/*
	Copyright (c) 2004-2009, 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["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:
		//		Returns true if there is no text selected
		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
				// TODO: this is dead code; safari is taking the else branch.  remove after 1.3.
				return !selection; // Boolean
			}else{ // Mozilla/W3
				return !selection || 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<len){
						bookmark.push(range.item(i++));
					}
				}else{
					bookmark=null;
				}
			}else{
				bookmark = range.getBookmark();
			}
		}else{
			if(window.getSelection){
				selection = dojo.global.getSelection();
				if(selection){
					range = selection.getRangeAt(0);
					bookmark = range.cloneRange();
				}
			}else{
				console.warn("No idea how to store the current selection for this browser!");
			}
		}
		return bookmark; // Array
	},

	moveToBookmark: function(/*Object*/bookmark){
		// summary:
		//		Moves current selection to a bookmark
		// bookmark:
		//		This should be a returned object from dojo.html.selection.getBookmark()
		var _document = dojo.doc;
		if(_document.selection){ // IE
			var range;
			if(dojo.isArray(bookmark)){
				range = _document.body.createControlRange();
				//range.addElement does not have call/apply method, so can not call it directly
				//range is not available in "range.addElement(item)", so can't use that either
				dojo.forEach(bookmark, function(n){
					range.addElement(n);
				});
			}else{
				range = _document.selection.createRange();
				range.moveToBookmark(bookmark);
			}
			range.select();
		}else{ //Moz/W3C
			var selection = dojo.global.getSelection && dojo.global.getSelection();
			if(selection && selection.removeAllRanges){
				selection.removeAllRanges();
				selection.addRange(bookmark);
			}else{
				console.warn("No idea how to restore selection for this browser!");
			}
		}
	},

	getFocus: function(/*Widget?*/menu, /*Window?*/openedForWindow){
		// summary:
		//		Returns the current focus and selection.
		//		Called when a popup appears (either a top level menu or a dialog),
		//		or when a toolbar/menubar receives focus
		//
		// menu:
		//		The menu that's being opened
		//
		// openedForWindow:
		//		iframe in which menu was opened
		//
		// returns:
		//		A handle to restore focus/selection

		return {
			// Node to return focus to
			node: menu && dojo.isDescendant(dijit._curFocus, menu.domNode) ? dijit._prevFocus : dijit._curFocus,

			// Previously selected text
			bookmark:
				!dojo.withGlobal(openedForWindow||dojo.global, dijit.isCollapsed) ?
				dojo.withGlobal(openedForWindow||dojo.global, dijit.getBookmark) :
				null,

			openedForWindow: openedForWindow
		}; // Object
	},

	focus: function(/*Object || DomNode */ handle){
		// summary:
		//		Sets the focused node and the selection according to argument.
		//		To set focus to an iframe's content, pass in the iframe itself.
		// handle:
		//		object returned by get(), or a DomNode

		if(!handle){ return; }

		var node = "node" in handle ? handle.node : handle,		// because handle is either DomNode or a composite object
			bookmark = handle.bookmark,
			openedForWindow = handle.openedForWindow;

		// Set the focus
		// Note that for iframe's we need to use the <iframe> 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: [],

	registerIframe: function(/*DomNode*/ iframe){
		// summary:
		//		Registers listeners on the specified iframe so that any click
		//		or focus event on that iframe (or anything in it) is reported
		//		as a focus/click event on the <iframe> itself.
		// description:
		//		Currently only used by editor.
		dijit.registerWin(iframe.contentWindow, iframe);
	},
		

	registerWin: function(/*Window?*/targetWindow, /*DomNode?*/ effectiveNode){
		// summary:
		//		Registers listeners on the specified window (either the main
		//		window or an iframe's window) to detect when the user has clicked somewhere
		//		or focused somewhere.
		// description:
		//		Users should call registerIframe() instead of this method.
		// targetWindow:
		//		If specified this is the window associated with the iframe,
		//		i.e. iframe.contentWindow.
		// effectiveNode:
		//		If specified, report any focus events inside targetWindow as
		//		an event on effectiveNode, rather than on evt.target.

