--- /dev/null
+// Copyright 2002 Adam Megacz, see the COPYING file for licensing [GPL]
+package org.xwt;
+import org.xwt.js.*;
+import org.xwt.util.*;
+
+/** all the boxtree manipulation code goes here */
+public final class BoxTree extends Box {
+
+ //#define MARK_REFLOW for(Box b2 = this; b2 != null && !b2.test(REFLOW); b2 = b2.parent) b2.set(REFLOW);
+ //#define MARK_REFLOW_b for(Box b2 = b; b2 != null && !b2.test(REFLOW); b2 = b2.parent) b2.set(REFLOW);
+ //#define MARK_RESIZE for(Box b2 = this; b2 != null && !b2.test(RESIZE); b2 = b2.parent) b2.set(RESIZE);
+ //#define MARK_RESIZE_b for(Box b2 = b; b2 != null && !b2.test(RESIZE); b2 = b2.parent) b2.set(RESIZE);
+
+ private static final boolean RED = false;
+ private static final boolean BLACK = true;
+
+ public final Box peerTree_leftmost() { for (Box p = this; ; p = p.left) if (p.left == null) return p; }
+ public final Box peerTree_rightmost() { for (Box p = this; ; p = p.right) if (p.right == null) return p; }
+ static Box peerTree_parent(Box p) { return (p == null)? null: p.peerTree_parent; }
+
+ public Box insertBeforeMe(Box cell) { left = cell; cell.peerTree_parent = this; return cell.fixAfterInsertion(); }
+ public Box insertAfterMe(Box cell) { right = cell; cell.peerTree_parent = this; return cell.fixAfterInsertion(); }
+
+ static boolean colorOf(Box p) { return (p == null) ? BLACK : p.test(Box.BLACK); }
+ static void setColor(Box p, boolean c) { if (p != null) { if (c) p.set(Box.BLACK); else p.clear(Box.BLACK); } }
+ static Box leftOf(Box p) { return (p == null)? null: p.left; }
+ static Box rightOf(Box p) { return (p == null)? null: p.right; }
+
+ public final Box nextSibling() {
+ if (right != null)
+ return right.peerTree_leftmost();
+ else {
+ Box p = peerTree_parent;
+ Box ch = this;
+ while (p != null && ch == p.right) { ch = p; p = p.peerTree_parent; }
+ return p;
+ }
+ }
+
+ public final Box prevSibling() {
+ if (left != null)
+ return left.peerTree_rightmost();
+ else {
+ Box p = peerTree_parent;
+ Box ch = this;
+ while (p != null && ch == p.left) { ch = p; p = p.peerTree_parent; }
+ return p;
+ }
+ }
+
+ public Box removeNode() {
+ Box root = peerTree_parent.rootChild;
+
+ // handle case where we are only node
+ if (left == null && right == null && peerTree_parent == null) return null;
+
+ // if strictly internal, swap places with a successor
+ if (left != null && right != null) {
+ Box s = nextSibling();
+ // To work nicely with arbitrary subclasses of Box, we don't want to
+ // just copy successor's fields. since we don't know what
+ // they are. Instead we swap positions in the tree.
+ root = swapPosition(this, s);
+ }
+
+ // Start fixup at replacement node (normally a child).
+ // But if no children, fake it by using self
+
+ if (left == null && right == null) {
+
+ if (test(Box.BLACK)) root = this.fixAfterDeletion();
+
+ // Unlink (Couldn't before since fixAfterDeletion needs peerTree_parent ptr)
+
+ if (peerTree_parent != null) {
+ if (this == peerTree_parent.left)
+ peerTree_parent.left = null;
+ else if (this == peerTree_parent.right)
+ peerTree_parent.right = null;
+ peerTree_parent = null;
+ }
+
+ }
+ else {
+ Box replacement = left;
+ if (replacement == null) replacement = right;
+
+ // link replacement to peerTree_parent
+ replacement.peerTree_parent = peerTree_parent;
+
+ if (peerTree_parent == null) root = replacement;
+ else if (this == peerTree_parent.left) peerTree_parent.left = replacement;
+ else peerTree_parent.right = replacement;
+
+ left = null;
+ right = null;
+ peerTree_parent = null;
+
+ // fix replacement
+ if (test(Box.BLACK)) root = replacement.fixAfterDeletion();
+
+ }
+
+ return root;
+ }
+
+ /**
+ * Swap the linkages of two nodes in a tree.
