmax_0 : _dmax_1; }
129 /** The minimum <i>defined</i> width and height of this box */
130 public static final int dmin = 1;
131 private short _dmin_0 = 0;
132 private short _dmin_1 = 0;
133 public final short dmin(int axis) { return axis == 0 ? _dmin_0 : _dmin_1; }
135 /** The minimum <i>calculated</i> width and height of this box -- unlike dmin, this takes childrens' sizes into account */
136 public static final int cmin = 2;
137 private short _cmin_0 = 0;
138 private short _cmin_1 = 0;
139 public final short cmin(int axis) { return axis == 0 ? _cmin_0 : _cmin_1; }
141 /** The position of this box, relitave to the parent */
142 public static final int abs = 3;
143 private short _abs_0 = 0;
144 private short _abs_1 = 0;
145 public final short abs(int axis) { return axis == 0 ? _abs_0 : _abs_1; }
147 /** The absolute position of this box (ie relitave to the root); set by the parent */
148 public static final int pos = 4;
149 private short _pos_0 = 0;
150 private short _pos_1 = 0;
151 public final short pos(int axis) { return axis == 0 ? _pos_0 : _pos_1; }
153 /** The actual size of this box; set by the parent. */
154 public static final int size = 5;
157 public final short size(int axis) { return axis == 0 ? _size_0 : _size_1; }
159 /** The old actual absolute position of this box (ie relitave to the root) */
160 public static final int oldpos = 6;
161 private short _oldpos_0 = 0;
162 private short _oldpos_1 = 0;
163 public final short oldpos(int axis) { return axis == 0 ? _oldpos_0 : _oldpos_1; }
165 /** The old actual size of this box */
166 public static final int oldsize = 7;
167 private short _oldsize_0 = 0;
168 private short _oldsize_1 = 0;
169 public final short oldsize(int axis) { return axis == 0 ? _oldsize_0 : _oldsize_1; }
171 /** The padding along each edge for this box */
172 public static final int pad = 8;
173 private short _pad_0 = 0;
174 private short _pad_1 = 0;
175 public final short pad(int axis) { return axis == 0 ? _pad_0 : _pad_1; }
177 /** The dimensions of the text in this box */
178 public static final int textdim = 9;
179 private short _textdim_0 = 0;
180 private short _textdim_1 = 0;
181 public final short textdim(int axis) { return axis == 0 ? _textdim_0 : _textdim_1; }
184 // Instance Data /////////////////////////////////////////////////////////////////
186 /** This box's mouseinside property, as defined in the reference */
187 boolean mouseinside = false;
189 /** If redirect is enabled, this holds the Box redirected to */
192 /** the Box's font -- you must call textupdate() after changing this */
193 String font = Platform.getDefaultFont();
195 /** The surface for us to render on; null if none; INVARIANT: surface == getParent().surface */
196 Surface surface = null;
198 /** Our alignment: top/left == -1, center == 0, bottom/right == +1 */
201 /** Our background image; to set this, use setImage() */
202 public Picture image;
204 /** The flex for this box */
207 /** The orientation, horizontal == 0, vertical == 1 */
210 /** The opposite of the orientation */
213 /** The id of this Box */
214 public String id = "";
216 /** The text of this Box -- you must call textupdate() after changing this */
219 /** The color of the text in this Box in 00RRGGBB form -- default is black */
220 int textcolor = 0xFF000000;
222 /** The background color of this box in AARRGGBB form -- default is clear; alpha is all-or-nothing */
223 int color = 0x00000000;
225 /** Holds four "strip images" -- 0=top, 1=bottom, 2=left, 3=right, 4=all */
226 Picture[] border = null;
228 /** true iff the box's background image should be tiled */
229 boolean tile = false;
231 /** True iff the Box is invisible */
232 public boolean invisible = false;
234 /** If true, the Box will force its own size to the natural size of its background image */
235 boolean sizetoimage = false;
237 /** If true and tile is false, the background of this image will never be stretched */
238 boolean fixedaspect = false;
240 /** If true, the box will shrink to the smallest vertical size possible */
241 boolean vshrink = false;
243 /** If true, the box will shrink to the smallest horizontal size possible */
244 boolean hshrink = false;
246 /** If true, the box will be positioned absolutely */
247 boolean absolute = false;
249 /** True iff the Box must be run through the prerender() pipeline before render()ing;<br>
250 * INVARIANT: if (needs_prerender) then getParent().needs_prerender. **/
251 boolean needs_prerender = true;
253 /** The cursor for this Box -- only meaningful on the root Box */
254 public String cursor = null;
256 /** Any traps placed on this Box */
257 public Hash traps = null;
260 // Instance Data: IndexOf ////////////////////////////////////////////////////////////
262 /** The indexof() Function; created lazily */
263 public Function indexof = null;
264 public Function indexof() {
265 if (indexof == null) indexof = new IndexOf();
269 /** a trivial private class to serve as the box.indexof function object */
270 private class IndexOf extends JSObject implements Function {
271 public IndexOf() { this.setSeal(true); }
272 public Scriptable construct(Context cx, Scriptable scope, java.lang.Object[] args) { return null; }
273 public Object call(Context cx, Scriptable scope, Scriptable thisObj, java.lang.Object[] args) throws JavaScriptException {
274 if (args == null || args.length != 1 || args[0] == null || !(args[0] instanceof Box)) return new Integer(-1);
275 Box b = (Box)args[0];
276 if (b.getParent() != Box.this) {
