/* Copyright (c) 2004-2008, The Dojo Foundation All Rights Reserved. Available via Academic Free License >= 2.1 OR the modified BSD license. see: http://dojotoolkit.org/license for details */ /* This is a compiled version of Dojo, built for deployment and not for development. To get an editable version, please visit: http://dojotoolkit.org for documentation and information on getting the source. */ /* Copyright (c) 2004-2008, The Dojo Foundation All Rights Reserved. Available via Academic Free License >= 2.1 OR the modified BSD license. see: http://dojotoolkit.org/license for details */ /* This is a compiled version of Dojo, built for deployment and not for development. To get an editable version, please visit: http://dojotoolkit.org for documentation and information on getting the source. */ if(!dojo._hasResource["dojo.fx"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code. dojo._hasResource["dojo.fx"] = true; dojo.provide("dojo.fx"); dojo.provide("dojo.fx.Toggler"); /*===== dojo.fx = { // summary: Effects library on top of Base animations }; =====*/ (function(){ var _baseObj = { _fire: function(evt, args){ if(this[evt]){ this[evt].apply(this, args||[]); } return this; } }; var _chain = function(animations){ this._index = -1; this._animations = animations||[]; this._current = this._onAnimateCtx = this._onEndCtx = null; this.duration = 0; dojo.forEach(this._animations, function(a){ this.duration += a.duration; if(a.delay){ this.duration += a.delay; } }, this); }; dojo.extend(_chain, { _onAnimate: function(){ this._fire("onAnimate", arguments); }, _onEnd: function(){ dojo.disconnect(this._onAnimateCtx); dojo.disconnect(this._onEndCtx); this._onAnimateCtx = this._onEndCtx = null; if(this._index + 1 == this._animations.length){ this._fire("onEnd"); }else{ // switch animations this._current = this._animations[++this._index]; this._onAnimateCtx = dojo.connect(this._current, "onAnimate", this, "_onAnimate"); this._onEndCtx = dojo.connect(this._current, "onEnd", this, "_onEnd"); this._current.play(0, true); } }, play: function(/*int?*/ delay, /*Boolean?*/ gotoStart){ if(!this._current){ this._current = this._animations[this._index = 0]; } if(!gotoStart && this._current.status() == "playing"){ return this; } var beforeBegin = dojo.connect(this._current, "beforeBegin", this, function(){ this._fire("beforeBegin"); }), onBegin = dojo.connect(this._current, "onBegin", this, function(arg){ this._fire("onBegin", arguments); }), onPlay = dojo.connect(this._current, "onPlay", this, function(arg){ this._fire("onPlay", arguments); dojo.disconnect(beforeBegin); dojo.disconnect(onBegin); dojo.disconnect(onPlay); }); if(this._onAnimateCtx){ dojo.disconnect(this._onAnimateCtx); } this._onAnimateCtx = dojo.connect(this._current, "onAnimate", this, "_onAnimate"); if(this._onEndCtx){ dojo.disconnect(this._onEndCtx); } this._onEndCtx = dojo.connect(this._current, "onEnd", this, "_onEnd"); this._current.play.apply(this._current, arguments); return this; }, pause: function(){ if(this._current){ var e = dojo.connect(this._current, "onPause", this, function(arg){ this._fire("onPause", arguments); dojo.disconnect(e); }); this._current.pause(); } return this; }, gotoPercent: function(/*Decimal*/percent, /*Boolean?*/ andPlay){ this.pause(); var offset = this.duration * percent; this._current = null; dojo.some(this._animations, function(a){ if(a.duration <= offset){ this._current = a; return true; } offset -= a.duration; return false; }); if(this._current){ this._current.gotoPercent(offset / this._current.duration, andPlay); } return this; }, stop: function(/*boolean?*/ gotoEnd){ if(this._current){ if(gotoEnd){ for(; this._index + 1 < this._animations.length; ++this._index){ this._animations[this._index].stop(true); } this._current = this._animations[this._index]; } var e = dojo.connect(this._current, "onStop", this, function(arg){ this._fire("onStop", arguments); dojo.disconnect(e); }); this._current.stop(); } return this; }, status: function(){ return this._current ? this._current.status() : "stopped"; }, destroy: function(){ if(this._onAnimateCtx){ dojo.disconnect(this._onAnimateCtx); } if(this._onEndCtx){ dojo.disconnect(this._onEndCtx); } } }); dojo.extend(_chain, _baseObj); dojo.fx.chain = function(/*dojo._Animation[]*/ animations){ // summary: Chain a list of dojo._Animation s to run in sequence // example: // | dojo.fx.chain([ // | dojo.fadeIn({ node:node }), // | dojo.fadeOut({ node:otherNode }) // | ]).play(); // return new _chain(animations) // dojo._Animation }; var _combine = function(animations){ this._animations = animations||[]; this._connects = []; this._finished = 0; this.duration = 0; dojo.forEach(animations, function(a){ var duration = a.duration; if(a.delay){ duration += a.delay; } if(this.duration < duration){ this.duration = duration; } this._connects.push(dojo.connect(a, "onEnd", this, "_onEnd")); }, this); this._pseudoAnimation = new dojo._Animation({curve: [0, 1], duration: this.duration}); dojo.forEach(["beforeBegin", "onBegin", "onPlay", "onAnimate", "onPause", "onStop"], function(evt){ this._connects.push(dojo.connect(this._pseudoAnimation, evt, dojo.hitch(this, "_fire", evt))); }, this ); }; dojo.extend(_combine, { _doAction: function(action, args){ dojo.forEach(this._animations, function(a){ a[action].apply(a, args); }); return this; }, _onEnd: function(){ if(++this._finished == this._animations.length){ this._fire("onEnd"); } }, _call: function(action, args){ var t = this._pseudoAnimation; t[action].apply(t, args); }, play: function(/*int?*/ delay, /*Boolean?*/ gotoStart){ this._finished = 0; this._doAction("play", arguments); this._call("play", arguments); return this; }, pause: function(){ this._doAction("pause", arguments); this._call("pause", arguments); return this; }, gotoPercent: function(/*Decimal*/percent, /*Boolean?*/ andPlay){ var ms = this.duration * percent; dojo.forEach(this._animations, function(a){ a.gotoPercent(a.duration < ms ? 1 : (ms / a.duration), andPlay); }); this._call("gotoPercent", arguments); return this; }, stop: function(/*boolean?*/ gotoEnd){ this._doAction("stop", arguments); this._call("stop", arguments); return this; }, status: function(){ return this._pseudoAnimation.status(); }, destroy: function(){ dojo.forEach(this._connects, dojo.disconnect); } }); dojo.extend(_combine, _baseObj); dojo.fx.combine = function(/*dojo._Animation[]*/ animations){ // summary: Combine a list of dojo._Animation s to run in parallel // example: // | dojo.fx.combine([ // | dojo.fadeIn({ node:node }), // | dojo.fadeOut({ node:otherNode }) // | ]).play(); return new _combine(animations); // dojo._Animation }; })(); dojo.declare("dojo.fx.Toggler", null, { // summary: // class constructor for an animation toggler. It accepts a packed // set of arguments about what type of animation to use in each // direction, duration, etc. // // example: // | var t = new dojo.fx.Toggler({ // | node: "nodeId", // | showDuration: 500, // | // hideDuration will default to "200" // | showFunc: dojo.wipeIn, // | // hideFunc will default to "fadeOut" // | }); // | t.show(100); // delay showing for 100ms // | // ...time passes... // | t.hide(); // FIXME: need a policy for where the toggler should "be" the next // time show/hide are called if we're stopped somewhere in the // middle. constructor: function(args){ var _t = this; dojo.mixin(_t, args); _t.node = args.node; _t._showArgs = dojo.mixin({}, args); _t._showArgs.node = _t.node; _t._showArgs.duration = _t.showDuration; _t.showAnim = _t.showFunc(_t._showArgs); _t._hideArgs = dojo.mixin({}, args); _t._hideArgs.node = _t.node; _t._hideArgs.duration = _t.hideDuration; _t.hideAnim = _t.hideFunc(_t._hideArgs); dojo.connect(_t.showAnim, "beforeBegin", dojo.hitch(_t.hideAnim, "stop", true)); dojo.connect(_t.hideAnim, "beforeBegin", dojo.hitch(_t.showAnim, "stop", true)); }, // node: DomNode // the node to toggle node: null, // showFunc: Function // The function that returns the dojo._Animation to show the node showFunc: dojo.fadeIn, // hideFunc: Function // The function that returns the dojo._Animation to hide the node hideFunc: dojo.fadeOut, // showDuration: // Time in milliseconds to run the show Animation showDuration: 200, // hideDuration: // Time in milliseconds to run the hide Animation hideDuration: 200, /*===== _showArgs: null, _showAnim: null, _hideArgs: null, _hideAnim: null, _isShowing: false, _isHiding: false, =====*/ show: function(delay){ // summary: Toggle the node to showing return this.showAnim.play(delay || 0); }, hide: function(delay){ // summary: Toggle the node to hidden return this.hideAnim.play(delay || 0); } }); dojo.fx.wipeIn = function(/*Object*/ args){ // summary // Returns an animation that will expand the // node defined in 'args' object from it's current height to // it's natural height (with no scrollbar). // Node must have no margin/border/padding. args.node = dojo.byId(args.node); var node = args.node, s = node.style, o; var anim = dojo.animateProperty(dojo.mixin({ properties: { height: { // wrapped in functions so we wait till the last second to query (in case value has changed) start: function(){ // start at current [computed] height, but use 1px rather than 0 // because 0 causes IE to display the whole panel o = s.overflow; s.overflow="hidden"; if(s.visibility=="hidden"||s.display=="none"){ s.height="1px"; s.display=""; s.visibility=""; return 1; }else{ var height = dojo.style(node, "height"); return Math.max(height, 1); } }, end: function(){ return node.scrollHeight; } } } }, args)); dojo.connect(anim, "onEnd", function(){ s.height = "auto"; s.overflow = o; }); return anim; // dojo._Animation } dojo.fx.wipeOut = function(/*Object*/ args){ // summary // Returns an animation that will shrink node defined in "args" // from it's current height to 1px, and then hide it. var node = args.node = dojo.byId(args.node); var s = node.style; var o; var anim = dojo.animateProperty(dojo.mixin({ properties: { height: { end: 1 // 0 causes IE to display the whole panel } } }, args)); dojo.connect(anim, "beforeBegin", function(){ o = s.overflow; s.overflow = "hidden"; s.display = ""; }); dojo.connect(anim, "onEnd", function(){ s.overflow = o; s.height = "auto"; s.display = "none"; }); return anim; // dojo._Animation } dojo.fx.slideTo = function(/*Object?