+ * Return new root, in case it changed.
+ **/
+ Box swapPosition(Box x, Box y) {
+ Box root = peerTree_parent.rootChild;
+
+ /* Too messy. TODO: find sequence of assigments that are always OK */
+
+ Box px = x.peerTree_parent;
+ boolean xpl = px != null && x == px.left;
+ Box lx = x.left;
+ Box rx = x.right;
+
+ Box py = y.peerTree_parent;
+ boolean ypl = py != null && y == py.left;
+ Box ly = y.left;
+ Box ry = y.right;
+
+ if (x == py) {
+ y.peerTree_parent = px;
+ if (px != null) if (xpl) px.left = y; else px.right = y;
+ x.peerTree_parent = y;
+ if (ypl) {
+ y.left = x;
+ y.right = rx; if (rx != null) rx.peerTree_parent = y;
+ }
+ else {
+ y.right = x;
+ y.left = lx; if (lx != null) lx.peerTree_parent = y;
+ }
+ x.left = ly; if (ly != null) ly.peerTree_parent = x;
+ x.right = ry; if (ry != null) ry.peerTree_parent = x;
+ }
+ else if (y == px) {
+ x.peerTree_parent = py;
+ if (py != null) if (ypl) py.left = x; else py.right = x;
+ y.peerTree_parent = x;
+ if (xpl) {
+ x.left = y;
+ x.right = ry; if (ry != null) ry.peerTree_parent = x;
+ }
+ else {
+ x.right = y;
+ x.left = ly; if (ly != null) ly.peerTree_parent = x;
+ }
+ y.left = lx; if (lx != null) lx.peerTree_parent = y;
+ y.right = rx; if (rx != null) rx.peerTree_parent = y;
+ }
+ else {
+ x.peerTree_parent = py; if (py != null) if (ypl) py.left = x; else py.right = x;
+ x.left = ly; if (ly != null) ly.peerTree_parent = x;
+ x.right = ry; if (ry != null) ry.peerTree_parent = x;
+
+ y.peerTree_parent = px; if (px != null) if (xpl) px.left = y; else px.right = y;
+ y.left = lx; if (lx != null) lx.peerTree_parent = y;
+ y.right = rx; if (rx != null) rx.peerTree_parent = y;
+ }
+
+ boolean c = x.test(Box.BLACK);
+ if (y.test(Box.BLACK)) x.set(Box.BLACK); else x.clear(Box.BLACK);
+ if (c) y.set(Box.BLACK); else y.clear(Box.BLACK);
+
+ if (root == x) root = y;
+ else if (root == y) root = x;
+ return parent.rootChild = root;
+ }
+
+ protected final Box rotateLeft() {
+ Box root = parent.rootChild;
+ Box r = right;
+ right = r.left;
+ if (r.left != null) r.left.peerTree_parent = this;
+ r.peerTree_parent = peerTree_parent;
+ if (peerTree_parent == null) root = r;
+ else if (peerTree_parent.left == this) peerTree_parent.left = r;
+ else peerTree_parent.right = r;
+ r.left = this;
+ peerTree_parent = r;
+ return parent.rootChild = root;
+ }
+
+ protected final Box rotateRight() {
+ Box root = parent.rootChild;
+ Box l = left;
+ left = l.right;
+ if (l.right != null) l.right.peerTree_parent = this;
+ l.peerTree_parent = peerTree_parent;
+ if (peerTree_parent == null) root = l;
+ else if (peerTree_parent.right == this) peerTree_parent.right = l;
+ else peerTree_parent.left = l;
+ l.right = this;
+ peerTree_parent = l;
+ return parent.rootChild;
+ }
+
+ protected final Box fixAfterInsertion() {
+ Box root = parent.rootChild;
+ clear(Box.BLACK);
+ Box x = this;
+
+ while (x != null && x != root && !x.peerTree_parent.test(Box.BLACK)) {
+ if (peerTree_parent(x) == leftOf(peerTree_parent(peerTree_parent(x)))) {
+ Box y = rightOf(peerTree_parent(peerTree_parent(x)));
+ if (colorOf(y) == RED) {
+ setColor(peerTree_parent(x), BLACK);
+ setColor(y, BLACK);
+ setColor(peerTree_parent(peerTree_parent(x)), RED);
+ x = peerTree_parent(peerTree_parent(x));
+ }
+ else {