277 if (redirect == null || redirect == Box.this) return new Integer(-1);
278 return Box.this.redirect.indexof().call(cx, scope, thisObj, args);
280 return new Integer(b.getIndexInParent());
285 // Methods which enforce/preserve invariants ////////////////////////////////////////////
287 /** This method MUST be used to change geometry values -- it ensures that certain invariants are preserved. */
288 public final void set(int which, int axis, int newvalue) { set(which, axis, (short)newvalue); }
289 public final void set(int which, int axis, short newvalue) {
291 // if this Box is the root of the Surface, notify the Surface of size changes
292 if (getParent() == null && surface != null && which == size)
293 surface._setSize(axis == 0 ? newvalue : size(0), axis == 1 ? newvalue : size(1));
295 if (getParent() == null && surface != null && (which == dmin || which == dmax))
296 surface.setLimits(dmin(0), dmin(1), dmax(0), dmax(1));
299 case dmin: if (dmin(axis) == newvalue) return; if (axis == 0) _dmin_0 = newvalue; else _dmin_1 = newvalue; break;
300 case dmax: if (dmax(axis) == newvalue) return; if (axis == 0) _dmax_0 = newvalue; else _dmax_1 = newvalue; break;
301 case cmin: if (cmin(axis) == newvalue) return; if (axis == 0) _cmin_0 = newvalue; else _cmin_1 = newvalue; break;
302 case abs: if (abs(axis) == newvalue) return; if (axis == 0) _abs_0 = newvalue; else _abs_1 = newvalue; break;
303 case pos: if (pos(axis) == newvalue) return; if (axis == 0) _pos_0 = newvalue; else _pos_1 = newvalue; break;
304 case size: if (size(axis) == newvalue) return; if (axis == 0) _size_0 = newvalue; else _size_1 = newvalue; break;
305 case oldpos: if (oldpos(axis) == newvalue) return; if (axis == 0) _oldpos_0 = newvalue; else _oldpos_1 = newvalue; break;
306 case oldsize: if (oldsize(axis) == newvalue) return; if (axis == 0) _oldsize_0 = newvalue; else _oldsize_1 = newvalue; break;
307 case pad: if (pad(axis) == newvalue) return; if (axis == 0) _pad_0 = newvalue; else _pad_1 = newvalue; break;
308 case textdim: if (textdim(axis) == newvalue) return; if (axis == 0) _textdim_0 = newvalue; else _textdim_1 = newvalue; break;
312 // size must always agree with dmin/dmax
313 if (which == dmin) set(size, axis, max(size(axis), newvalue));
314 if (which == dmax) set(size, axis, min(size(axis), newvalue));
316 // keep obedience to shrink directives
317 if (which == cmin || which == textdim || which == pad || which == dmin)
318 if ((hshrink && axis == 0) || (vshrink && axis == 1))
319 set(dmax, axis, max(cmin(axis), (textdim(axis) + 2 * pad(axis)), dmin(axis)));
321 // keep cmin in line with dmin/dmax/textdim
322 if (which == dmax || which == dmin || which == textdim || which == pad || which == cmin)
325 min(cmin(axis), dmax(axis)),
327 min(dmax(axis), textdim(axis) + 2 * pad(axis))
331 // if the pad changes, update cmin
332 if (which == pad) sync_cmin_to_children();
334 // needed in the shrink case, since dmin may have been the deciding factor in calculating cmin
335 if ((vshrink || hshrink) && (which == dmin || which == textdim || which == pad)) sync_cmin_to_children();
337 // if the cmin changes, we need to be re-prerendered
338 if (which == cmin) mark_for_prerender();
340 // if the absolute position of a box changes, its parent needs to be re-prerendered (to update the child's position)
341 if (which == abs && getParent() != null) getParent().mark_for_prerender();
343 // if our cmin changes, then our parent's needs to be recalculated
344 if (getParent() != null && which == cmin) {
345 mark_for_prerender();
346 getParent().sync_cmin_to_children();
351 /** Marks this node and all its ancestors so that they will be prerender()ed */
352 public final void mark_for_prerender() {
353 if (needs_prerender) return;
354 needs_prerender = true;
355 if (getParent() != null) getParent().mark_for_prerender();
358 /** Ensures that cmin is in sync with the cmin's of our children. This should be called whenever a child is added or
359 * removed, as well as when our pad is changed. */
360 final void sync_cmin_to_children() {
361 short co = (short)(2 * pad(o));
362 short cxo = (short)(2 * pad(xo));
364 for(Box bt = getChild(0); bt != null; bt = bt.nextSibling()) {
365 if (bt.invisible || bt.absolute) continue;
367 cxo = (short)max(bt.cmin(xo) + 2 * pad(xo), cxo);
374 /** must be called after changes to <tt>image</tt> or <tt>border</tt> if sizetoimage is true */
375 public void syncSizeToImage() {
376 set(dmax, 0, (image == null ? 0 : image.getWidth()) + (border == null ? 0 : border[2].getWidth()) * 2);
377 set(dmax, 1, (image == null ? 0 : image.getHeight()) + (border == null ? 0 : border[0].getHeight()) * 2);
378 set(dmin, 0, (image == null ? 0 : image.getWidth()) + (border == null ? 0 : border[2].getWidth()) * 2);
379 set(dmin, 1, (image == null ? 0 : image.getHeight()) + (border == null ? 0 : border[0].getHeight()) * 2);
382 /** This must be called when font or text is changed */
384 if (text.equals("")) {
388 XWF xwf = XWF.getXWF(font);
390 set(textdim, 0, Platform.stringWidth(font, text));
391 set(textdim, 1, (Platform.getMaxAscent(font) + Platform.getMaxDescent(font)));
393 set(textdim, 0, xwf.stringWidth(text));
394 set(textdim, 1, (xwf.getMaxAscent() + xwf.getMaxDescent()));
400 // Instance Methods /////////////////////////////////////////////////////////////////////
402 /** Changes the Surface that this Box draws on. */
403 protected void setSurface(Surface newSurface) {
404 if (surface == newSurface) return;
406 if ((is_trapped("KeyPressed") || is_trapped("KeyReleased")) && surface != null)