		// TODO: make this function private in 2.0; Editor/users should call registerIframe(),
		// or if Editor stops using <iframe> altogether than we can probably just drop
		// the whole public API.

		dojo.connect(targetWindow.document, "onmousedown", function(evt){
			dijit._justMouseDowned = true;
			setTimeout(function(){ dijit._justMouseDowned = false; }, 0);
			dijit._onTouchNode(effectiveNode||evt.target||evt.srcElement);
		});
		//dojo.connect(targetWindow, "onscroll", ???);

		// Listen for blur and focus events on targetWindow's document.
		// IIRC, I'm using attachEvent() rather than dojo.connect() because focus/blur events don't bubble
		// through dojo.connect(), and also maybe to catch the focus events early, before onfocus handlers
		// fire.
		var doc = targetWindow.document;
		if(doc){
			if(dojo.isIE){
				doc.attachEvent('onactivate', function(evt){
					if(evt.srcElement.tagName.toLowerCase() != "#document"){
						dijit._onFocusNode(effectiveNode||evt.srcElement);
					}
				});
				doc.attachEvent('ondeactivate', function(evt){
					dijit._onBlurNode(effectiveNode||evt.srcElement);
				});
			}else{
				doc.addEventListener('focus', function(evt){
					dijit._onFocusNode(effectiveNode||evt.target);
				}, true);
				doc.addEventListener('blur', function(evt){
					dijit._onBlurNode(effectiveNode||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;
		}

		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 records 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<Math.min(oldStack.length, newStack.length); nCommon++){
			if(oldStack[nCommon] != newStack[nCommon]){
				break;
			}
		}

		// for all elements that have gone out of focus, send blur event
		for(var i=oldStack.length-1; i>=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<newStack.length; i++){
			widget = dijit.byId(newStack[i]);
			if(widget){
				widget._focused = true;
				if(widget._onFocus){
					widget._onFocus();
				}
				if (widget._setStateClass){
					widget._setStateClass();
				}
				dojo.publish("widgetFocus", [widget]);
			}
		}
	}
});

// register top window and all the iframes it contains
dojo.addOnLoad(function(){dijit.registerWin(window); });

}

if(!dojo._hasResource["dijit._base.manager"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code.
dojo._hasResource["dijit._base.manager"] = true;
dojo.provide("dijit._base.manager");

dojo.declare("dijit.WidgetSet", null, {
	// summary:
	//		A set of widgets indexed by id. A default instance of this class is 
	//		available as `dijit.registry`
	//
	// example:
	//		Create a small list of widgets:
	//		|	var ws = new dijit.WidgetSet();
	//		|	ws.add(dijit.byId("one"));
	//		| 	ws.add(dijit.byId("two"));
	//		|	// destroy both:
	//		|	ws.forEach(function(w){ w.destroy(); });
	//
	// example:
	//		Using dijit.registry:
	//		|	dijit.registry.forEach(function(w){ /* do something */ });
	
	constructor: function(){
		this._hash = {};
	},

	add: function(/*Widget*/ widget){
		// summary:
		//		Add a widget to this list. If a duplicate ID is detected, a error is thrown.
		//
		// widget: dijit._Widget
		//		Any dijit._Widget subclass.
		if(this._hash[widget.id]){
			throw new Error("Tried to register widget with id==" + widget.id + " but that id is already registered");
		}
		this._hash[widget.id]=widget;
	},

	remove: function(/*String*/ id){
		// summary:
		//		Remove a widget from this WidgetSet. Does not destroy the widget; simply
		//		removes the reference.
		delete this._hash[id];
	},

	forEach: function(/*Function*/ func){
		// summary:
		//		Call specified function for each widget in this set.
		//
		// func:
		//		A callback function to run for each item. Is passed a the widget.
		//
		// example:
		//		Using the default `dijit.registry` instance:
		//		|	dijit.registry.forEach(function(widget){
		//		|			
		//		|	});
		for(var id in this._hash){
			func(this._hash[id]);
		}
	},

	filter: function(/*Function*/ filter){
		// summary:
		//		Filter down this WidgetSet to a smaller new WidgetSet
		//		Works the same as `dojo.filter` and `dojo.NodeList.filter`
		//		
		// filter:
		//		Callback function to test truthiness.
		//
		// example:
		//		Arbitrary: select the odd widgets in this list
		//		|	var i = 0;
		//		|	dijit.registry.filter(function(w){
		//		|		return ++i % 2 == 0;
		//		|	}).forEach(function(w){ /* odd ones */ });

		var res = new dijit.WidgetSet();
		this.forEach(function(widget){
			if(filter(widget)){ res.add(widget); }
		});
		return res; // dijit.WidgetSet
	},

	byId: function(/*String*/ id){
		// summary:
		//		Find a widget in this list by it's id. 
		// example:
		//		Test if an id is in a particular WidgetSet
		//		| var ws = new dijit.WidgetSet();
		//		| ws.add(dijit.byId("bar"));
		//		| var t = ws.byId("bar") // returns a widget
		//		| var x = ws.byId("foo"); // returns undefined
		
		return this._hash[id];	// dijit._Widget
	},

	byClass: function(/*String*/ cls){
		// summary:
		//		Reduce this widgetset to a new WidgetSet of a particular declaredClass
		// 
		// example:
		//		Find all titlePane's in a page:
		//		|	dijit.registry.byClass("dijit.TitlePane").forEach(function(tp){ tp.close(); });
		
		return this.filter(function(widget){ return widget.declaredClass==cls; });	// dijit.WidgetSet
	}
	