+ if (x == rightOf(peerTree_parent(x))) {
+ x = peerTree_parent(x);
+ root = x.rotateLeft();
+ }
+ setColor(peerTree_parent(x), BLACK);
+ setColor(peerTree_parent(peerTree_parent(x)), RED);
+ if (peerTree_parent(peerTree_parent(x)) != null)
+ root = peerTree_parent(peerTree_parent(x)).rotateRight();
+ }
+ }
+ else {
+ Box y = leftOf(peerTree_parent(peerTree_parent(x)));
+ if (colorOf(y) == RED) {
+ setColor(peerTree_parent(x), BLACK);
+ setColor(y, BLACK);
+ setColor(peerTree_parent(peerTree_parent(x)), RED);
+ x = peerTree_parent(peerTree_parent(x));
+ }
+ else {
+ if (x == leftOf(peerTree_parent(x))) {
+ x = peerTree_parent(x);
+ root = x.rotateRight();
+ }
+ setColor(peerTree_parent(x), BLACK);
+ setColor(peerTree_parent(peerTree_parent(x)), RED);
+ if (peerTree_parent(peerTree_parent(x)) != null)
+ root = peerTree_parent(peerTree_parent(x)).rotateLeft();
+ }
+ }
+ }
+ root.set(Box.BLACK);
+ return parent.rootChild = root;
+ }
+
+ /** From CLR **/
+ protected final Box fixAfterDeletion() {
+ Box root = peerTree_parent.rootChild;
+ Box x = this;
+ while (x != root && colorOf(x) == BLACK) {
+ if (x == leftOf(peerTree_parent(x))) {
+ Box sib = rightOf(peerTree_parent(x));
+ if (colorOf(sib) == RED) {
+ setColor(sib, BLACK);
+ setColor(peerTree_parent(x), RED);
+ root = peerTree_parent(x).rotateLeft();
+ sib = rightOf(peerTree_parent(x));
+ }
+ if (colorOf(leftOf(sib)) == BLACK && colorOf(rightOf(sib)) == BLACK) {
+ setColor(sib, RED);
+ x = peerTree_parent(x);
+ }
+ else {
+ if (colorOf(rightOf(sib)) == BLACK) {
+ setColor(leftOf(sib), BLACK);
+ setColor(sib, RED);
+ root = sib.rotateRight();
+ sib = rightOf(peerTree_parent(x));
+ }
+ setColor(sib, colorOf(peerTree_parent(x)));
+ setColor(peerTree_parent(x), BLACK);
+ setColor(rightOf(sib), BLACK);
+ root = peerTree_parent(x).rotateLeft();
+ x = root;
+ }
+ }
+ else {
+ Box sib = leftOf(peerTree_parent(x));
+ if (colorOf(sib) == RED) {
+ setColor(sib, BLACK);
+ setColor(peerTree_parent(x), RED);
+ root = peerTree_parent(x).rotateRight();
+ sib = leftOf(peerTree_parent(x));
+ }
+ if (colorOf(rightOf(sib)) == BLACK && colorOf(leftOf(sib)) == BLACK) {
+ setColor(sib, RED);
+ x = peerTree_parent(x);
+ }
+ else {
+ if (colorOf(leftOf(sib)) == BLACK) {
+ setColor(rightOf(sib), BLACK);
+ setColor(sib, RED);
+ root = sib.rotateLeft();
+ sib = leftOf(peerTree_parent(x));
+ }
+ setColor(sib, colorOf(peerTree_parent(x)));
+ setColor(peerTree_parent(x), BLACK);
+ setColor(leftOf(sib), BLACK);
+ root = peerTree_parent(x).rotateRight();
+ x = root;
+ }
+ }
+ }
+ setColor(x, BLACK);
+ return parent.rootChild = root;
+ }
+
+ // Tree Manipulation /////////////////////////////////////////////////////////////////////
+
+ /** remove this node from its parent; INVARIANT: whenever the parent of a node is changed, remove() gets called. */
+ public void remove() {
+ if (parent == null) {
+ Surface surface = Surface.fromBox(this);
+ if (surface != null) surface.dispose(true);
+ return;
+ } else {
+ parent.numchildren--;
+ }
+ Box oldparent = parent;
+ if (oldparent == null) return;
+ MARK_REFLOW;
+ dirty();
+ clear(MOUSEINSIDE);
+ removeNode();
+ parent = null;
+ if (oldparent != null) { Box b = oldparent; MARK_REFLOW_b; }
+ if (oldparent != null) oldparent.putAndInvokeTraps("childremoved", this);