407 surface.keywatchers.removeElement(this);
408 surface = newSurface;
409 if ((is_trapped("KeyPressed") || is_trapped("KeyReleased")) && surface != null)
410 surface.keywatchers.addElement(this);
411 for(Box i = getChild(0); i != null; i = i.nextSibling()) i.setSurface(surface);
412 if (numChildren() == 0) mark_for_prerender();
415 /** loads the image described by string str, possibly blocking for a network load */
416 private static ImageDecoder getImage(String str) {
417 ImageDecoder ret = null;
418 boolean ispng = false;
420 if (str.indexOf(':') == -1) {
422 byte[] b = Resources.getResource(Resources.resolve(s + ".png", null));
423 if (b == null) return null;
424 return PNG.decode(new ByteArrayInputStream(b), str);
427 Thread thread = Thread.currentThread();
428 if (!(thread instanceof ThreadMessage)) {
429 if (Log.on) Log.log(Box.class, "HTTP images can not be loaded from the foreground thread");
432 // FIXME: use primitives here
433 ThreadMessage mythread = (ThreadMessage)thread;
434 mythread.setPriority(Thread.MIN_PRIORITY);
435 mythread.done.release();
437 // FIXME use mime types here, not extensions
438 if (str.endsWith(".jpeg") || str.endsWith(".jpg"))
439 str = "http://xmlrpc.xwt.org/jpeg2png/" + str.substring(str.indexOf("//") + 2);
441 if (str.endsWith(".gif")) ret = GIF.decode(new HTTP(str).getInputStream(), str);
442 else ret = PNG.decode(new HTTP(str).getInputStream(), str);
445 } catch (IOException e) {
446 if (Log.on) Log.log(Box.class, "error while trying to load an image from " + str);
447 if (Log.on) Log.log(Box.class, e);
451 MessageQueue.add(mythread);
452 mythread.setPriority(Thread.NORM_PRIORITY);
458 /** gets an Image using getImage(), adds it to the cache, and creates a Picture from it */
459 public static Picture getPicture(String os) {
461 ret = (Picture)pictureCache.get(os);
462 if (ret != null) return ret;
463 ImageDecoder id = getImage(os);
464 if (id == null) return null;
465 ret = Platform.createPicture(id);
466 pictureCache.put(os, ret);
467 imageToNameMap.put(ret, os);
471 /** Sets the image; argument should be a fully qualified s name or an URL */
472 void setImage(String s) {
473 if ((s == null && image == null) || (s != null && image != null && s.equals(imageToNameMap.get(image)))) return;
474 if (s == null || s.equals("")) {
476 if (sizetoimage) syncSizeToImage();
479 image = getPicture(s);
481 if (Log.on) Log.log(Box.class, "unable to load image " + s + " at " +
482 Context.enter().interpreterSourceFile + ":" + Context.enter().interpreterLine);
485 if (sizetoimage) syncSizeToImage();
490 /** Sets the border; argument should be a fully qualified resource name or an URL */
491 void setBorder(String s) {
492 if ((s == null && border == null) || (s != null && border != null && s.equals(imageToNameMap.get(border)))) return;
493 if (s == null || s.equals("")) {
495 if (sizetoimage) syncSizeToImage();
499 border = (Picture[])bordercache.get(s);
500 if (border == null) {
501 ImageDecoder id = getImage(s);
503 if (Log.on) Log.log(this, "unable to load border image " + s + " at " +
504 Context.enter().interpreterSourceFile + ":" + Context.enter().interpreterLine);
507 int[] data = id.getData();
508 int w = id.getWidth();
509 int h = id.getHeight();
513 int[][] dat = new int[4][];
514 dat[0] = new int[100 * vpad];
515 dat[1] = new int[100 * vpad];
516 dat[2] = new int[100 * hpad];
517 dat[3] = new int[100 * hpad];
519 for(int i=0; i<100; i++) {
520 for(int j=0; j<vpad; j++) {
521 dat[0][i + j * 100] = data[hpad + j * w];
522 dat[1][i + (vpad - j - 1) * 100] = data[hpad + (h - j - 1) * w];
524 for(int j=0; j<hpad; j++) {
525 dat[2][j + i * hpad] = data[j + vpad * w];
526 dat[3][hpad - j - 1 + i * hpad] = data[w - j - 1 + vpad * w];
530 border = new Picture[5];
531 border[0] = Platform.createPicture(dat[0], 100, vpad);
532 border[1] = Platform.createPicture(dat[1], 100, vpad);
533 border[2] = Platform.createPicture(dat[2], hpad, 100);
534 border[3] = Platform.createPicture(dat[3], hpad, 100);
535 border[4] = (Picture)pictureCache.get(s);
536 if (border[4] == null) {
537 border[4] = Platform.createPicture(data, w, h);
538 pictureCache.put(s, border[4]);
539 imageToNameMap.put(border[4], s);
541 bordercache.put(s, border);
543 if (sizetoimage) syncSizeToImage();
548 /** returns true if the property has a trap on it */
549 boolean is_trapped(String property) {
553 Object gc = traps.get(property);
554 return (gc != null &&
555 !(gc instanceof org.mozilla.javascript.Undefined) &&
556 gc != org.mozilla.javascript.Scriptable.NOT_FOUND);
560 /** Adds the node's current actual geometry to the Surface's dirty list */
562 dirty(pos(0), pos(1), size(0), size(1));
565 /** Adds the intersection of (x,y,w,h) and the node's current actual geometry to the Surface's dirty list */
566 public final void dirty(int x, int y, int w, int h) {
567 for(Box cur = this; cur != null; cur = cur.getParent()) {
568 w = min(x + w, cur.pos(0) + cur.size(0)) - max(x, cur.pos(0));
569 h = min(y + h, cur.pos(1) + cur.size(1)) - max(y, cur.pos(1));
570 x = max(x, cur.pos(0));
571 y = max(y, cur.pos(1));
572 if (w <= 0 || h <= 0) return;
574 if (surface != null) surface.dirty(x, y, w, h);
578 * Given an old and new mouse position, this will update <tt>mouseinside</tt> and check
579 * to see if this node requires any Enter, Leave, or Move notifications.
581 * @param forceleave set to true by the box's parent if the mouse is inside an older
582 * sibling, which is covering up this box.