*/ args){ // summary // Returns an animation that will slide "node" // defined in args Object from its current position to // the position defined by (args.left, args.top). // example: // | dojo.fx.slideTo({ node: node, left:"40", top:"50", unit:"px" }).play() var node = (args.node = dojo.byId(args.node)); var top = null; var left = null; var init = (function(n){ return function(){ var cs = dojo.getComputedStyle(n); var pos = cs.position; top = (pos == 'absolute' ? n.offsetTop : parseInt(cs.top) || 0); left = (pos == 'absolute' ? n.offsetLeft : parseInt(cs.left) || 0); if(pos != 'absolute' && pos != 'relative'){ var ret = dojo.coords(n, true); top = ret.y; left = ret.x; n.style.position="absolute"; n.style.top=top+"px"; n.style.left=left+"px"; } }; })(node); init(); var anim = dojo.animateProperty(dojo.mixin({ properties: { top: { end: args.top||0 }, left: { end: args.left||0 } } }, args)); dojo.connect(anim, "beforeBegin", anim, init); return anim; // dojo._Animation } } if(!dojo._hasResource["dojox.fx._base"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code. dojo._hasResource["dojox.fx._base"] = true; dojo.provide("dojox.fx._base"); // summary: Experimental and extended Animations beyond Dojo Core / Base functionality. // Provides advanced Lines, Animations, and convenience aliases. dojo.mixin(dojox.fx, { // anim: Function // Alias of dojo.anim - the shorthand dojo.animateProperty with auto-play anim: dojo.anim, // animateProperty: Function // Alias of dojo.animateProperty - animate any CSS property animateProperty: dojo.animateProperty, // fadeTo: Function // Fade an element from an opacity to an opacity. // Omit start: property to detect. End: property required fadeTo: dojo._fade, // fadeIn: Function // Alias of dojo.fadeIn - Fade a node in. fadeIn: dojo.fadeIn, // fadeOut: Function // Alias of dojo.fadeOut - Fades a node out. fadeOut: dojo.fadeOut, // combine: Function // Alias of dojo.fx.combine - Run animations in parallel combine: dojo.fx.combine, // chain: Function // Alias of dojo.fx.chain - Run animations in sequence chain: dojo.fx.chain, // slideTo: Function // Alias of dojo.fx.slideTo - Slide a node to a defined top/left coordinate slideTo: dojo.fx.slideTo, // wipeIn: Function // Alias of dojo.fx.wipeIn - Wipe a node to visible wipeIn: dojo.fx.wipeIn, // wipeOut: Function // Alias of dojo.fx.wipeOut - Wipe a node to non-visible wipeOut: dojo.fx.wipeOut }); dojox.fx.sizeTo = function(/* Object */args){ // summary: Creates an animation that will size a node // description: // Returns an animation that will size the target node // defined in args Object about it's center to // a width and height defined by (args.width, args.height), // supporting an optional method: chain||combine mixin // (defaults to chain). // // - works best on absolutely or relatively positioned elements // // example: // | // size #myNode to 400px x 200px over 1 second // | dojo.fx.sizeTo({ // | node:'myNode', // | duration: 1000, // | width: 400, // | height: 200, // | method: "combine" // | }).play(); // var node = args.node = dojo.byId(args.node); var method = args.method || "chain"; if(!args.duration){ args.duration = 500; } // default duration needed if(method == "chain"){ args.duration = Math.floor(args.duration / 2); } var top, newTop, left, newLeft, width, height = null; var init = (function(n){ return function(){ var cs = dojo.getComputedStyle(n); var pos = cs.position; top = (pos == 'absolute' ? n.offsetTop : parseInt(cs.top) || 0); left = (pos == 'absolute' ? n.offsetLeft : parseInt(cs.left) || 0); width = parseInt(cs.width); height = parseInt(cs.height); newLeft = left - Math.floor((args.width - width) / 2); newTop = top - Math.floor((args.height - height) / 2); if(pos != 'absolute' && pos != 'relative'){ var ret = dojo.coords(n, true); top = ret.y; left = ret.x; n.style.position = "absolute"; n.style.top = top + "px"; n.style.left = left + "px"; } } })(node); init(); var anim1 = dojo.animateProperty(dojo.mixin({ properties: { height: { start: height, end: args.height || 0, unit:"px" }, top: { start: top, end: newTop } } }, args)); var anim2 = dojo.animateProperty(dojo.mixin({ properties: { width: { start: width, end: args.width || 0, unit:"px" }, left: { start: left, end: newLeft } } }, args)); var anim = dojo.fx[(args.method == "combine" ? "combine" : "chain")]([anim1, anim2]); dojo.connect(anim, "beforeBegin", anim, init); return anim; // dojo._Animation }; dojox.fx.slideBy = function(/* Object */args){ // summary: Returns an animation to slide a node by a defined offset. // // description: // Returns an animation that will slide a node (args.node) from it's // current position to it's current posision plus the numbers defined // in args.top and args.left. standard dojo.fx mixin's apply. // // example: // | // slide domNode 50px down, and 22px left // | dojox.fx.slideBy({ // | node: domNode, duration:400, // | top: 50, left: -22 // | }).play(); var node = args.node = dojo.byId(args.node); var top = null; var left = null; var init = (function(n){ return function(){ var cs = dojo.getComputedStyle(n); var pos = cs.position; top = (pos == 'absolute' ? n.offsetTop : parseInt(cs.top) || 0); left = (pos == 'absolute' ? n.offsetLeft : parseInt(cs.left) || 0); if(pos != 'absolute' && pos != 'relative'){ var ret = dojo.coords(n, true); top = ret.y; left = ret.x; n.style.position = "absolute"; n.style.top = top + "px"; n.style.left = left + "px"; } } })(node); init(); var _anim = dojo.animateProperty(dojo.mixin({ properties: { // FIXME: is there a way to update the _Line after creation? // null start values allow chaining to work, animateProperty will // determine them for us (except in ie6? -- ugh) top: top + (args.top || 0), left: left + (args.left || 0) } }, args)); dojo.connect(_anim, "beforeBegin", _anim, init); return _anim; // dojo._Animation }; dojox.fx.crossFade = function(/* Object */args){ // summary: Returns an animation cross fading two element simultaneously // // args: // args.nodes: Array - two element array of domNodes, or id's // // all other standard animation args mixins apply. args.node ignored. // if(dojo.isArray(args.nodes)){ // simple check for which node is visible, maybe too simple? var node1 = args.nodes[0] = dojo.byId(args.nodes[0]); var op1 = dojo.style(node1,"opacity"); var node2 = args.nodes[1] = dojo.byId(args.nodes[1]); var op2 = dojo.style(node2, "opacity"); var _anim = dojo.fx.combine([ dojo[(op1 == 0 ? "fadeIn" : "fadeOut")](dojo.mixin({ node: node1 },args)), dojo[(op1 == 0 ? "fadeOut" : "fadeIn")](dojo.mixin({ node: node2 },args)) ]); return _anim; // dojo._Animation }else{ // improper syntax in args, needs Array return false; // Boolean } }; dojox.fx.highlight = function(/*Object*/ args){ // summary: Highlight a node // description: // Returns an animation that sets the node background to args.color // then gradually fades back the original node background color // // example: // dojox.fx.highlight({ node:"foo" }).play(); var node = args.node = dojo.byId(args.node); args.duration = args.duration || 400; // Assign default color light yellow var startColor = args.color || '#ffff99'; var endColor = dojo.style(node, "backgroundColor"); var wasTransparent = (endColor == "transparent" || endColor == "rgba(0, 0, 0, 0)") ? endColor : false; var anim = dojo.animateProperty(dojo.mixin({ properties: { backgroundColor: { start: startColor, end: endColor } } }, args)); if(wasTransparent){ dojo.connect(anim, "onEnd", anim, function(){ node.style.backgroundColor = wasTransparent; }); } return anim; // dojo._Animation }; dojox.fx.wipeTo = function(/*Object*/ args){ // summary: Animate a node wiping to a specific width or height // // description: // Returns an animation that will expand the // node defined in 'args' object from it's current to // the height or width value given by the args object. // // default to height:, so leave height null and specify width: // to wipeTo a width. note: this may be deprecated by a // // Note that the final value should not include // units and should be an integer. Thus a valid args object // would look something like this: // // dojox.fx.wipeTo({ node: "nodeId", height: 200 }).play(); // // Node must have no margin/border/padding, so put another // node inside your target node for additional styling. args.node = dojo.byId(args.node); var node = args.node, s = node.style; var dir = (args.width ? "width" : "height"); var endVal = args[dir]; var props = {}; props[dir] = { // wrapped in functions so we wait till the last second to query (in case value has changed) start: function(){ // start at current [computed] height, but use 1px rather than 0 // because 0 causes IE to display the whole panel s.overflow = "hidden"; if(s.visibility == "hidden" || s.display == "none"){ s[dir] = "1px"; s.display = ""; s.visibility = ""; return 1; }else{ var now = dojo.style(node,dir); return