+ }
+
+ /** Returns ith child */
+ public Box getChild(int i) {
+ // FIXME: store numleft and numright in the tree
+ Box left = rootChild;
+ if (left == null) return null;
+ while (left.left != null) left = left.left;
+ for(; i > 0; i--) left = left.nextSibling();
+ return left;
+ }
+
+ /** Returns our index in our parent */
+ public int getIndexInParent() {
+ // FIXME: store numleft and numright in the tree
+ if (peerTree_parent == null) return left == null ? 0 : left.numPeerChildren();
+ else if (peerTree_parent.left == this) return peerTree_parent.getIndexInParent() - 1;
+ else if (peerTree_parent.right == this) return peerTree_parent.getIndexInParent() + 1;
+ else throw new Error("we're not a child of our parent!");
+ }
+
+ public int numPeerChildren() {
+ return (left == null ? 0 : left.numPeerChildren() + 1) + (right == null ? 0 : right.numPeerChildren() + 1);
+ }
+
+ /** returns the root of the surface that this box belongs to */
+ public final Box getRoot() {
+ if (parent == null && Surface.fromBox(this) != null) return this;
+ if (parent == null) return null;
+ return parent.getRoot();
+ }
+
+ public void put(int i, Object value) {
+ if (i < 0) return;
+
+ if (value != null && !(value instanceof Box)) {
+ if (Log.on) Log.logJS(this, "attempt to set a numerical property on a box to a non-box");
+ return;
+ }
+
+ if (redirect == null) {
+ if (value == null) putAndTriggerTraps("childremoved", getChild(i));
+ else Log.logJS(this, "attempt to add/remove children to/from a node with a null redirect");
+
+ } else if (redirect != this) {
+ if (value != null) putAndTriggerTraps("childadded", b);
+ redirect.put(i, value);
+ if (value == null) {
+ Box b = (Box)redirect.get(new Integer(i)) : (Box)value;
+ if (b != null) putAndTriggerTraps("childremoved", b);
+ }
+
+ } else if (value == null) {
+ if (i < 0 || i > numChildren()) return;
+ Box b = getChild(i);
+ b.remove();
+ putAndTriggerTraps("childremoved", b);
+
+ } else {
+ Box b = (Box)value;
+
+ // check if box being moved is currently target of a redirect
+ for(Box cur = b.parent; cur != null; cur = cur.parent)
+ if (cur.redirect == b) {
+ if (Log.on) Log.logJS(this, "attempt to move a box that is the target of a redirect");
+ return;
+ }
+
+ // check for recursive ancestor violation
+ for(Box cur = this; cur != null; cur = cur.parent)
+ if (cur == b) {
+ if (Log.on) Log.logJS(this, "attempt to make a node a parent of its own ancestor");
+ if (Log.on) Log.log(this, "box == " + this + " ancestor == " + b);
+ return;
+ }
+
+ b.remove();
+ b.parent = this;
+ numchildren++;
+
+ Box before = getChild(i);
+ if (before == null) root.peerTree_rightmost().insertAfterMe(b);
+ else before.insertBeforeMe(b);
+
+ // need both of these in case child was already uncalc'ed
+ MARK_REFLOW_b;
+ MARK_REFLOW;
+
+ b.dirty();
+ putAndTriggerTraps("childadded", b);
+ }
+ }
+}
public class Font {
+ private Font(Res res, int pointsize) { this.res = res; this.pointsize = pointsize; }
+
public final int pointsize;
public final Res res;
public int max_ascent;
public int max_descent;
- public Glyph[] glyphs = new Glyph[65535];
- boolean used = false;
+ boolean latinCharsPreloaded = false; ///< true if a request to preload ASCII 32-127 has begun
+ Glyph[] glyphs = new Glyph[65535];