584 void Move(int oldmousex, int oldmousey, int mousex, int mousey) { Move(oldmousex, oldmousey, mousex, mousey, false); }
585 void Move(int oldmousex, int oldmousey, int mousex, int mousey, boolean forceleave) {
587 boolean wasinside = mouseinside;
588 boolean isinside = !invisible && inside(mousex, mousey) && !forceleave;
589 mouseinside = isinside;
591 if (!wasinside && !isinside) return;
593 if (!wasinside && isinside && is_trapped("Enter")) put("Enter", null, this);
594 else if (wasinside && !isinside && is_trapped("Leave")) put("Leave", null, this);
595 else if (wasinside && isinside && (mousex != oldmousex || mousey != oldmousey) && is_trapped("Move")) put("Move", null, this);
597 if (isinside && cursor != null && surface != null) surface.cursor = cursor;
599 // if the mouse has moved into our padding region, it is considered 'outside' all our children
600 if (!(mousex >= pos(0) + pad(0) && mousey >= pos(1) + pad(1) &&
601 mousex < pos(0) + size(0) - pad(0) && mousey < pos(1) + size(1) + pad(1))) forceleave = true;
603 for(Box b = getChild(numChildren() - 1); b != null; b = b.prevSibling()) {
604 b.Move(oldmousex, oldmousey, mousex, mousey, forceleave);
605 if (b.inside(mousex, mousey)) forceleave = true;
609 /** creates a new box from an anonymous template; <tt>ids</tt> is passed through to Template.apply() */
610 Box(Template anonymous, Vec pboxes, Vec ptemplates) {
612 set(dmax, 0, Short.MAX_VALUE);
613 set(dmax, 1, Short.MAX_VALUE);
614 template = anonymous;
615 template.apply(this, pboxes, ptemplates);
620 /** creates a new box from an unresolved templatename and an importlist; use "box" for an untemplatized box */
621 public Box(String templatename, String[] importlist) {
623 set(dmax, 0, Short.MAX_VALUE);
624 set(dmax, 1, Short.MAX_VALUE);
625 this.importlist = importlist;
626 template = "box".equals(templatename) ? null : Template.getTemplate(templatename, importlist);
627 this.templatename = templatename;
628 if (template != null) {
629 template.apply(this, null, null);
630 if (redirect == this && !"self".equals(template.redirect)) redirect = null;
635 // Prerendering Pipeline ///////////////////////////////////////////////////////////////
637 /** Checks if the Box's size has changed, dirties it if necessary, and makes sure childrens' sizes are up to date */
640 if (getParent() == null) {
645 if (pos(0) != oldpos(0) || pos(1) != oldpos(1) || size(0) != oldsize(0) || size(1) != oldsize(1)) {
646 needs_prerender = true;
647 check_geometry_changes();
650 if (!needs_prerender) return;
651 needs_prerender = false;
652 if (numChildren() == 0) return;
654 int sumchildren = sizeChildren();
655 positionChildren(pos(o) + pad(o) + max(0, size(o) - 2 * pad(o) - sumchildren) / 2);
657 for(Box b = getChild(0); b != null; b = b.nextSibling()) {
660 mark_for_prerender();
666 /** if the size or position of a box has changed, dirty() the appropriate regions and possibly send Enter/Leave/SizeChange/PosChange */
667 private void check_geometry_changes() {
669 // FASTPATH: if we haven't moved position (just changed size), and we're not a stretched image:
670 if (oldpos(0) == pos(0) && oldpos(1) == pos(1) && (image == null || tile)) {
672 // we use the max(border, pad) since because of the pad we might be revealing an abs-pos child
673 int bw = max(border == null ? 0 : border[2].getWidth(), pad(0));
674 int bh = max(border == null ? 0 : border[0].getHeight(), pad(1));
676 // dirty only the *change* in the area we cover, both on ourselves and on our parent
677 for(Box cur = this; cur != null && (cur == this || cur == this.getParent()); cur = cur.getParent()) {
678 cur.dirty(pos(0) + min(oldsize(0) - bw, size(0) - bw),
680 Math.abs(oldsize(0) - size(0)) + bw,
681 max(oldsize(1), size(1)));
683 pos(1) + min(oldsize(1) - bh, size(1) - bh),
684 max(oldsize(0), size(0)),
685 Math.abs(oldsize(1) - size(1)) + bh);
688 // SLOWPATH: dirty ourselves, as well as our former position on our parent
691 if (getParent() != null) getParent().dirty(oldpos(0), oldpos(1), oldsize(0), oldsize(1));
695 boolean sizechange = false;
696 boolean poschange = false;
697 if ((oldsize(0) != size(0) || oldsize(1) != size(1)) && is_trapped("SizeChange")) sizechange = true;
698 if ((oldpos(0) != pos(0) || oldpos(1) != pos(1)) && is_trapped("PosChange")) poschange = true;
700 set(oldsize, 0, size(0));
701 set(oldsize, 1, size(1));
702 set(oldpos, 0, pos(0));
703 set(oldpos, 1, pos(1));
705 if (!sizechange && !poschange) return;
707 if (++surface.sizePosChangesSinceLastRender >= 500) {
708 if (surface.sizePosChangesSinceLastRender == 500) {
709 if (Log.on) Log.log(this, "Warning, more than 500 SizeChange/PosChange traps triggered since last complete render");
710 if (Log.on) Log.log(this, " interpreter is at " + Context.enter().interpreterSourceFile + ":" + Context.enter().interpreterLine);
712 Trap t = sizechange ? Trap.getTrap(this, "SizeChange") : Trap.getTrap(this, "PosChange");
713 InterpretedFunction f = (InterpretedFunction)t.f;
714 if (Log.on) Log.log(this, "Current trap is at " + f.getSourceName() + ":" + f.getLineNumbers()[0]);
715 } catch (Throwable t) { }
718 if (sizechange) put("SizeChange", null, Boolean.TRUE);
719 if (poschange) put("PosChange", null, Boolean.TRUE);
720 if (sizechange || poschange) {
721 surface.abort = true;
728 /** sets our childrens' sizes */
731 // Set sizes along minor axis, as well as sizes for absolute-positioned children
732 for(Box bt = getChild(0); bt != null; bt = bt.nextSibling()) {
733 if (bt.invisible) continue;
735 bt.set(size, o, max(bt.cmin(o), min(size(o) - bt.abs(o) - pad(o), bt.dmax(o))));
736 bt.set(size, xo, max(bt.cmin(xo), min(size(xo) - bt.abs(xo) - pad(xo), bt.dmax(xo))));
737 } else if (xo == 0 && bt.hshrink || xo == 1 && bt.vshrink) {
738 bt.set(size, xo, bt.cmin(xo));
740 bt.set(size, xo, bound(bt.cmin(xo), size(xo) - 2 * pad(xo), bt.dmax(xo)));
744 // the ideal size of our children, along our own major axis
745 int goal = (o == 0 && hshrink) || (o == 1 && vshrink) ? cmin(o) - 2 * pad(o) : size(o) - 2 * pad(o);
747 // the current sum of the sizes of all children
750 // each box is set to bound(box.cmin, box.flex * factor, box.dmax)
753 // Algorithm: we set the sizes of all boxes to bound(cmin, flex * factor, dmax) for some global value
754 // 'factor'. We figure out what 'factor' should be by starting at zero, and slowly increasing
755 // it. After each pass, 'factor' is set to the smaller of two values: ((goal - total) /
756 // remaining_flex) or the next largest value of factor which will cause some box to exceed its
757 // cmin or dmax (thereby changing remaining_flex).