Math.max(now, 1); } }, end: endVal, unit: "px" }; var anim = dojo.animateProperty(dojo.mixin({ properties: props }, args)); return anim; // dojo._Animation }; } if(!dojo._hasResource["dojox.fx"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code. dojo._hasResource["dojox.fx"] = true; dojo.provide("dojox.fx"); } if(!dojo._hasResource["dojo.fx.easing"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code. dojo._hasResource["dojo.fx.easing"] = true; dojo.provide("dojo.fx.easing"); dojo.fx.easing = { // summary: Collection of easing functions to use beyond the default dojo._defaultEasing // // description: // Easing functions are used to manipulate the iteration through // an _Animation's _Line. _Line being the properties of an Animation, // and the easing function progresses through that Line determing // how quickly (or slowly) it should go. Or more accurately: modify // the value of the _Line based on the percentage of animation completed. // // All functions follow a simple naming convention of "ease type" + "when". // If the name of the function ends in Out, the easing described appears // towards the end of the animation. "In" means during the beginning, // and InOut means both ranges of the Animation will applied, both beginning // and end. // // example: // | // | var anim = dojo.fadeOut({ // | node: 'node', // | duration: 2000, // | easing: dojo.fx.easing.quadIn // | }).play(); // linear: function(/* Decimal? */n){ // summary: A linear easing function return n; }, quadIn: function(/* Decimal? */n){ return Math.pow(n, 2); }, quadOut: function(/* Decimal? */n){ return n * (n - 2) * -1; }, quadInOut: function(/* Decimal? */n){ n = n * 2; if(n < 1){ return Math.pow(n, 2) / 2; } return -1 * ((--n) * (n - 2) - 1) / 2; }, cubicIn: function(/* Decimal? */n){ return Math.pow(n, 3); }, cubicOut: function(/* Decimal? */n){ return Math.pow(n - 1, 3) + 1; }, cubicInOut: function(/* Decimal? */n){ n = n * 2; if(n < 1){ return Math.pow(n, 3) / 2; } n -= 2; return (Math.pow(n, 3) + 2) / 2; }, quartIn: function(/* Decimal? */n){ return Math.pow(n, 4); }, quartOut: function(/* Decimal? */n){ return -1 * (Math.pow(n - 1, 4) - 1); }, quartInOut: function(/* Decimal? */n){ n = n * 2; if(n < 1){ return Math.pow(n, 4) / 2; } n -= 2; return -1 / 2 * (Math.pow(n, 4) - 2); }, quintIn: function(/* Decimal? */n){ return Math.pow(n, 5); }, quintOut: function(/* Decimal? */n){ return Math.pow(n - 1, 5) + 1; }, quintInOut: function(/* Decimal? */n){ n = n * 2; if(n < 1){ return Math.pow(n, 5) / 2; }; n -= 2; return (Math.pow(n, 5) + 2) / 2; }, sineIn: function(/* Decimal? */n){ return -1 * Math.cos(n * (Math.PI / 2)) + 1; }, sineOut: function(/* Decimal? */n){ return Math.sin(n * (Math.PI / 2)); }, sineInOut: function(/* Decimal? */n){ return -1 * (Math.cos(Math.PI * n) - 1) / 2; }, expoIn: function(/* Decimal? */n){ return (n == 0) ? 0 : Math.pow(2, 10 * (n - 1)); }, expoOut: function(/* Decimal? */n){ return (n == 1) ? 1 : (-1 * Math.pow(2, -10 * n) + 1); }, expoInOut: function(/* Decimal? */n){ if(n == 0){ return 0; } if(n == 1){ return 1; } n = n * 2; if(n < 1){ return Math.pow(2, 10 * (n - 1)) / 2; } --n; return (-1 * Math.pow(2, -10 * n) + 2) / 2; }, circIn: function(/* Decimal? */n){ return -1 * (Math.sqrt(1 - Math.pow(n, 2)) - 1); }, circOut: function(/* Decimal? */n){ n = n - 1; return Math.sqrt(1 - Math.pow(n, 2)); }, circInOut: function(/* Decimal? */n){ n = n * 2; if(n < 1){ return -1 / 2 * (Math.sqrt(1 - Math.pow(n, 2)) - 1); } n -= 2; return 1 / 2 * (Math.sqrt(1 - Math.pow(n, 2)) + 1); }, backIn: function(/* Decimal? */n){ // summary: An easing function that starts away from the target, and // quickly accelerates towards the end value var s = 1.70158; return Math.pow(n, 2) * ((s + 1) * n - s); }, backOut: function(/* Decimal? */n){ // summary: An easing function that pops past the range briefly, and // slowly comes back. n = n - 1; var s = 1.70158; return Math.pow(n, 2) * ((s + 1) * n + s) + 1; }, backInOut: function(/* Decimal? */n){ // summary: An easing function combining the effects of backIn and backOut var s = 1.70158 * 1.525; n = n * 2; if(n < 1){ return (Math.pow(n, 2) * ((s + 1) * n - s)) / 2; } n-=2; return (Math.pow(n, 2) * ((s + 1) * n + s) + 2) / 2; }, elasticIn: function(/* Decimal? */n){ // summary: An easing function the elastically snaps from the start value if(n == 0 || n == 1){ return n; } var p = .3; var s = p / 4; n = n - 1; return -1 * Math.pow(2, 10 * n) * Math.sin((n - s) * (2 * Math.PI) / p); }, elasticOut: function(/* Decimal? */n){ // summary: An easing function that elasticly snaps around the target value, near the end of the Animation if(n==0 || n == 1){ return n; } var p = .3; var s = p / 4; return Math.pow(2, -10 * n) * Math.sin((n - s) * (2 * Math.PI) / p) + 1; }, elasticInOut: function(/* Decimal? */n){ // summary: An easing function that elasticly snaps around the value, near the beginning and end of the Animation if(n == 0) return 0; n = n * 2; if(n == 2) return 1; var p = .3 * 1.5; var s = p / 4; if(n < 1){ n -= 1; return -.5 * (Math.pow(2, 10 * n) * Math.sin((n - s) * (2 * Math.PI) / p)); } n -= 1; return .5 * (Math.pow(2, -10 * n) * Math.sin((n - s) * (2 * Math.PI) / p)) + 1; }, bounceIn: function(/* Decimal? */n){ // summary: An easing function that "bounces" near the beginning of an Animation return (1 - dojo.fx.easing.bounceOut(1 - n)); // Decimal }, bounceOut: function(/* Decimal? */n){ // summary: An easing function that "bounces" near the end of an Animation var s = 7.5625; var p = 2.75; var l; if(n < (1 / p)){ l = s * Math.pow(n, 2); }else if(n < (2 / p)){ n -= (1.5 / p); l = s * Math.pow(n, 2) + .75; }else if(n < (2.5 / p)){ n -= (2.25 / p); l = s * Math.pow(n, 2) + .9375; }else{ n -= (2.625 / p); l = s * Math.pow(n, 2) + .984375; } return l; }, bounceInOut: function(/* Decimal? */n){ // summary: An easing function that "bounces" at the beginning and end of the Animation if(n < 0.5){ return dojo.fx.easing.bounceIn(n * 2) / 2; } return (dojo.fx.easing.bounceOut(n * 2 - 1) / 2) + 0.5; // Decimal } }; } if(!dojo._hasResource["dojox.fx.easing"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code. dojo._hasResource["dojox.fx.easing"] = true; dojo.provide("dojox.fx.easing"); dojo.deprecated("dojox.fx.easing","Upgraded to Core, use dojo.fx.easing instead","2.0"); /*===== dojo.mixin(dojox.fx,{ // easing: Object // An Alias to `dojo.fx.easing` easing: dojo._DefaultEasing }) =====*/ dojox.fx.easing = dojo.fx.easing; } if(!dojo._hasResource["dojo.dnd.common"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code. dojo._hasResource["dojo.dnd.common"] = true; dojo.provide("dojo.dnd.common"); dojo.dnd._isMac = navigator.appVersion.indexOf("Macintosh") >= 0; dojo.dnd._copyKey = dojo.dnd._isMac ? "metaKey" : "ctrlKey"; dojo.dnd.getCopyKeyState = function(e) { // summary: abstracts away the difference between selection on Mac and PC, // and returns the state of the "copy" key to be pressed. // e: Event: mouse event return e[dojo.dnd._copyKey]; // Boolean }; dojo.dnd._uniqueId = 0; dojo.dnd.getUniqueId = function(){ // summary: returns a unique string for use with any DOM element var id; do{ id = dojo._scopeName + "Unique" + (++dojo.dnd._uniqueId); }while(dojo.byId(id)); return id; }; dojo.dnd._empty = {}; dojo.dnd.isFormElement = function(/*Event*/ e){ // summary: returns true, if user clicked on a form element var t = e.target; if(t.nodeType == 3 /*TEXT_NODE*/){ t = t.parentNode; } return " button textarea input select option ".indexOf(" " + t.tagName.toLowerCase() + " ") >= 0; // Boolean }; } if(!dojo._hasResource["dojo.dnd.autoscroll"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code. dojo._hasResource["dojo.dnd.autoscroll"] = true; dojo.provide("dojo.dnd.autoscroll"); dojo.dnd.getViewport = function(){ // summary: returns a viewport size (visible part of the window) // FIXME: need more docs!! var d = dojo.doc, dd = d.documentElement, w = window, b = dojo.body(); if(dojo.isMozilla){ return {w: dd.clientWidth, h: w.innerHeight}; // Object }else if(!dojo.isOpera && w.innerWidth){ return {w: w.innerWidth, h: w.innerHeight}; // Object }else if (!dojo.isOpera && dd && dd.clientWidth){ return {w: dd.clientWidth, h: dd.clientHeight}; // Object }else if (b.clientWidth){ return {w: b.clientWidth, h: b.clientHeight}; // Object } return null; // Object }; dojo.dnd.V_TRIGGER_AUTOSCROLL = 32; dojo.dnd.H_TRIGGER_AUTOSCROLL = 32; dojo.dnd.V_AUTOSCROLL_VALUE = 16; dojo.dnd.H_AUTOSCROLL_VALUE = 16; dojo.dnd.autoScroll = function(e){ // summary: // a handler for onmousemove event, which scrolls the window, if // necesary // e: Event: // onmousemove event // FIXME: needs more docs! var v = dojo.dnd.getViewport(), dx = 0, dy = 0; if(e.clientX < dojo.dnd.H_TRIGGER_AUTOSCROLL){ dx = -dojo.dnd.H_AUTOSCROLL_VALUE; }else if(e.clientX > v.w - dojo.dnd.H_TRIGGER_AUTOSCROLL){ dx = dojo.dnd.H_AUTOSCROLL_VALUE; } if(e.clientY < dojo.dnd.V_TRIGGER_AUTOSCROLL){ dy = -dojo.dnd.V_AUTOSCROLL_VALUE; }else if(e.clientY > v.h - dojo.dnd.V_TRIGGER_AUTOSCROLL){ dy = dojo.dnd.V_AUTOSCROLL_VALUE; } window.scrollBy(dx, dy); }; dojo.dnd._validNodes = {"div": 1, "p": 1, "td": 1}; dojo.dnd._validOverflow = {"auto": 1, "scroll": 1}; dojo.dnd.autoScrollNodes = function(e){ // summary: // a handler for onmousemove event, which scrolls the first avaialble // Dom element, it falls back to dojo.dnd.autoScroll() // e: Event: // onmousemove event // FIXME: needs more docs! for(var n = e.target; n;){ if(n.nodeType == 1 && (n.tagName.toLowerCase() in dojo.dnd._validNodes)){ var s = dojo.getComputedStyle(n); if(s.overflow.toLowerCase() in