- private Font(Res res, int pointsize) {
- this.res = res;
- this.pointsize = pointsize;
+ public static class Glyph {
+ public Glyph(char c, Font f) { this.c = c; font = f; }
+ public char c;
+ public int baseline; // within the picture, this is the y-coordinate of the baseline
+ public int advance; // amount to increment the x-coordinate
+ public Picture p;
+ public final Font font;
}
- private static Cache fontCache = new Cache();
+
+ // Statics //////////////////////////////////////////////////////////////////////
+
+ private static final Freetype freetype = new Freetype();
+ private static Cache sizeCache = new Cache(100);
+ static final Queue glyphsToBeRendered = new Queue(255);
+ private static Cache fontCache = new Cache(100);
public static Font getFont(Res res, int pointsize) {
Font ret = (Font)fontCache.get(res, new Integer(pointsize));
if (ret == null) fontCache.put(res, new Integer(pointsize), ret = new Font(res, pointsize));
return ret;
}
+
+ // Methods //////////////////////////////////////////////////////////////////////
+
/**
* If the glyphs of <code>text</code> are not yet loaded, spawn a
* Task to load them and invoke callback.
for(int i=0; i<text.length(); i++) {
final char c = text.charAt(i);
Glyph g = glyphs[c];
- if (g == null) glyphsToBeRendered.prepend(g = new Glyph(c));
+ if (g == null) glyphsToBeRendered.prepend(g = new Glyph(c, this)); // prepend so they are high priority
if (g.p == null) {
glyphsToBeRendered.prepend(g);
encounteredUnrenderedGlyph = true;
} else if (!encounteredUnrenderedGlyph) {
if (pb != null && g.p != null)
- pb.drawPictureAlphaOnly(g.p, x + width, y + g.font.max_ascent - g.baseline,
- cx1, cy1, cx2, cy2, textcolor);
+ pb.drawPictureAlphaOnly(g.p, x + width, y + g.font.max_ascent - g.baseline, cx1, cy1, cx2, cy2, textcolor);
width += g.advance;
height = java.lang.Math.max(height, max_ascent + max_descent);
}
}
- // FIXME: be cleaner here
- if (encounteredUnrenderedGlyph) Scheduler.add(new Scheduler.Task() { public void perform() {
+ if (encounteredUnrenderedGlyph && callback != null) Scheduler.add(new Scheduler.Task() { public void perform() {
for(int i=0; i<text.length(); i++) {
Glyph g = glyphs[text.charAt(i)];
if (g == null || g.p == null) { Scheduler.add(this); return; }
callback.perform();
}});
- if (!used) for(int i=32; i<128; i++) glyphsToBeRendered.append(glyphs[i] = new Glyph((char)i));
- if (!used || encounteredUnrenderedGlyph) { System.out.println("foo!"); Scheduler.add(glyphRenderingTask); }
- used = true;
- return ((long)width << 16) | (long)height;
+ if (!latinCharsPreloaded) for(int i=32; i<128; i++) glyphsToBeRendered.append(glyphs[i] = new Glyph((char)i, this));
+ if (!latinCharsPreloaded || encounteredUnrenderedGlyph) Scheduler.add(glyphRenderingTask);
+ latinCharsPreloaded = true;
+ return encounteredUnrenderedGlyph ? -1 : (((long)width << 16) | (long)height);
}
-
- public class Glyph {
- public char c;
- public int baseline; // within the picture, this is the y-coordinate of the baseline
- public int advance; // amount to increment the x-coordinate
- public Picture p;
- public final Font font;
- public Glyph(char c) { this.c = c; font = Font.this; }
+ public int textwidth(String s) { return (int)(textsize(s) >>> 16L); }
+ public int textheight(String s) { return (int)(textsize(s) & 0xffffffffL); }