762 // the sum of the flexes of all boxes which are not pegged at either cmin or dmax
763 int remaining_flex = 0;
765 // this is the next largest value of factor at which some box exceeds its cmin/dmax
766 int nextjoint = Integer.MAX_VALUE;
768 for(Box bt = getChild(0); bt != null; bt = bt.nextSibling()) {
769 if (bt.absolute || bt.invisible) continue;
771 bt.set(size, o, bound(bt.cmin(o), factor * bt.flex, bt.dmax(o)));
774 if (factor * bt.flex < bt.cmin(o) && bt.size(o) == bt.cmin(o)) {
775 nextjoint = min(nextjoint, divide_round_up(bt.cmin(o), bt.flex));
777 } else if (bt.size(o) < bt.dmax(o)) {
778 remaining_flex += bt.flex;
779 nextjoint = min(nextjoint, divide_round_up(bt.dmax(o), bt.flex));
784 if (remaining_flex == 0) {
785 if (nextjoint <= factor) break;
788 factor = min((goal - total + factor * remaining_flex) / remaining_flex, nextjoint);
791 if (goal - total <= remaining_flex) break;
794 // arbitrarily distribute out any leftovers resulting from rounding errors
796 while(goal > total && total != last) {
798 for(Box bt = getChild(0); bt != null; bt = bt.nextSibling()) {
799 int newsize = bound(bt.cmin(o), bt.size(o) + 1, bt.dmax(o));
800 total += newsize - bt.size(o);
801 bt.set(size, o, newsize);
808 /** positions this Box's children; cur is the starting position along this' major axis */
809 void positionChildren(int cur) {
810 for(Box bt = getChild(0); bt != null; bt = bt.nextSibling()) {
811 if (bt.invisible) continue;
813 bt.set(pos, 0, pos(0) + bt.abs(0));
814 bt.set(pos, 1, pos(1) + bt.abs(1));
816 bt.set(pos, xo, pos(xo) + pad(xo) + max(0, ((size(xo) - 2 * pad(xo) - bt.size(xo)) * (bt.align + 1)) / 2));
818 bt.set(abs, 0, bt.pos(0) - pos(0));
819 bt.set(abs, 1, bt.pos(1) - pos(1));
826 // Rendering Pipeline /////////////////////////////////////////////////////////////////////
828 /** Renders self and children within the specified region. All rendering operations are clipped to xIn,yIn,wIn,hIn */
829 void render(int xIn, int yIn, int wIn, int hIn, DoubleBuffer buf) {
830 if (surface.abort || invisible) return;
832 // intersect the x,y,w,h rendering window with ourselves; quit if it's empty
833 int x = max(xIn, getParent() == null ? 0 : pos(0));
834 int y = max(yIn, getParent() == null ? 0 : pos(1));
835 int w = min(xIn + wIn, (getParent() == null ? 0 : pos(0)) + size(0)) - x;
836 int h = min(yIn + hIn, (getParent() == null ? 0 : pos(1)) + size(1)) - y;
837 if (w <= 0 || h <= 0) return;
839 if (border != null) renderBorder(x, y, w, h, buf);
840 if ((color & 0xFF000000) != 0x00000000 || getParent() == null) {
841 int bw = border == null ? 0 : border[2].getWidth();
842 int bh = border == null ? 0 : border[0].getHeight();
843 int x1 = max(x, pos(0) + bw);
844 int y1 = max(y, pos(1) + bh);
845 int x2 = min(x + w, pos(0) + size(0) - bw);
846 int y2 = min(y + h, pos(1) + size(1) - bh);
847 buf.setClip(0, 0, buf.getWidth(), buf.getHeight());
848 if (y2 - y1 > 0 && x2 - x1 > 0)
849 buf.fillRect(x1,y1,x2,y2,(color & 0xFF000000) != 0 ? color : SpecialBoxProperty.lightGray);
853 if (tile) renderTiledImage(x, y, w, h, buf);
854 else renderStretchedImage(x, y, w, h, buf);
857 if (text != null && !text.equals("")) renderText(x, y, w, h, buf);
859 // now subtract the pad region from the clip region before proceeding
860 int x2 = max(x, pos(0) + pad(0));
861 int y2 = max(y, pos(1) + pad(1));
862 int w2 = min(x + w, pos(0) + size(0) - pad(0)) - x2;
863 int h2 = min(y + h, pos(1) + size(1) - pad(1)) - y2;
865 for(Box b = getChild(0); b != null; b = b.nextSibling())
866 b.render(x2, y2, w2, h2, buf);
869 private void renderBorder(int x, int y, int w, int h, DoubleBuffer buf) {
870 int bw = border[4].getWidth();
871 int bh = border[4].getHeight();
872 buf.setClip(x, y, w + x, h + y);
874 if ((color & 0xFF000000) != 0xFF000000) {
875 // if the color is null, we have to be very careful about drawing the corners
876 //if (Log.verbose) Log.log(this, "WARNING: (color == null && border != null) on box with border " + imageToNameMap.get(border[4]));
879 buf.drawPicture(border[4],
880 pos(0), pos(1), pos(0) + bw / 2, pos(1) + bh / 2,
881 0, 0, bw / 2, bh / 2);
883 // upper right corner
884 buf.drawPicture(border[4],
885 pos(0) + size(0) - bw / 2, pos(1), pos(0) + size(0), pos(1) + bh / 2,
886 bw - bw / 2, 0, bw, bh / 2);
889 buf.drawPicture(border[4],
890 pos(0), pos(1) + size(1) - bh / 2, pos(0) + bw / 2, pos(1) + size(1),
891 0, bh - bh / 2, bw / 2, bh);
893 // lower right corner
894 buf.drawPicture(border[4],
895 pos(0) + size(0) - bw / 2, pos(1) + size(1) - bh / 2, pos(0) + size(0), pos(1) + size(1),
896 bw - bw / 2, bh - bh / 2, bw, bh);
899 buf.drawPicture(border[4], pos(0), pos(1)); // upper left corner