dojo.dnd._validOverflow){ var b = dojo._getContentBox(n, s), t = dojo._abs(n, true); //console.debug(b.l, b.t, t.x, t.y, n.scrollLeft, n.scrollTop); var w = Math.min(dojo.dnd.H_TRIGGER_AUTOSCROLL, b.w / 2), h = Math.min(dojo.dnd.V_TRIGGER_AUTOSCROLL, b.h / 2), rx = e.pageX - t.x, ry = e.pageY - t.y, dx = 0, dy = 0; if(dojo.isSafari || dojo.isOpera){ // FIXME: this code should not be here, it should be taken into account // either by the event fixing code, or the dojo._abs() // FIXME: this code doesn't work on Opera 9.5 Beta rx += dojo.body().scrollLeft, ry += dojo.body().scrollTop; } if(rx > 0 && rx < b.w){ if(rx < w){ dx = -w; }else if(rx > b.w - w){ dx = w; } } //console.debug("ry =", ry, "b.h =", b.h, "h =", h); if(ry > 0 && ry < b.h){ if(ry < h){ dy = -h; }else if(ry > b.h - h){ dy = h; } } var oldLeft = n.scrollLeft, oldTop = n.scrollTop; n.scrollLeft = n.scrollLeft + dx; n.scrollTop = n.scrollTop + dy; if(oldLeft != n.scrollLeft || oldTop != n.scrollTop){ return; } } } try{ n = n.parentNode; }catch(x){ n = null; } } dojo.dnd.autoScroll(e); }; } if(!dojo._hasResource["dojo.dnd.Mover"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code. dojo._hasResource["dojo.dnd.Mover"] = true; dojo.provide("dojo.dnd.Mover"); dojo.declare("dojo.dnd.Mover", null, { constructor: function(node, e, host){ // summary: an object, which makes a node follow the mouse, // used as a default mover, and as a base class for custom movers // node: Node: a node (or node's id) to be moved // e: Event: a mouse event, which started the move; // only pageX and pageY properties are used // host: Object?: object which implements the functionality of the move, // and defines proper events (onMoveStart and onMoveStop) this.node = dojo.byId(node); this.marginBox = {l: e.pageX, t: e.pageY}; this.mouseButton = e.button; var h = this.host = host, d = node.ownerDocument, firstEvent = dojo.connect(d, "onmousemove", this, "onFirstMove"); this.events = [ dojo.connect(d, "onmousemove", this, "onMouseMove"), dojo.connect(d, "onmouseup", this, "onMouseUp"), // cancel text selection and text dragging dojo.connect(d, "ondragstart", dojo.stopEvent), dojo.connect(d.body, "onselectstart", dojo.stopEvent), firstEvent ]; // notify that the move has started if(h && h.onMoveStart){ h.onMoveStart(this); } }, // mouse event processors onMouseMove: function(e){ // summary: event processor for onmousemove // e: Event: mouse event dojo.dnd.autoScroll(e); var m = this.marginBox; this.host.onMove(this, {l: m.l + e.pageX, t: m.t + e.pageY}); dojo.stopEvent(e); }, onMouseUp: function(e){ if(dojo.isSafari && dojo.dnd._isMac && this.mouseButton == 2 ? e.button == 0 : this.mouseButton == e.button){ this.destroy(); } dojo.stopEvent(e); }, // utilities onFirstMove: function(){ // summary: makes the node absolute; it is meant to be called only once var s = this.node.style, l, t, h = this.host; switch(s.position){ case "relative": case "absolute": // assume that left and top values are in pixels already l = Math.round(parseFloat(s.left)); t = Math.round(parseFloat(s.top)); break; default: s.position = "absolute"; // enforcing the absolute mode var m = dojo.marginBox(this.node); // event.pageX/pageY (which we used to generate the initial // margin box) includes padding and margin set on the body. // However, setting the node's position to absolute and then // doing dojo.marginBox on it *doesn't* take that additional // space into account - so we need to subtract the combined // padding and margin. We use getComputedStyle and // _getMarginBox/_getContentBox to avoid the extra lookup of // the computed style. var b = dojo.doc.body; var bs = dojo.getComputedStyle(b); var bm = dojo._getMarginBox(b, bs); var bc = dojo._getContentBox(b, bs); l = m.l - (bc.l - bm.l); t = m.t - (bc.t - bm.t); break; } this.marginBox.l = l - this.marginBox.l; this.marginBox.t = t - this.marginBox.t; if(h && h.onFirstMove){ h.onFirstMove(this); } dojo.disconnect(this.events.pop()); }, destroy: function(){ // summary: stops the move, deletes all references, so the object can be garbage-collected dojo.forEach(this.events, dojo.disconnect); // undo global settings var h = this.host; if(h && h.onMoveStop){ h.onMoveStop(this); } // destroy objects this.events = this.node = this.host = null; } }); } if(!dojo._hasResource["dojo.dnd.Moveable"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code. dojo._hasResource["dojo.dnd.Moveable"] = true; dojo.provide("dojo.dnd.Moveable"); dojo.declare("dojo.dnd.Moveable", null, { // object attributes (for markup) handle: "", delay: 0, skip: false, constructor: function(node, params){ // summary: an object, which makes a node moveable // node: Node: a node (or node's id) to be moved // params: Object: an optional object with additional parameters; // following parameters are recognized: // handle: Node: a node (or node's id), which is used as a mouse handle // if omitted, the node itself is used as a handle // delay: Number: delay move by this number of pixels // skip: Boolean: skip move of form elements // mover: Object: a constructor of custom Mover this.node = dojo.byId(node); if(!params){ params = {}; } this.handle = params.handle ? dojo.byId(params.handle) : null; if(!this.handle){ this.handle = this.node; } this.delay = params.delay > 0 ? params.delay : 0; this.skip = params.skip; this.mover = params.mover ? params.mover : dojo.dnd.Mover; this.events = [ dojo.connect(this.handle, "onmousedown", this, "onMouseDown"), // cancel text selection and text dragging dojo.connect(this.handle, "ondragstart", this, "onSelectStart"), dojo.connect(this.handle, "onselectstart", this, "onSelectStart") ]; }, // markup methods markupFactory: function(params, node){ return new dojo.dnd.Moveable(node, params); }, // methods destroy: function(){ // summary: stops watching for possible move, deletes all references, so the object can be garbage-collected dojo.forEach(this.events, dojo.disconnect); this.events = this.node = this.handle = null; }, // mouse event processors onMouseDown: function(e){ // summary: event processor for onmousedown, creates a Mover for the node // e: Event: mouse event if(this.skip && dojo.dnd.isFormElement(e)){ return; } if(this.delay){ this.events.push( dojo.connect(this.handle, "onmousemove", this, "onMouseMove"), dojo.connect(this.handle, "onmouseup", this, "onMouseUp") ); this._lastX = e.pageX; this._lastY = e.pageY; }else{ this.onDragDetected(e); } dojo.stopEvent(e); }, onMouseMove: function(e){ // summary: event processor for onmousemove, used only for delayed drags // e: Event: mouse event if(Math.abs(e.pageX - this._lastX) > this.delay || Math.abs(e.pageY - this._lastY) > this.delay){ this.onMouseUp(e); this.onDragDetected(e); } dojo.stopEvent(e); }, onMouseUp: function(e){ // summary: event processor for onmouseup, used only for delayed drags // e: Event: mouse event for(var i = 0; i < 2; ++i){ dojo.disconnect(this.events.pop()); } dojo.stopEvent(e); }, onSelectStart: function(e){ // summary: event processor for onselectevent and ondragevent // e: Event: mouse event if(!this.skip || !dojo.dnd.isFormElement(e)){ dojo.stopEvent(e); } }, // local events onDragDetected: function(/* Event */ e){ // summary: called when the drag is detected, // responsible for creation of the mover new this.mover(this.node, e, this); }, onMoveStart: function(/* dojo.dnd.Mover */ mover){ // summary: called before every move operation dojo.publish("/dnd/move/start", [mover]); dojo.addClass(dojo.body(), "dojoMove"); dojo.addClass(this.node, "dojoMoveItem"); }, onMoveStop: function(/* dojo.dnd.Mover */ mover){ // summary: called after every move operation dojo.publish("/dnd/move/stop", [mover]); dojo.removeClass(dojo.body(), "dojoMove"); dojo.removeClass(this.node, "dojoMoveItem"); }, onFirstMove: function(/* dojo.dnd.Mover */ mover){ // summary: called during the very first move notification, // can be used to initialize coordinates, can be overwritten. // default implementation does nothing }, onMove: function(/* dojo.dnd.Mover */ mover, /* Object */ leftTop){ // summary: called during every move notification, // should actually move the node, can be overwritten. this.onMoving(mover, leftTop); var s = mover.node.style; s.left = leftTop.l + "px"; s.top = leftTop.t + "px"; this.onMoved(mover, leftTop); }, onMoving: function(/* dojo.dnd.Mover */ mover, /* Object */ leftTop){ // summary: called before every incremental move, // can be overwritten. // default implementation does nothing }, onMoved: function(/* dojo.dnd.Mover */ mover, /* Object */ leftTop){ // summary: called after every incremental move, // can be overwritten. // default implementation does nothing } }); } if(!dojo._hasResource["dojo.dnd.move"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code. dojo._hasResource["dojo.dnd.move"] = true; dojo.provide("dojo.dnd.move"); dojo.declare("dojo.dnd.move.constrainedMoveable", dojo.dnd.Moveable, { // object attributes (for markup) constraints: function(){}, within: false, // markup methods markupFactory: function(params, node){ return new dojo.dnd.move.constrainedMoveable(node, params); }, constructor: function(node, params){ // summary: an object, which makes a node moveable // node: Node: a node (or node's id) to be moved // params: Object: an optional object with additional parameters; // following parameters are recognized: // constraints: Function: a function, which calculates a constraint box, // it is called in a context of the moveable object. // within: Boolean: restrict move within boundaries. // the rest is passed to the base class if(!params){ params = {}; } this.constraints = params.constraints; this.within = params.within; }, onFirstMove: function(/* dojo.dnd.Mover */ mover){ // summary: called during the very first move notification, // can be used to initialize coordinates, can be overwritten. var c = this.constraintBox = this.constraints.call(this, mover); c.r = c.l + c.w; c.b = c.t + c.h; if(this.within){ var mb = dojo.marginBox(mover.node); c.r -= mb.w; c.b -= mb.h; } }, onMove: function(/* dojo.dnd.Mover */ mover, /* Object */ leftTop){ // summary: called during every move notification, // should actually move the node, can be overwritten. var c = this.constraintBox, s = mover.node.style; s.left = (leftTop.l < c.l ? c.l : c.r < leftTop.l ? c.r : leftTop.l) + "px"; s.top = (leftTop.t < c.t ? c.t : c.b < leftTop.t ? c.b : leftTop.t) + "px"; } }); dojo.declare("dojo.dnd.move.boxConstrainedMoveable", dojo.dnd.move.constrainedMoveable, { // object attributes (for markup) box: {}, // markup methods markupFactory: function(params, node){ return new dojo.dnd.move.boxConstrainedMoveable(node, params); }, constructor: function(node, params){ // summary: an object, which makes a node moveable // node: Node: a node (or node's id) to be moved // params: Object: an optional object with additional parameters; // following parameters are recognized: // box: Object: a constraint box // the rest is passed to the base class var box = params && params.box; this.constraints = function(){ return box; }; } }); dojo.declare("dojo.dnd.move.parentConstrainedMoveable", dojo.dnd.move.constrainedMoveable, { // object attributes (for markup) area: "content", // markup methods markupFactory: function(params, node){ return new dojo.dnd.move.parentConstrainedMoveable(node, params); }, constructor: function(node, params){ // summary: an object, which makes a node moveable // node: Node: a node (or node's id) to be moved // params: Object: an optional object with additional parameters; // following parameters are recognized: // area: String: a parent's area to restrict the move, // can be "margin", "border", "padding", or "content". // the rest is passed to the base class var area = params && params.area; this.constraints = function(){ var n = this.node.parentNode, s = dojo.getComputedStyle(n), mb = dojo._getMarginBox(n, s); if(area == "margin"){ return mb; // Object } var t = dojo._getMarginExtents(n, s); mb.l += t.l, mb.t += t.t, mb.w -= t.w, mb.h -= t.h; if(area == "border"){ return mb; // Object } t = dojo._getBorderExtents(n, s); mb.l += t.l, mb.t += t.t, mb.w -= t.w, mb.h -= t.h; if(area == "padding"){ return mb; // Object } t = dojo._getPadExtents(n, s); mb.l += t.l, mb.t += t.t, mb.w -= t.w, mb.h -= t.h; return mb; // Object }; } }); // WARNING: below are obsolete objects, instead of custom movers use custom moveables (above) dojo.dnd.move.constrainedMover = function(fun, within){ // summary: returns a constrained version of dojo.dnd.Mover // description: this function produces n object, which will put a constraint on // the margin box of dragged object in absolute coordinates // fun: Function: called on drag, and returns a constraint box // within: Boolean: if true, constraints the whole dragged object withtin the rectangle, // otherwise the constraint is applied to the left-top corner dojo.deprecated("dojo.dnd.move.constrainedMover, use dojo.dnd.move.constrainedMoveable instead"); var mover = function(node, e, notifier){ dojo.dnd.Mover.call(this, node, e, notifier); }; dojo.extend(mover, dojo.dnd.Mover.prototype); dojo.extend(mover, { onMouseMove: function(e){ // summary: event processor for onmousemove // e: Event: mouse event dojo.dnd.autoScroll(e); var m = this.marginBox, c = this.constraintBox, l = m.l + e.pageX, t = m.t + e.pageY; l = l < c.l ? c.l : c.r < l ? c.r : l; t = t < c.t ? c.t : c.b < t ? c.b : t; this.host.onMove(this, {l: l, t: t}); }, onFirstMove: function(){ // summary: called once to initialize things; it is meant to be called only once dojo.dnd.Mover.prototype.onFirstMove.call(this); var c = this.constraintBox = fun.call(this); c.r = c.l + c.w; c.b = c.t + c.h; if(within){ var mb = dojo.marginBox(this.node); c.r -= mb.w; c.b -= mb.h; } } }); return mover; // Object }; dojo.dnd.move.boxConstrainedMover = function(box, within){ // summary: a specialization of dojo.dnd.constrainedMover, which constrains to the specified box // box: Object: a constraint box (l, t, w, h) // within: Boolean: if true, constraints the whole dragged object withtin the rectangle, // otherwise the constraint is applied to the left-top corner dojo.deprecated("dojo.dnd.move.boxConstrainedMover, use dojo.dnd.move.boxConstrainedMoveable instead"); return dojo.dnd.move.constrainedMover(function(){ return box; }, within); // Object }; dojo.dnd.move.parentConstrainedMover = function(area, within){ // summary: a specialization of dojo.dnd.constrainedMover, which constrains to the parent node // area: String: "margin" to constrain within the parent's margin box, "border" for the border box, // "padding" for the padding box, and "content" for the content box; "content" is the default value. // within: Boolean: if true, constraints the whole dragged object withtin the rectangle, // otherwise the constraint is applied to the left-top corner dojo.deprecated("dojo.dnd.move.parentConstrainedMover, use dojo.dnd.move.parentConstrainedMoveable instead"); var fun = function(){ var n = this.node.parentNode, s = dojo.getComputedStyle(n), mb = dojo._getMarginBox(n, s); if(area == "margin"){ return mb; // Object } var t = dojo._getMarginExtents(n, s); mb.l += t.l, mb.t += t.t, mb.w -= t.w, mb.h -= t.h; if(area == "border"){ return mb; // Object } t = dojo._getBorderExtents(n, s); mb.l += t.l, mb.t += t.t, mb.w -= t.w, mb.h -= t.h; if(area == "padding"){ return mb; // Object } t = dojo._getPadExtents(n, s); mb.l += t.l, mb.t += t.t, mb.w -= t.w, mb.h -= t.h; return mb; // Object }; return dojo.dnd.move.constrainedMover(fun, within); // Object }; // patching functions one level up for compatibility dojo.dnd.constrainedMover = dojo.dnd.move.constrainedMover; dojo.dnd.boxConstrainedMover = dojo.dnd.move.boxConstrainedMover; dojo.dnd.parentConstrainedMover = dojo.dnd.move.parentConstrainedMover; } if(!dojo._hasResource["dojo.dnd.TimedMoveable"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code. dojo._hasResource["dojo.dnd.TimedMoveable"] = true; dojo.provide("dojo.dnd.TimedMoveable"); (function(){ // precalculate long expressions var oldOnMove = dojo.dnd.Moveable.prototype.onMove; dojo.declare("dojo.dnd.TimedMoveable", dojo.dnd.Moveable, { // summary: // A specialized version of Moveable to support an FPS throttling. // This class puts an upper restriction on FPS, which may reduce // the CPU load. The additional parameter "timeout" regulates // the delay before actually moving the moveable object. // object attributes (for markup) timeout: 40, // in ms, 40ms corresponds to 25 fps constructor: function(node, params){ // summary: an object, which makes a node moveable with a timer // node: Node: a node (or node's id) to be moved // params: Object: an optional object with additional parameters. // See dojo.dnd.Moveable for details on general parameters. // Following parameters are specific for this class: // timeout: Number: delay move by this number of ms // accumulating position changes during the timeout // sanitize parameters if(!params){ params = {}; } if(params.timeout && typeof params.timeout == "number" && params.timeout >= 0){ this.timeout = params.timeout; } }, // markup methods markupFactory: function(params, node){ return new dojo.dnd.TimedMoveable(node, params); }, onMoveStop: function(/* dojo.dnd.Mover */ mover){ if(mover._timer){ // stop timer clearTimeout(mover._timer) // reflect the last received position oldOnMove.call(this, mover, mover._leftTop) } dojo.dnd.Moveable.prototype.onMoveStop.apply(this, arguments); }, onMove: function(/* dojo.dnd.Mover */ mover, /* Object */ leftTop){ mover._leftTop = leftTop; if(!mover._timer){ var _t = this; // to avoid using dojo.hitch() mover._timer = setTimeout(function(){ // we don't have any pending requests mover._timer = null; // reflect the last received position oldOnMove.call(_t, mover, mover._leftTop); }, this.timeout); } } }); })(); } if(!dojo._hasResource["dijit._base.focus"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code. dojo._hasResource["dijit._base.focus"] = true; dojo.provide("dijit._base.focus"); // summary: // These functions are used to query or set the focus and selection. // // Also, they trace when widgets become actived/deactivated, // so that the widget can fire _onFocus/_onBlur events. // "Active" here means something similar to "focused", but // "focus" isn't quite the right word because we keep track of // a whole stack of "active" widgets. Example: Combobutton --> Menu --> // MenuItem. The onBlur event for Combobutton doesn't fire due to focusing // on the Menu or a MenuItem, since they are considered part of the // Combobutton widget. It only happens when focus is shifted // somewhere completely different. dojo.mixin(dijit, { // _curFocus: DomNode // Currently focused item on screen _curFocus: null, // _prevFocus: DomNode // Previously focused item on screen _prevFocus: null, isCollapsed: function(){ // summary: tests whether the current selection is empty var _document = dojo.doc; if(_document.selection){ // IE var s=_document.selection; if(s.type=='Text'){ return !s.createRange().htmlText.length; // Boolean }else{ //Control range return !s.createRange().length; // Boolean } }else{ var _window = dojo.global; var selection = _window.getSelection(); if(dojo.isString(selection)){ // Safari return !selection; // Boolean }else{ // Mozilla/W3 return selection.isCollapsed || !selection.toString(); // Boolean } } }, getBookmark: function(){ // summary: Retrieves a bookmark that can be used with moveToBookmark to return to the same range var bookmark, selection = dojo.doc.selection; if(selection){ // IE var range = selection.createRange(); if(selection.type.toUpperCase()=='CONTROL'){ if(range.length){ bookmark=[]; var i=0,len=range.length; while(i to follow the parentNode chain, // but we need to set focus to iframe.contentWindow if(node){ var focusNode = (node.tagName.toLowerCase()=="iframe") ? node.contentWindow : node; if(focusNode && focusNode.focus){ try{ // Gecko throws sometimes if setting focus is impossible, // node not displayed or something like that focusNode.focus(); }catch(e){/*quiet*/} } dijit._onFocusNode(node); } // set the selection // do not need to restore if current selection is not empty // (use keyboard to select a menu item) if(bookmark && dojo.withGlobal(openedForWindow||dojo.global, dijit.isCollapsed)){ if(openedForWindow){ openedForWindow.focus(); } try{ dojo.withGlobal(openedForWindow||dojo.global, dijit.moveToBookmark, null, [bookmark]); }catch(e){ /*squelch IE internal error, see http://trac.dojotoolkit.org/ticket/1984 */ } } }, // _activeStack: Array // List of currently active widgets (focused widget and it's ancestors) _activeStack: [], registerWin: function(/*Window?*/targetWindow){ // summary: // Registers listeners on the specified window (either the main // window or an iframe) to detect when the user has clicked somewhere. // Anyone that creates an iframe should call this function. if(!targetWindow){ targetWindow = window; } dojo.connect(targetWindow.document, "onmousedown", function(evt){ dijit._justMouseDowned = true; setTimeout(function(){ dijit._justMouseDowned = false; }, 0); dijit._onTouchNode(evt.target||evt.srcElement); }); //dojo.connect(targetWindow, "onscroll", ???); // Listen for blur and focus events on targetWindow's body var doc = targetWindow.document; if(doc){ if(dojo.isIE){ doc.attachEvent('onactivate', function(evt){ if(evt.srcElement.tagName.toLowerCase() != "#document"){ dijit._onFocusNode(evt.srcElement); } }); doc.attachEvent('ondeactivate', function(evt){ dijit._onBlurNode(evt.srcElement); }); }else{ doc.addEventListener('focus', function(evt){ dijit._onFocusNode(evt.target); }, true); doc.addEventListener('blur', function(evt){ dijit._onBlurNode(evt.target); }, true); } } doc = null; // prevent memory leak (apparent circular reference via closure) }, _onBlurNode: function(/*DomNode*/ node){ // summary: // Called when focus leaves a node. // Usually ignored, _unless_ it *isn't* follwed by touching another node, // which indicates that we tabbed off the last field on the page, // in which case every widget is marked inactive dijit._prevFocus = dijit._curFocus; dijit._curFocus = null; if(dijit._justMouseDowned){ // the mouse down caused a new widget to be marked as active; this blur event // is coming late, so ignore it. return; } // if the blur event isn't followed by a focus event then mark all widgets as inactive. if(dijit._clearActiveWidgetsTimer){ clearTimeout(dijit._clearActiveWidgetsTimer); } dijit._clearActiveWidgetsTimer = setTimeout(function(){ delete dijit._clearActiveWidgetsTimer; dijit._setStack([]); dijit._prevFocus = null; }, 100); }, _onTouchNode: function(/*DomNode*/ node){ // summary: // Callback when node is focused or mouse-downed // ignore the recent blurNode event if(dijit._clearActiveWidgetsTimer){ clearTimeout(dijit._clearActiveWidgetsTimer); delete dijit._clearActiveWidgetsTimer; } // compute stack of active widgets (ex: ComboButton --> Menu --> MenuItem) var newStack=[]; try{ while(node){ if(node.dijitPopupParent){ node=dijit.byId(node.dijitPopupParent).domNode; }else if(node.tagName && node.tagName.toLowerCase()=="body"){ // is this the root of the document or just the root of an iframe? if(node===dojo.body()){ // node is the root of the main document break; } // otherwise, find the iframe this node refers to (can't access it via parentNode, // need to do this trick instead). window.frameElement is supported in IE/FF/Webkit node=dijit.getDocumentWindow(node.ownerDocument).frameElement; }else{ var id = node.getAttribute && node.getAttribute("widgetId"); if(id){ newStack.unshift(id); } node=node.parentNode; } } }catch(e){ /* squelch */ } dijit._setStack(newStack); }, _onFocusNode: function(/*DomNode*/ node){ // summary // Callback when node is focused if(!node){ return; } if(node.nodeType == 9){ // Ignore focus events on the document itself. This is here so that // (for example) clicking the up/down arrows of a spinner // (which don't get focus) won't cause that widget to blur. (FF issue) return; } if(node.nodeType == 9){ // We focused on (the body of) the document itself, either the main document // or an iframe var iframe = dijit.getDocumentWindow(node).frameElement; if(!iframe){ // Ignore focus events on main document. This is specifically here // so that clicking the up/down arrows of a spinner (which don't get focus) // won't cause that widget to blur. return; } node = iframe; } dijit._onTouchNode(node); if(node==dijit._curFocus){ return; } if(dijit._curFocus){ dijit._prevFocus = dijit._curFocus; } dijit._curFocus = node; dojo.publish("focusNode", [node]); }, _setStack: function(newStack){ // summary // The stack of active widgets has changed. Send out appropriate events and record new stack var oldStack = dijit._activeStack; dijit._activeStack = newStack; // compare old stack to new stack to see how many elements they have in common for(var nCommon=0; nCommon=nCommon; i--){ var widget = dijit.byId(oldStack[i]); if(widget){ widget._focused = false; widget._hasBeenBlurred = true; if(widget._onBlur){ widget._onBlur(); } if (widget._setStateClass){ widget._setStateClass(); } dojo.publish("widgetBlur", [widget]); } } // for all element that have come into focus, send focus event for(i=nCommon; i= 0) { return true; // boolean } var name = elem.nodeName.toLowerCase(); if(((name == "a" && dojo.hasAttr(elem, "href")) || dijit._tabElements[name]) && (!hasTabindex || tabindex >= 0)){ return true; // boolean } return false; // boolean }; dijit._getTabNavigable = function(/*DOMNode*/root){ // summary: // Finds the following descendants of the specified root node: // * the first tab-navigable element in document order // without a tabindex or with tabindex="0" // * the last tab-navigable element in document order // without a tabindex or with tabindex="0" // * the first element in document order with the lowest // positive tabindex value // * the last element in document order with the highest // positive tabindex value var first, last, lowest, lowestTabindex, highest, highestTabindex; var walkTree = function(/*DOMNode*/parent){ dojo.query("> *", parent).forEach(function(child){ var isShown = dijit._isElementShown(child); if(isShown && dijit.isTabNavigable(child)){ var tabindex = dojo.attr(child, "tabindex"); if(!dojo.hasAttr(child, "tabindex") || tabindex == 0){ if(!first){ first = child; } last = child; }else if(tabindex > 0){ if(!lowest || tabindex < lowestTabindex){ lowestTabindex = tabindex; lowest = child; } if(!highest || tabindex >= highestTabindex){ highestTabindex = tabindex; highest = child; } } } if(isShown && child.nodeName.toUpperCase() != 'SELECT'){ walkTree(child) } }); }; if(dijit._isElementShown(root)){ walkTree(root) } return { first: first, last: last, lowest: lowest, highest: highest }; } dijit.getFirstInTabbingOrder = function(/*String|DOMNode*/root){ // summary: // Finds the descendant of the specified root node // that is first in the tabbing order var elems = dijit._getTabNavigable(dojo.byId(root)); return elems.lowest ? elems.lowest : elems.first; // Element }; dijit.getLastInTabbingOrder = function(/*String|DOMNode*/root){ // summary: // Finds the descendant of the specified root node // that is last in the tabbing order var elems = dijit._getTabNavigable(dojo.byId(root)); return elems.last ? elems.last : elems.highest; // Element }; // dijit.defaultDuration // Default duration for wipe and fade animations within dijits dijit.defaultDuration = dojo.config["defaultDuration"] || 200; } if(!dojo._hasResource["dojo.AdapterRegistry"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code. dojo._hasResource["dojo.AdapterRegistry"] = true; dojo.provide("dojo.AdapterRegistry"); dojo.AdapterRegistry = function(/*Boolean?*/ returnWrappers){ // summary: // A registry to make contextual calling/searching easier. // description: // Objects of this class keep list of arrays in the form [name, check, // wrap, directReturn] that are used to determine what the contextual // result of a set of checked arguments is. All check/wrap functions // in this registry should be of the same arity. // example: // | // create a new registry // | var reg = new dojo.AdapterRegistry(); // | reg.register("handleString", // | dojo.isString, // | function(str){ // | // do something with the string here // | } // | ); // | reg.register("handleArr", // | dojo.isArray, // | function(arr){ // | // do something with the array here // | } // | ); // | // | // now we can pass reg.match() *either* an array or a string and // | // the value we pass will get handled by the right function // | reg.match("someValue"); // will call the first function // | reg.match(["someValue"]); // will call the second this.pairs = []; this.returnWrappers = returnWrappers || false; // Boolean } dojo.extend(dojo.AdapterRegistry, { register: function(/*String*/ name, /*Function*/ check, /*Function*/ wrap, /*Boolean?