+ public long textsize(String s) {
+ Long l = (Long)sizeCache.get(s);
+ if (l != null) return ((Long)l).longValue();
+ long ret = rasterizeGlyphs(s, null, 0, 0, 0, 0, 0, 0, 0, null);
+ if (ret != -1) sizeCache.put(s, new Long(ret));
+ return ret == -1 ? 0 : ret;
}
- private static final Freetype freetype = new Freetype();
- static final Queue glyphsToBeRendered = new Queue(255);
static final Scheduler.Task glyphRenderingTask = new Scheduler.Task() { public void perform() {
Glyph g = (Glyph)glyphsToBeRendered.remove(false);
if (g == null) return;
if (g.p != null) { perform(); return; }
Log.log(Glyph.class, "rendering glyph " + g.c);
- try {
- freetype.renderGlyph(g);
- } catch (IOException e) {
- Log.log(Freetype.class, e);
- }
+ try { freetype.renderGlyph(g); } catch (IOException e) { Log.log(Freetype.class, e); }
Scheduler.add(this);
} };
}
}
/** executes the PAC script and dispatches a call to one of the other attempt methods based on the result */
- public Socket attemptPAC(org.xwt.js.JS.Callable pacFunc) {
+ public Socket attemptPAC(org.xwt.js.JSCallable pacFunc) {
if (Log.verbose) Log.log(this, "evaluating PAC script");
String pac = null;
try {
- org.xwt.js.JS.Array args = new org.xwt.js.JS.Array();
+ org.xwt.js.JSArray args = new org.xwt.js.JSArray();
args.addElement(url.toString());
args.addElement(url.getHost());
- /* FIXME
Object obj = pacFunc.call(args);
if (Log.verbose) Log.log(this, " PAC script returned \"" + obj + "\"");
pac = obj.toString();
- */
} catch (Throwable e) {
if (Log.on) Log.log(this, "PAC script threw exception " + e);
return null;
OUTER: do {
if (pi != null) {
for(int i=0; i<pi.excluded.length; i++) if (host.equals(pi.excluded[i])) break OUTER;
- if (sock == null && pi.proxyAutoConfigFunction != null) sock = attemptPAC(pi.proxyAutoConfigFunction);
+ if (sock == null && pi.proxyAutoConfigJSFunction != null) sock = attemptPAC(pi.proxyAutoConfigJSFunction);
if (sock == null && ssl && pi.httpsProxyHost != null) sock = attemptHttpProxy(pi.httpsProxyHost, pi.httpsProxyPort);
if (sock == null && pi.httpProxyHost != null) sock = attemptHttpProxy(pi.httpProxyHost, pi.httpProxyPort);
if (sock == null && pi.socksProxyHost != null) sock = attemptSocksProxy(pi.socksProxyHost, pi.socksProxyPort);
if (i+3<type2.length) log += Integer.toString(type2[i+3] & 0xff, 16) + " ";
Log.log(this, log);
}
- // FIXME: need to keep the connection open between type1 and type3
- // FIXME: finish this
+ // FEATURE: need to keep the connection open between type1 and type3
+ // FEATURE: finish this
//byte[] type3 = Proxy.NTLM.getResponse(
//Proxy.Authorization.authorization2 = "NTLM " + Base64.encode(type3));
}
public String[] excluded = null;
/** the PAC script */
- public JS.Callable proxyAutoConfigFunction = null;
+ public JSCallable proxyAutoConfigJSFunction = null;
public static Proxy detectProxyViaManual() {
Proxy ret = new Proxy();
return ret;
}
- public static JS.Scope proxyAutoConfigRootScope = new ProxyAutoConfigRootScope();
- public static JS.Callable getProxyAutoConfigFunction(String url) {
+ public static JSScope proxyAutoConfigRootJSScope = new ProxyAutoConfigRootJSScope();
+ public static JSCallable getProxyAutoConfigJSFunction(String url) {
try {