900 buf.drawPicture(border[4], pos(0) + size(0) - bw, pos(1)); // upper right corner
901 buf.drawPicture(border[4], pos(0), pos(1) + size(1) - bh); // lower left corner
902 buf.drawPicture(border[4], pos(0) + size(0) - bw, pos(1) + size(1) - bh); // lower right corner
906 // top and bottom edges
907 buf.setClip(max(x, pos(0) + bw / 2), y, min(x + w, pos(0) + size(0) - bw / 2), h + y);
908 for(int i = max(x, pos(0) + bw / 2); i + 100 < min(x + w, pos(0) + size(0) - bw / 2); i += 100) {
909 buf.drawPicture(border[0], i, pos(1));
910 buf.drawPicture(border[1], i, pos(1) + size(1) - bh / 2);
912 buf.drawPicture(border[0], min(x + w, pos(0) + size(0) - bw / 2) - 100, pos(1));
913 buf.drawPicture(border[1], min(x + w, pos(0) + size(0) - bw / 2) - 100, pos(1) + size(1) - bh / 2);
915 // left and right edges
916 buf.setClip(x, max(y, pos(1) + bh / 2), w + x, min(y + h, pos(1) + size(1) - bh / 2));
917 for(int i = max(y, pos(1) + bh / 2); i + 100 < min(y + h, pos(1) + size(1) - bh / 2); i += 100) {
918 buf.drawPicture(border[2], pos(0), i);
919 buf.drawPicture(border[3], pos(0) + size(0) - bw / 2, i);
921 buf.drawPicture(border[2], pos(0), min(y + h, pos(1) + size(1) - bh / 2) - 100);
922 buf.drawPicture(border[3], pos(0) + size(0) - bw / 2, min(y + h, pos(1) + size(1) - bh / 2) - 100);
924 buf.setClip(0, 0, buf.getWidth(), buf.getHeight());
927 void renderStretchedImage(int x, int y, int w, int h, DoubleBuffer buf) {
928 buf.setClip(x, y, w + x, h + y);
929 int bw = border == null ? 0 : border[4].getHeight();
930 int bh = border == null ? 0 : border[4].getWidth();
932 int width = pos(0) + size(0) - bw / 2 - pos(0) + bw / 2;
933 int height = pos(1) + size(1) - bh / 2 - pos(1) + bh / 2;
936 int hstretch = width / image.getWidth();
937 if (hstretch == 0) hstretch = -1 * image.getWidth() / width;
938 int vstretch = height / image.getHeight();
939 if (vstretch == 0) vstretch = -1 * image.getHeight() / height;
941 if (hstretch < vstretch) {
942 height = image.getHeight() * width / image.getWidth();
944 width = image.getWidth() * height / image.getHeight();
948 buf.drawPicture(image,
951 pos(0) + bw / 2 + width,
952 pos(1) + bh / 2 + height,
953 0, 0, image.getWidth(), image.getHeight());
954 buf.setClip(0, 0, buf.getWidth(), buf.getHeight());
957 void renderTiledImage(int x, int y, int w, int h, DoubleBuffer buf) {
958 int iw = image.getWidth();
959 int ih = image.getHeight();
960 int bh = border == null ? 0 : border[4].getWidth();
961 int bw = border == null ? 0 : border[4].getHeight();
963 for(int i=(x - pos(0) - bw)/iw; i <= (x + w - pos(0) - bw)/iw; i++) {
964 for(int j=(y - pos(1) - bh)/ih; j<= (y + h - pos(1) - bh)/ih; j++) {
966 int dx1 = max(i * iw + pos(0), x);
967 int dy1 = max(j * ih + pos(1), y);
968 int dx2 = min((i+1) * iw + pos(0), x + w);
969 int dy2 = min((j+1) * ih + pos(1), y + h);
971 int sx1 = dx1 - (i*iw) - pos(0);
972 int sy1 = dy1 - (j*ih) - pos(1);
973 int sx2 = dx2 - (i*iw) - pos(0);
974 int sy2 = dy2 - (j*ih) - pos(1);
976 if (dx2 - dx1 > 0 && dy2 - dy1 > 0 && sx2 - sx1 > 0 && sy2 - sy1 > 0)
977 buf.drawPicture(image, dx1, dy1, dx2, dy2, sx1, sy1, sx2, sy2);
983 void renderText(int x, int y, int w, int h, DoubleBuffer buf) {
985 if ((textcolor & 0xFF000000) == 0x00000000) return;
986 buf.setClip(x, y, w + x, h + y);
988 XWF xwf = XWF.getXWF(font);
990 xwf.drawString(buf, text,
992 pos(1) + pad(1) + xwf.getMaxAscent() - 1,
995 buf.drawString(font, text,
997 pos(1) + pad(1) + Platform.getMaxAscent(font) - 1,
1001 buf.setClip(0, 0, buf.getWidth(), buf.getHeight());
1003 int i=0; while(i<font.length() && !Character.isDigit(font.charAt(i))) i++;
1005 if (font.lastIndexOf('d') > i) {
1006 for(int j = pos(0) + pad(0); j < pos(0) + pad(0) + textdim(0); j += 2)
1007 buf.fillRect(j, pos(1) + pad(1) + (xwf == null ? Platform.getMaxAscent(font) : xwf.getMaxAscent()) + 2,
1008 j + 1, pos(1) + pad(1) + (xwf == null ? Platform.getMaxAscent(font) : xwf.getMaxAscent()) + 2 + 1,
1011 } else if (font.lastIndexOf('u') > i) {
1012 buf.fillRect(pos(0) + pad(0),
1013 pos(1) + pad(1) + (xwf == null ? Platform.getMaxAscent(font) : xwf.getMaxAscent()) + 2,
1014 pos(0) + pad(0) + textdim(0),
1015 pos(1) + pad(1) + (xwf == null ? Platform.getMaxAscent(font) : xwf.getMaxAscent()) + 2 + 1,
1022 // Methods to implement org.mozilla.javascript.Scriptable //////////////////////////////////////
1024 /** Returns the i_th child */
1025 public Object get(int i, Scriptable start) {
1026 if (redirect == null) return null;
1027 if (redirect != this) return redirect.get(i, start);
1028 return i >= numChildren() ? null : getChild(i);
1032 * Inserts value as child i; calls remove() if necessary.
1033 * This method handles "reinserting" one of your children properly.