*/ directReturn, /*Boolean?*/ override){ // summary: // register a check function to determine if the wrap function or // object gets selected // name: // a way to identify this matcher. // check: // a function that arguments are passed to from the adapter's // match() function. The check function should return true if the // given arguments are appropriate for the wrap function. // directReturn: // If directReturn is true, the value passed in for wrap will be // returned instead of being called. Alternately, the // AdapterRegistry can be set globally to "return not call" using // the returnWrappers property. Either way, this behavior allows // the registry to act as a "search" function instead of a // function interception library. // override: // If override is given and true, the check function will be given // highest priority. Otherwise, it will be the lowest priority // adapter. this.pairs[((override) ? "unshift" : "push")]([name, check, wrap, directReturn]); }, match: function(/* ... */){ // summary: // Find an adapter for the given arguments. If no suitable adapter // is found, throws an exception. match() accepts any number of // arguments, all of which are passed to all matching functions // from the registered pairs. for(var i = 0; i < this.pairs.length; i++){ var pair = this.pairs[i]; if(pair[1].apply(this, arguments)){ if((pair[3])||(this.returnWrappers)){ return pair[2]; }else{ return pair[2].apply(this, arguments); } } } throw new Error("No match found"); }, unregister: function(name){ // summary: Remove a named adapter from the registry // FIXME: this is kind of a dumb way to handle this. On a large // registry this will be slow-ish and we can use the name as a lookup // should we choose to trade memory for speed. for(var i = 0; i < this.pairs.length; i++){ var pair = this.pairs[i]; if(pair[0] == name){ this.pairs.splice(i, 1); return true; } } return false; } }); } if(!dojo._hasResource["dijit._base.place"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code. dojo._hasResource["dijit._base.place"] = true; dojo.provide("dijit._base.place"); // ported from dojo.html.util dijit.getViewport = function(){ // summary // Returns the dimensions and scroll position of the viewable area of a browser window var _window = dojo.global; var _document = dojo.doc; // get viewport size var w = 0, h = 0; var de = _document.documentElement; var dew = de.clientWidth, deh = de.clientHeight; if(dojo.isMozilla){ // mozilla // _window.innerHeight includes the height taken by the scroll bar // clientHeight is ideal but has DTD issues: // #4539: FF reverses the roles of body.clientHeight/Width and documentElement.clientHeight/Width based on the DTD! // check DTD to see whether body or documentElement returns the viewport dimensions using this algorithm: var minw, minh, maxw, maxh; var dbw = _document.body.clientWidth; if(dbw > dew){ minw = dew; maxw = dbw; }else{ maxw = dew; minw = dbw; } var dbh = _document.body.clientHeight; if(dbh > deh){ minh = deh; maxh = dbh; }else{ maxh = deh; minh = dbh; } w = (maxw > _window.innerWidth) ? minw : maxw; h = (maxh > _window.innerHeight) ? minh : maxh; }else if(!dojo.isOpera && _window.innerWidth){ //in opera9, dojo.body().clientWidth should be used, instead //of window.innerWidth/document.documentElement.clientWidth //so we have to check whether it is opera w = _window.innerWidth; h = _window.innerHeight; }else if(dojo.isIE && de && deh){ w = dew; h = deh; }else if(dojo.body().clientWidth){ // IE5, Opera w = dojo.body().clientWidth; h = dojo.body().clientHeight; } // get scroll position var scroll = dojo._docScroll(); return { w: w, h: h, l: scroll.x, t: scroll.y }; // object }; /*===== dijit.__Position = function(){ // x: Integer // horizontal coordinate in pixels, relative to document body // y: Integer // vertical coordinate in pixels, relative to document body thix.x = x; this.y = y; } =====*/ dijit.placeOnScreen = function( /* DomNode */ node, /* dijit.__Position */ pos, /* String[] */ corners, /* boolean? */ tryOnly){ // summary: // Positions one of the node's corners at specified position // such that node is fully visible in viewport. // description: // NOTE: node is assumed to be absolutely or relatively positioned. // pos: // Object like {x: 10, y: 20} // corners: // Array of Strings representing order to try corners in, like ["TR", "BL"]. // Possible values are: // * "BL" - bottom left // * "BR" - bottom right // * "TL" - top left // * "TR" - top right // example: // Try to place node's top right corner at (10,20). // If that makes node go (partially) off screen, then try placing // bottom left corner at (10,20). // | placeOnScreen(node, {x: 10, y: 20}, ["TR", "BL"]) var choices = dojo.map(corners, function(corner){ return { corner: corner, pos: pos }; }); return dijit._place(node, choices); } dijit._place = function(/*DomNode*/ node, /* Array */ choices, /* Function */ layoutNode){ // summary: // Given a list of spots to put node, put it at the first spot where it fits, // of if it doesn't fit anywhere then the place with the least overflow // choices: Array // Array of elements like: {corner: 'TL', pos: {x: 10, y: 20} } // Above example says to put the top-left corner of the node at (10,20) // layoutNode: Function(node, aroundNodeCorner, nodeCorner) // for things like tooltip, they are displayed differently (and have different dimensions) // based on their orientation relative to the parent. This adjusts the popup based on orientation. // get {x: 10, y: 10, w: 100, h:100} type obj representing position of // viewport over document var view = dijit.getViewport(); // This won't work if the node is inside a
, // so reattach it to dojo.doc.body. (Otherwise, the positioning will be wrong // and also it might get cutoff) if(!node.parentNode || String(node.parentNode.tagName).toLowerCase() != "body"){ dojo.body().appendChild(node); } var best = null; dojo.some(choices, function(choice){ var corner = choice.corner; var pos = choice.pos; // configure node to be displayed in given position relative to button // (need to do this in order to get an accurate size for the node, because // a tooltips size changes based on position, due to triangle) if(layoutNode){ layoutNode(node, choice.aroundCorner, corner); } // get node's size var style = node.style; var oldDisplay = style.display; var oldVis = style.visibility; style.visibility = "hidden"; style.display = ""; var mb = dojo.marginBox(node); style.display = oldDisplay; style.visibility = oldVis; // coordinates and size of node with specified corner placed at pos, // and clipped by viewport var startX = (corner.charAt(1) == 'L' ? pos.x : Math.max(view.l, pos.x - mb.w)), startY = (corner.charAt(0) == 'T' ? pos.y : Math.max(view.t, pos.y - mb.h)), endX = (corner.charAt(1) == 'L' ? Math.min(view.l + view.w, startX + mb.w) : pos.x), endY = (corner.charAt(0) == 'T' ? Math.min(view.t + view.h, startY + mb.h) : pos.y), width = endX - startX, height = endY - startY, overflow = (mb.w - width) + (mb.h - height); if(best == null || overflow < best.overflow){ best = { corner: corner, aroundCorner: choice.aroundCorner, x: startX, y: startY, w: width, h: height, overflow: overflow }; } return !overflow; }); node.style.left = best.x + "px"; node.style.top = best.y + "px"; if(best.overflow && layoutNode){ layoutNode(node, best.aroundCorner, best.corner); } return best; } dijit.placeOnScreenAroundNode = function( /* DomNode */ node, /* DomNode */ aroundNode, /* Object */ aroundCorners, /* Function? */ layoutNode){ // summary: // Position node adjacent or kitty-corner to aroundNode // such that it's fully visible in viewport. // // description: // Place node such that corner of node touches a corner of // aroundNode, and that node is fully visible. // // aroundCorners: // Ordered list of pairs of corners to try matching up. // Each pair of corners is represented as a key/value in the hash, // where the key corresponds to the aroundNode's corner, and // the value corresponds to the node's corner: // // | { aroundNodeCorner1: nodeCorner1, aroundNodeCorner2: nodeCorner2, ...} // // The following strings are used to represent the four corners: // * "BL" - bottom left // * "BR" - bottom right // * "TL" - top left // * "TR" - top right // // layoutNode: Function(node, aroundNodeCorner, nodeCorner) // For things like tooltip, they are displayed differently (and have different dimensions) // based on their orientation relative to the parent. This adjusts the popup based on orientation. // // example: // | dijit.placeOnScreenAroundNode(node, aroundNode, {'BL':'TL', 'TR':'BR'}); // This will try to position node such that node's top-left corner is at the same position // as the bottom left corner of the aroundNode (ie, put node below // aroundNode, with left edges aligned). If that fails it will try to put // the bottom-right corner of node where the top right corner of aroundNode is // (ie, put node above aroundNode, with right edges aligned) // // get coordinates of aroundNode aroundNode = dojo.byId(aroundNode); var oldDisplay = aroundNode.style.display; aroundNode.style.display=""; // #3172: use the slightly tighter border box instead of marginBox var aroundNodeW = aroundNode.offsetWidth; //mb.w; var aroundNodeH = aroundNode.offsetHeight; //mb.h; var aroundNodePos = dojo.coords(aroundNode, true); aroundNode.style.display=oldDisplay; // place the node around the calculated rectangle return dijit._placeOnScreenAroundRect(node, aroundNodePos.x, aroundNodePos.y, aroundNodeW, aroundNodeH, // rectangle aroundCorners, layoutNode); }; /*===== dijit.