BufferedReader br = new BufferedReader(new InputStreamReader(new HTTP(url, true).GET()));
String s = null;
if (Log.on) Log.log(Proxy.class, script);
}
- Function scr = JS.parse("PAC script at " + url, 0, new StringReader(script));
- // FIXME
- /*
- scr.call(new JS.Array(), proxyAutoConfigRootScope);
- */
- return (JS.Callable)proxyAutoConfigRootScope.get("FindProxyForURL");
+ JSFunction scr = JS.parse("PAC script at " + url, 0, new StringReader(script));
+ scr.cloneWithNewJSScope(proxyAutoConfigRootJSScope).call(new JSArray());
+ return (JSCallable)proxyAutoConfigRootJSScope.get("FindProxyForURL");
} catch (Exception e) {
if (Log.on) {
Log.log(Platform.class, "WPAD detection failed due to:");
if (e instanceof JS.Exn) {
try {
- org.xwt.js.JS.Array arr = new org.xwt.js.JS.Array();
+ org.xwt.js.JSArray arr = new org.xwt.js.JSArray();
arr.addElement(((JS.Exn)e).getObject());
} catch (Exception e2) {
Log.log(Platform.class, e);
if (authorization != oldAuth) return;
if (Log.on) Log.log(Authorization.class, "displaying proxy authorization dialog");
/*
- FIXME
Message.Q.add(new Message() {
public void perform() {
Box b = new Box();
}
- // ProxyAutoConfigRootScope ////////////////////////////////////////////////////////////////////
+ // ProxyAutoConfigRootJSScope ////////////////////////////////////////////////////////////////////
- public static class ProxyAutoConfigRootScope extends JS.GlobalScope {
+ public static class ProxyAutoConfigRootJSScope extends JSScope.Global {
- public ProxyAutoConfigRootScope() { super(null); }
+ public ProxyAutoConfigRootJSScope() { super(null); }
public Object get(Object name) {
if (name.equals("isPlainHostName")) return isPlainHostName;
else return super.get(name);
}
- private static final JS.Obj proxyConfigBindings = new JS.Obj();
- private static final JS.Obj ProxyConfig = new JS.Obj() {
+ private static final JSObj proxyConfigBindings = new JSObj();
+ private static final JSObj ProxyConfig = new JSObj() {
public Object get(Object name) {
if (name.equals("bindings")) return proxyConfigBindings;
return null;
}
};
- private static final JS.Callable isPlainHostName = new JS.Callable() {
- public Object call(org.xwt.js.JS.Array args) throws JS.Exn {
+ private static final JSCallable isPlainHostName = new JSCallable() {
+ public Object call(org.xwt.js.JSArray args) throws JS.Exn {
return (args.elementAt(0).toString().indexOf('.') == -1) ? Boolean.TRUE : Boolean.FALSE;
}
};
- private static final JS.Callable dnsDomainIs = new JS.Callable() {
- public Object call(org.xwt.js.JS.Array args) throws JS.Exn {
+ private static final JSCallable dnsDomainIs = new JSCallable() {
+ public Object call(org.xwt.js.JSArray args) throws JS.Exn {
return (args.elementAt(0).toString().endsWith(args.elementAt(1).toString())) ? Boolean.TRUE : Boolean.FALSE;
}
};
- private static final JS.Callable localHostOrDomainIs = new JS.Callable() {
- public Object call(org.xwt.js.JS.Array args) throws JS.Exn {
+ private static final JSCallable localHostOrDomainIs = new JSCallable() {
+ public Object call(org.xwt.js.JSArray args) throws JS.Exn {
return (args.elementAt(0).toString().equals(args.elementAt(1).toString()) ||
(args.elementAt(0).toString().indexOf('.') == -1 && args.elementAt(1).toString().startsWith(args.elementAt(0).toString()))) ?