1034 * INVARIANT: after completion, getChild(min(i, numChildren())) == newnode
1035 * WARNING: O(n) runtime, unless i == numChildren()
1037 public void put(int i, Scriptable start, Object value) {
1038 if (value == null) {
1039 if (i >= 0 && i < numChildren()) getChild(i).remove();
1042 if (value instanceof RootProxy) {
1043 if (Log.on) Log.log(this, "attempt to reparent a box via its proxy object at " +
1044 Context.enter().interpreterSourceFile + ":" + Context.enter().interpreterLine);
1046 } else if (!(value instanceof Box)) {
1047 if (Log.on) Log.log(this, "attempt to set a numerical property on a box to anything other than a box at " +
1048 Context.enter().interpreterSourceFile + ":" + Context.enter().interpreterLine);
1051 Box newnode = (Box)value;
1052 if (redirect == null) {
1053 if (Log.on) Log.log(this, "attempt to add a child to a node with a null redirect at " +
1054 Context.enter().interpreterSourceFile + ":" + Context.enter().interpreterLine);
1056 } else if (redirect != this) redirect.put(i, null, newnode);
1058 if (numKids > 15 && children == null) convert_to_array();
1059 if (newnode.parent != null) newnode.remove();
1060 newnode.parent = this;
1062 if (children == null) {
1063 if (firstKid == null) {
1065 newnode.prevSibling = newnode;
1066 newnode.nextSibling = newnode;
1067 } else if (i >= numKids) {
1068 newnode.prevSibling = firstKid.prevSibling;
1069 newnode.nextSibling = firstKid;
1070 firstKid.prevSibling.nextSibling = newnode;
1071 firstKid.prevSibling = newnode;
1074 for(int j=0; j<i; j++) cur = cur.nextSibling;
1075 newnode.prevSibling = cur.prevSibling;
1076 newnode.nextSibling = cur;
1077 cur.prevSibling.nextSibling = newnode;
1078 cur.prevSibling = newnode;
1079 if (i == 0) firstKid = newnode;
1084 if (i >= children.size()) {
1085 newnode.indexInParent = children.size();
1086 children.addElement(newnode);
1088 children.insertElementAt(newnode, i);
1089 for(int j=i; j<children.size(); j++)
1090 getChild(j).indexInParent = j;
1093 newnode.setSurface(surface);
1095 // need both of these in case child was already uncalc'ed
1096 newnode.mark_for_prerender();
1097 mark_for_prerender();
1100 sync_cmin_to_children();
1103 // note that JavaScript box[0] will invoke put(int i), not put(String s)
1104 put("0", null, newnode);
1107 public Object get(String name, Scriptable start) { return get(name, start, false); }
1108 public Object get(String name, Scriptable start, boolean ignoretraps) {
1110 if (name == null || name.equals("")) return null;
1112 // hack since Rhino needs to be able to grab these functions to create new objects
1113 if (name.equals("Object")) return JSObject.defaultObjects.get("Object", null);
1114 if (name.equals("Array")) return JSObject.defaultObjects.get("Array", null);
1115 if (name.equals("Function")) return JSObject.defaultObjects.get("Function", null);
1116 if (name.equals("TypeError")) return JSObject.defaultObjects.get("TypeError", null);
1117 if (name.equals("ConversionError")) return JSObject.defaultObjects.get("ConversionError", null);
1119 // See if we're reading back the function value of a trap
1120 if (name.charAt(0) == '_') {
1121 if (name.charAt(1) == '_') name = name.substring(2);
1122 else name = name.substring(1);
1123 Trap t = Trap.getTrap(this, name);
1124 return t == null ? null : t.f;
1127 // See if we're triggering a trap
1128 Trap t = traps == null || ignoretraps ? null : (Trap)traps.get(name);
1129 if (t != null && t.isreadtrap) return t.perform(emptyobj);
1131 // Check for a special handler
1132 SpecialBoxProperty gph = (SpecialBoxProperty)SpecialBoxProperty.specialBoxProperties.get(name);
1133 if (gph != null) return gph.get(this);
1135 return super.get(name, start);
1138 /** indicate that we don't want JSObject trying to handle these */
1139 public boolean has(String name, Scriptable start) {
1140 if (name.equals("")) return false;
1141 if (traps != null && traps.get(name) != null) return true;
1142 if (name.charAt(0) == '_') return true;
1143 if (SpecialBoxProperty.specialBoxProperties.get(name) != null) return true;
1144 if (name.equals("Function") || name.equals("Array") || name.equals("Object") ||
1145 name.equals("TypeError") || name.equals("ConversionError")) return true;
1146 return super.has(name, start);
1149 public void put(String name, Scriptable start, Object value) { put(name, start, value, false, null); }
1150 public void put(String name, Scriptable start, Object value, boolean ignoretraps) { put(name, start, value, ignoretraps, null); }
1154 * @param ignoretraps if set, no traps will be triggered (set when 'cascade' reaches the bottom of the trap stack)
1155 * @param rp if this put is being performed via a root proxy, rp is the root proxy.
1157 public void put(String name, Scriptable start, Object value, boolean ignoretraps, RootProxy rp) {
1158 if (name == null) return;
1159 if (name.startsWith("xwt_")) {
1160 if (Log.on) Log.log(this, "attempt to set reserved property " + name + " at " +
1161 Context.enter().interpreterSourceFile + ":" + Context.enter().interpreterLine);
1165 if (!ignoretraps && traps != null) {
1166 Trap t = (Trap)traps.get(name);
1168 Object[] arg = (Object[])singleObjects.remove(false);
1169 if (arg == null) arg = new Object[] { value };
1170 else arg[0] = value;
1173 singleObjects.append(arg);
1178 // don't want to really cascade down to the box on this one
1179 if (name.equals("0")) return;
1181 SpecialBoxProperty gph = (SpecialBoxProperty)SpecialBoxProperty.specialBoxProperties.get(name);
1183 gph.put(name, this, value);
1187 if (name.charAt(0) == '_') {
1188 if (value != null && !(value instanceof Function)) {
1189 if (Log.on) Log.log(this, "attempt to put a non-function value to " + name + " at " +
1190 Context.enter().interpreterSourceFile + ":" + Context.enter().interpreterLine);
1191 } else if (name.charAt(1) == '_') {
1192 name = name.substring(2).intern();
1193 Trap t = Trap.getTrap(this, name);
1194 if (t != null) t.delete();
1195 if (value != null) Trap.addTrap(this, name, ((Function)value), true, rp);
1197 name = name.substring(1).intern();
1198 Trap t = Trap.getTrap(this, name);
1199 if (t != null) t.delete();
1200 if (value != null) Trap.addTrap(this, name, ((Function)value), false, rp);
1206 // traps always cascade to the global property, not the local one
1207 putGlobally(name, start, value);
1209 super.put(name, start, value);
1212 // a bit of a hack, since titlebar is the only 'special' property stored in JSObject
1213 if (getParent() == null && surface != null) {
1214 if (name.equals("titlebar")) surface.setTitleBarText(value.toString());
1215 if (name.equals("icon")) {
1216 Picture pic = Box.getPicture(value.toString());
1217 if (pic != null) surface.setIcon(pic);
1218 else if (Log.on) Log.log(this, "unable to load icon " + value);
1223 /** the <tt>delete</tt> keyword is not valid in XWT scripts */
1224 public void delete(int i) { }
1227 // Tree Manipulation /////////////////////////////////////////////////////////////////////
1229 /** The parent of this node */
1230 private Box parent = null;
1232 // Variables used in Vector mode */
1233 /** INVARIANT: if (parent != null) parent.children.elementAt(indexInParent) == this */