__Rectangle = function(){ // x: Integer // horizontal offset in pixels, relative to document body // y: Integer // vertical offset in pixels, relative to document body // width: Integer // width in pixels // height: Integer // height in pixels thix.x = x; this.y = y; thix.width = width; this.height = height; } =====*/ dijit.placeOnScreenAroundRectangle = function( /* DomNode */ node, /* dijit.__Rectangle */ aroundRect, /* Object */ aroundCorners, /* Function */ layoutNode){ // summary: // Like dijit.placeOnScreenAroundNode(), except that the "around" // parameter is an arbitrary rectangle on the screen (x, y, width, height) // instead of a dom node. return dijit._placeOnScreenAroundRect(node, aroundRect.x, aroundRect.y, aroundRect.width, aroundRect.height, // rectangle aroundCorners, layoutNode); }; dijit._placeOnScreenAroundRect = function( /* DomNode */ node, /* Number */ x, /* Number */ y, /* Number */ width, /* Number */ height, /* Object */ aroundCorners, /* Function */ layoutNode){ // summary: // Like dijit.placeOnScreenAroundNode(), except it accepts coordinates // of a rectangle to place node adjacent to. // TODO: combine with placeOnScreenAroundRectangle() // Generate list of possible positions for node var choices = []; for(var nodeCorner in aroundCorners){ choices.push( { aroundCorner: nodeCorner, corner: aroundCorners[nodeCorner], pos: { x: x + (nodeCorner.charAt(1) == 'L' ? 0 : width), y: y + (nodeCorner.charAt(0) == 'T' ? 0 : height) } }); } return dijit._place(node, choices, layoutNode); }; dijit.placementRegistry = new dojo.AdapterRegistry(); dijit.placementRegistry.register("node", function(n, x){ return typeof x == "object" && typeof x.offsetWidth != "undefined" && typeof x.offsetHeight != "undefined"; }, dijit.placeOnScreenAroundNode); dijit.placementRegistry.register("rect", function(n, x){ return typeof x == "object" && "x" in x && "y" in x && "width" in x && "height" in x; }, dijit.placeOnScreenAroundRectangle); dijit.placeOnScreenAroundElement = function( /* DomNode */ node, /* Object */ aroundElement, /* Object */ aroundCorners, /* Function */ layoutNode){ // summary: // Like dijit.placeOnScreenAroundNode(), except it accepts an arbitrary object // for the "around" argument and finds a proper processor to place a node. return dijit.placementRegistry.match.apply(dijit.placementRegistry, arguments); }; } if(!dojo._hasResource["dijit._base.window"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code. dojo._hasResource["dijit._base.window"] = true; dojo.provide("dijit._base.window"); dijit.getDocumentWindow = function(doc){ // summary: // Get window object associated with document doc // In some IE versions (at least 6.0), document.parentWindow does not return a // reference to the real window object (maybe a copy), so we must fix it as well // We use IE specific execScript to attach the real window reference to // document._parentWindow for later use if(dojo.isIE && window !== document.parentWindow && !doc._parentWindow){ /* In IE 6, only the variable "window" can be used to connect events (others may be only copies). */ doc.parentWindow.execScript("document._parentWindow = window;", "Javascript"); //to prevent memory leak, unset it after use //another possibility is to add an onUnload handler which seems overkill to me (liucougar) var win = doc._parentWindow; doc._parentWindow = null; return win; // Window } return doc._parentWindow || doc.parentWindow || doc.defaultView; // Window } } if(!dojo._hasResource["dijit._base.popup"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code. dojo._hasResource["dijit._base.popup"] = true; dojo.provide("dijit._base.popup"); dijit.popup = new function(){ // summary: // This class is used to show/hide widgets as popups. // var stack = [], beginZIndex=1000, idGen = 1; this.prepare = function(/*DomNode*/ node){ // summary: // Prepares a node to be used as a popup // // description: // Attaches node to dojo.doc.body, and // positions it off screen, but not display:none, so that // the widget doesn't appear in the page flow and/or cause a blank // area at the bottom of the viewport (making scrollbar longer), but // initialization of contained widgets works correctly dojo.body().appendChild(node); var s = node.style; if(s.display == "none"){ s.display=""; } s.visibility = "hidden"; // not needed for hiding, but used as flag that node is off-screen s.position = "absolute"; s.top = "-9999px"; }; this.open = function(/*Object*/ args){ // summary: // Popup the widget at the specified position // // args: Object // popup: Widget // widget to display, // parent: Widget // the button etc. that is displaying this popup // around: DomNode // DOM node (typically a button); place popup relative to this node // orient: Object // structure specifying possible positions of popup relative to "around" node // onCancel: Function // callback when user has canceled the popup by // 1. hitting ESC or // 2. by using the popup widget's proprietary cancel mechanism (like a cancel button in a dialog); // ie: whenever popupWidget.onCancel() is called, args.onCancel is called // onClose: Function // callback whenever this popup is closed // onExecute: Function // callback when user "executed" on the popup/sub-popup by selecting a menu choice, etc. (top menu only) // // examples: // 1. opening at the mouse position // dijit.popup.open({popup: menuWidget, x: evt.pageX, y: evt.pageY}); // 2. opening the widget as a dropdown // dijit.popup.open({parent: this, popup: menuWidget, around: this.domNode, onClose: function(){...} }); // // Note that whatever widget called dijit.popup.open() should also listen to it's own _onBlur callback // (fired from _base/focus.js) to know that focus has moved somewhere else and thus the popup should be closed. var widget = args.popup, orient = args.orient || {'BL':'TL', 'TL':'BL'}, around = args.around, id = (args.around && args.around.id) ? (args.around.id+"_dropdown") : ("popup_"+idGen++); // make wrapper div to hold widget and possibly hold iframe behind it. // we can't attach the iframe as a child of the widget.domNode because // widget.domNode might be a ,
    , etc. var wrapper = dojo.doc.createElement("div"); dijit.setWaiRole(wrapper, "presentation"); wrapper.id = id; wrapper.className="dijitPopup"; wrapper.style.zIndex = beginZIndex + stack.length; wrapper.style.left = wrapper.style.top = "0px"; // prevent transient scrollbar causing misalign (#5776) wrapper.style.visibility = "hidden"; if(args.parent){ wrapper.dijitPopupParent=args.parent.id; } dojo.body().appendChild(wrapper); var s = widget.domNode.style; s.display = ""; s.visibility = ""; s.position = ""; wrapper.appendChild(widget.domNode); var iframe = new dijit.BackgroundIframe(wrapper); // position the wrapper node var best = around ? dijit.placeOnScreenAroundElement(wrapper, around, orient, widget.orient ? dojo.hitch(widget, "orient") : null) : dijit.placeOnScreen(wrapper, args, orient == 'R' ? ['TR','BR','TL','BL'] : ['TL','BL','TR','BR']); wrapper.style.visibility = "visible"; // TODO: use effects to fade in wrapper var handlers = []; // Compute the closest ancestor popup that's *not* a child of another popup. // Ex: For a TooltipDialog with a button that spawns a tree of menus, find the popup of the button. var getTopPopup = function(){ for(var pi=stack.length-1; pi > 0 && stack[pi].parent === stack[pi-1].widget; pi--){ /* do nothing, just trying to get right value for pi */ } return stack[pi]; } // provide default escape and tab key handling // (this will work for any widget, not just menu) handlers.push(dojo.connect(wrapper, "onkeypress", this, function(evt){ if(evt.charOrCode == dojo.keys.ESCAPE && args.onCancel){ dojo.stopEvent(evt); args.onCancel(); }else if(evt.charOrCode === dojo.keys.TAB){ dojo.stopEvent(evt); var topPopup = getTopPopup(); if(topPopup && topPopup.onCancel){ topPopup.onCancel(); } } })); // watch for cancel/execute events on the popup and notify the caller // (for a menu, "execute" means clicking an item) if(widget.onCancel){ handlers.push(dojo.connect(widget, "onCancel", null, args.onCancel)); } handlers.push(dojo.connect(widget, widget.onExecute ? "onExecute" : "onChange", null, function(){ var topPopup = getTopPopup(); if(topPopup && topPopup.onExecute){ topPopup.onExecute(); } })); stack.push({ wrapper: wrapper, iframe: iframe, widget: widget, parent: args.parent, onExecute: args.onExecute, onCancel: args.onCancel, onClose: args.onClose, handlers: handlers }); if(widget.onOpen){ widget.onOpen(best); } return best; }; this.close = function(/*Widget*/ popup){ // summary: // Close specified popup and any popups that it parented while(dojo.some(stack, function(elem){return elem.widget == popup;})){ var top = stack.pop(), wrapper = top.wrapper, iframe = top.iframe, widget = top.widget, onClose = top.onClose; if(widget.onClose){ widget.onClose(); } dojo.forEach(top.handlers, dojo.disconnect); // #2685: check if the widget still has a domNode so ContentPane can change its URL without getting an error if(!widget||!widget.domNode){ return; } this.prepare(widget.domNode); iframe.destroy(); dojo._destroyElement(wrapper); if(onClose){ onClose(); } } }; }(); dijit._frames = new function(){ // summary: cache of iframes var queue = []; this.pop = function(){ var iframe; if(queue.length){ iframe = queue.pop(); iframe.style.display=""; }else{ if(dojo.isIE){ var burl = dojo.config["dojoBlankHtmlUrl"] || (dojo.moduleUrl("dojo", "resources/blank.html")+"") || "javascript:\"\""; var html="