Boolean.TRUE : Boolean.FALSE;
}
};
- private static final JS.Callable isResolvable = new JS.Callable() {
- public Object call(org.xwt.js.JS.Array args) throws JS.Exn {
+ private static final JSCallable isResolvable = new JSCallable() {
+ public Object call(org.xwt.js.JSArray args) throws JS.Exn {
try {
return (InetAddress.getByName(args.elementAt(0).toString()) != null) ? Boolean.TRUE : Boolean.FALSE;
} catch (UnknownHostException e) {
}
};
- private static final JS.Callable isInNet = new JS.Callable() {
- public Object call(org.xwt.js.JS.Array args) throws JS.Exn {
+ private static final JSCallable isInNet = new JSCallable() {
+ public Object call(org.xwt.js.JSArray args) throws JS.Exn {
if (args.length() != 3) return Boolean.FALSE;
try {
byte[] host = InetAddress.getByName(args.elementAt(0).toString()).getAddress();
}
};
- private static final JS.Callable dnsResolve = new JS.Callable() {
- public Object call(org.xwt.js.JS.Array args) throws JS.Exn {
+ private static final JSCallable dnsResolve = new JSCallable() {
+ public Object call(org.xwt.js.JSArray args) throws JS.Exn {
try {
return InetAddress.getByName(args.elementAt(0).toString()).getHostAddress();
} catch (UnknownHostException e) {
}
};
- private static final JS.Callable myIpAddress = new JS.Callable() {
- public Object call(org.xwt.js.JS.Array args) throws JS.Exn {
+ private static final JSCallable myIpAddress = new JSCallable() {
+ public Object call(org.xwt.js.JSArray args) throws JS.Exn {
try {
return InetAddress.getLocalHost().getHostAddress();
} catch (UnknownHostException e) {
}
};
- private static final JS.Callable dnsDomainLevels = new JS.Callable() {
- public Object call(org.xwt.js.JS.Array args) throws JS.Exn {
+ private static final JSCallable dnsDomainLevels = new JSCallable() {
+ public Object call(org.xwt.js.JSArray args) throws JS.Exn {
String s = args.elementAt(0).toString();
int i = 0;
while((i = s.indexOf('.', i)) != -1) i++;
return false;
}
- private static final JS.Callable shExpMatch = new JS.Callable() {
- public Object call(org.xwt.js.JS.Array args) throws JS.Exn {
+ private static final JSCallable shExpMatch = new JSCallable() {
+ public Object call(org.xwt.js.JSArray args) throws JS.Exn {
StringTokenizer st = new StringTokenizer(args.elementAt(1).toString(), "*", false);
String[] arr = new String[st.countTokens()];
String s = args.elementAt(0).toString();
public static String[] days = { "SUN", "MON", "TUE", "WED", "THU", "FRI", "SAT" };
- private static final JS.Callable weekdayRange = new JS.Callable() {
- public Object call(org.xwt.js.JS.Array args) throws JS.Exn {
+ private static final JSCallable weekdayRange = new JSCallable() {
+ public Object call(org.xwt.js.JSArray args) throws JS.Exn {
TimeZone tz = (args.length() < 3 || args.elementAt(2) == null || !args.elementAt(2).equals("GMT")) ? TimeZone.getTimeZone("UTC") : TimeZone.getDefault();
Calendar c = new GregorianCalendar();
c.setTimeZone(tz);
}
};
- private static final JS.Callable dateRange = new JS.Callable() {
- public Object call(org.xwt.js.JS.Array args) throws JS.Exn {
+ private static final JSCallable dateRange = new JSCallable() {
+ public Object call(org.xwt.js.JSArray args) throws JS.Exn {
throw new JS.Exn("XWT does not support dateRange() in PAC scripts");
}
};
- private static final JS.Callable timeRange = new JS.Callable() {
- public Object call(org.xwt.js.JS.Array args) throws JS.Exn {
+ private static final JSCallable timeRange = new JSCallable() {
+ public Object call(org.xwt.js.JSArray args) throws JS.Exn {
throw new JS.Exn("XWT does not support timeRange() in PAC scripts");
}
};
System.arraycopy(highHash, 0, lmHash, 8, 8);
return lmHash;
*/
- return null; // FIXME
+ return null;
}
/**
System.arraycopy(highResponse, 0, lmResponse, 16, 8);
return lmResponse;
*/
- return null; // FIXME
+ return null;
}
/**
public Object call(Object arg) {
scarImage = (Picture)arg;
Scheduler.add(new Scheduler.Task() { public void perform() {
- Template.getTemplate(((Res)final_rr.get(initialTemplate))).apply(new Box(), null, xwt);
+ Template.getTemplate(((Res)final_rr.get(initialTemplate))).apply(new BoxTree(), xwt);
} });
return null;
} });