1234 private int indexInParent;
1235 private Vec children = null;
1237 // Variables used in linked-list mode
1238 private int numKids = 0;
1239 private Box nextSibling = null;
1240 private Box prevSibling = null;
1241 private Box firstKid = null;
1243 // when we get more than 15 children, we switch to array-mode
1244 private void convert_to_array() {
1245 children = new Vec(numKids);
1248 children.addElement(cur);
1249 cur.indexInParent = children.size() - 1;
1250 cur = cur.nextSibling;
1251 } while (cur != firstKid);
1254 /** remove this node from its parent; INVARIANT: whenever the parent of a node is changed, remove() gets called. */
1255 public void remove() {
1256 if (parent == null) {
1257 if (surface != null) surface.dispose();
1260 Box oldparent = getParent();
1261 if (oldparent == null) return;
1262 mark_for_prerender();
1264 mouseinside = false;
1266 if (parent.children != null) {
1267 parent.children.removeElementAt(indexInParent);
1268 for(int j=indexInParent; j<parent.children.size(); j++)
1269 (parent.getChild(j)).indexInParent = j;
1272 if (parent.firstKid == this) {
1273 if (nextSibling == this) parent.firstKid = null;
1274 else parent.firstKid = nextSibling;
1277 prevSibling.nextSibling = nextSibling;
1278 nextSibling.prevSibling = prevSibling;
1284 if (oldparent != null) oldparent.sync_cmin_to_children();
1287 // note that JavaScript box[0] will invoke put(int i), not put(String s)
1288 if (oldparent != null) oldparent.put("0", null, this);
1291 /** returns our next sibling (parent[ourindex + 1]) */
1292 public final Box nextSibling() {
1293 if (parent == null) return null;
1294 if (parent.children == null) {
1295 if (nextSibling == parent.firstKid) return null;
1298 if (indexInParent >= parent.children.size() - 1) return null;
1299 return (Box)parent.children.elementAt(indexInParent + 1);
1303 /** returns our next sibling (parent[ourindex + 1]) */
1304 public final Box prevSibling() {
1305 if (parent == null) return null;
1306 if (parent.children == null) {
1307 if (this == parent.firstKid) return null;
1310 if (indexInParent == 0) return null;
1311 return (Box)parent.children.elementAt(indexInParent - 1);
1315 /** Returns the parent of this node */
1316 public Box getParent() { return parent; }
1318 /** Returns ith child */
1319 public Box getChild(int i) {
1320 if (children == null) {
1321 if (firstKid == null) return null;
1322 if (i >= numKids) return null;
1323 if (i == numKids - 1) return firstKid.prevSibling;
1325 for(int j=0; j<i; j++) cur = cur.nextSibling;
1328 if (i >= children.size() || i < 0) return null;
1329 return (Box)children.elementAt(i);
1333 /** Returns the number of children */
1334 public int numChildren() {
1335 if (children == null) {
1336 if (firstKid == null) return 0;
1338 for(Box cur = firstKid.nextSibling; cur != firstKid; i++) cur = cur.nextSibling;
1341 return children.size();
1345 /** Returns our index in our parent */
1346 public int getIndexInParent() {
1347 if (parent == null) return 0;
1348 if (parent.children == null) {
1350 for(Box cur = this; cur != parent.firstKid; i++) cur = cur.prevSibling;
1353 return indexInParent;
1357 /** returns the root of the surface that this box belongs to */
1358 public final Box getRoot() {
1359 if (getParent() == null && surface != null) return this;
1360 if (getParent() == null) return null;
1361 return getParent().getRoot();
1365 // Root Proxy ///////////////////////////////////////////////////////////////////////////////
1367 RootProxy myproxy = null;
1368 public Scriptable getRootProxy() {
1369 if (myproxy == null) myproxy = new RootProxy(this);
1373 private static class RootProxy implements Scriptable {
1376 RootProxy(Box b) { this.box = b; }
1378 public void delete(String name) { box.delete(name); }
1379 public Scriptable getParentScope() { return box.getParentScope(); }
1380 public void setParentScope(Scriptable p) { box.setParentScope(p); }
1381 public boolean hasInstance(Scriptable value) { return box.hasInstance(value); }
1382 public Scriptable getPrototype() { return box.getPrototype(); }
1383 public void setPrototype(Scriptable p) { box.setPrototype(p); }
1384 public void delete(int i) { box.delete(i); }
1385 public String getClassName() { return box.getClassName(); }
1386 public Object getDefaultValue(Class hint) { return box.getDefaultValue(hint); }
1388 public void put(int i, Scriptable start, Object value) { if (value != null) box.put(i, start, value); }
1389 public Object get(String name, Scriptable start) { return box.get(name, start); }
1390 public Object get(int i, Scriptable start) { return null; }
1392 public void put(String name, Scriptable start, Object value) { box.put(name, start, value, false, this); }
1393 public boolean has(String name, Scriptable start) { return box.has(name, start); }
1394 public boolean has(int i, Scriptable start) { return box.has(i, start); }
1395 public Object[] getIds() { return box.getIds(); }
1400 // Trivial Helper Methods (should be inlined) /////////////////////////////////////////
1402 /** helper, included in this class so it can be inlined */
1403 static final int min(int a, int b) {
1408 /** helper, included in this class so it can be inlined */
1409 static final double min(double a, double b) {
1414 /** helper, included in this class so it can be inlined */
1415 static final int max(int a, int b) {
1420 /** helper, included in this class so it can be inlined */
1421 static final int min(int a, int b, int c) {
1422 if (a<=b && a<=c) return a;
1423 else if (b<=c && b<=a) return b;
1427 /** helper, included in this class so it can be inlined */
1428 static final int max(int a, int b, int c) {
1429 if (a>=b && a>=c) return a;
1430 else if (b>=c && b>=a) return b;
1434 /** helper, included in this class so it can be inlined */
1435 static final int bound(int a, int b, int c) {
1436 if (c < b) return c;
1437 if (a > b) return a;
1441 /** returns numerator/denominator, but rounds <i>up</i> instead of down */
1442 static final int divide_round_up(int numerator, int denominator) {
1443 int ret = numerator / denominator;
1444 if (ret * denominator < numerator) return ret + 1;
1448 /** Simple helper function to determine if the point x,y falls within this node's actual current geometry */
1449 boolean inside(int x, int y) {
1450 if (invisible) return false;
1451 return (x >= pos(0) && y >= pos(1) && x < pos(0) + size(0) && y < pos(1) + size(1));
1454 /** figures out what box in this subtree of the Box owns the pixel at x,y relitave to the Surface
1456 * IMPORTANT: this method gets called from the event-queueing thread, since we need to determine which box is
1457 * underneath the mouse as early as possible. Because of this, we have to do some extra checks, as the
1458 * Box tree may be in flux.
1460 Box whoIs(int x, int y) {
1461 if (invisible) return null;
1462 if (!inside(x,y)) return getParent() == null ? this : null;
1464 // We do this because whoIs is unsynchronized (for
1465 // speed), yet is sometimes called while the structure of the
1467 for(int i=numChildren() - 1; i>=0; i--) {
1469 Box child = getChild(i);
1470 if (child == null) continue;
1472 Box bt = child.whoIs(x,y);
1473 if (bt != null) return bt;