});

/*=====
dijit.registry = {
	// summary: A list of widgets on a page.
	// description: Is an instance of `dijit.WidgetSet`
};
=====*/
dijit.registry = new dijit.WidgetSet();

dijit._widgetTypeCtr = {};

dijit.getUniqueId = function(/*String*/widgetType){
	// summary: Generates a unique id for a given widgetType

	var id;
	do{
		id = widgetType + "_" +
			(widgetType in dijit._widgetTypeCtr ?
				++dijit._widgetTypeCtr[widgetType] : dijit._widgetTypeCtr[widgetType] = 0);
	}while(dijit.byId(id));
	return id; // String
};

dijit.findWidgets = function(/*DomNode*/ root){
	// summary:
	//		Search subtree under root, putting found widgets in outAry.
	//		Doesn't search for nested widgets (ie, widgets inside other widgets)
	
	var outAry = [];

	function getChildrenHelper(root){
		var list = dojo.isIE ? root.children : root.childNodes, i = 0, node;
		while(node = list[i++]){
			if(node.nodeType != 1){ continue; }
			var widgetId = node.getAttribute("widgetId");
			if(widgetId){
				var widget = dijit.byId(widgetId);
				outAry.push(widget);
			}else{
				getChildrenHelper(node);
			}
		}
	}

	getChildrenHelper(root);
	return outAry;
};

if(dojo.isIE){
	// Only run this for IE because we think it's only necessary in that case,
	// and because it causes problems on FF.  See bug #3531 for details.
	dojo.addOnWindowUnload(function(){
		dojo.forEach(dijit.findWidgets(dojo.body()), function(widget){
			if(widget.destroyRecursive){
				widget.destroyRecursive();
			}else if(widget.destroy){
				widget.destroy();
			}
		});
	});
}

dijit.byId = function(/*String|Widget*/id){
	// summary:
	//		Returns a widget by it's id, or if passed a widget, no-op (like dojo.byId())
	return (dojo.isString(id)) ? dijit.registry.byId(id) : id; // Widget
};

dijit.byNode = function(/* DOMNode */ node){
	// summary:
	//		Returns the widget corresponding to the given DOMNode
	return dijit.registry.byId(node.getAttribute("widgetId")); // Widget
};

dijit.getEnclosingWidget = function(/* DOMNode */ node){
	// summary:
	//		Returns the widget whose DOM tree contains the specified DOMNode, or null if
	//		the node is not contained within the DOM tree of any widget
	while(node){
		if(node.getAttribute && node.getAttribute("widgetId")){
			return dijit.registry.byId(node.getAttribute("widgetId"));
		}
		node = node.parentNode;
	}
	return null;
};

// elements that are tab-navigable if they have no tabindex value set
// (except for "a", which must have an href attribute)
dijit._tabElements = {
	area: true,
	button: true,
	input: true,
	object: true,
	select: true,
	textarea: true
};

dijit._isElementShown = function(/*Element*/elem){
	var style = dojo.style(elem);
	return (style.visibility != "hidden")
		&& (style.visibility != "collapsed")
		&& (style.display != "none")
		&& (dojo.attr(elem, "type") != "hidden");
}

dijit.isTabNavigable = function(/*Element*/elem){
	// summary:
	//		Tests if an element is tab-navigable
	if(dojo.hasAttr(elem, "disabled")){ return false; }
	var hasTabindex = dojo.hasAttr(elem, "tabindex");
	var tabindex = dojo.attr(elem, "tabindex");
	if(hasTabindex && tabindex >= 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 descendants of the specified root node.
	//
	// description:
	//		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; // DomNode
};

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; // DomNode
};

/*=====
dojo.mixin(dijit, {
	// defaultDuration: Integer
	//		The default animation speed (in ms) to use for all Dijit
	//		transitional animations, unless otherwise specified 
	//		on a per-instance basis. Defaults to 200, overrided by 
	//		`djConfig.defaultDuration`
	defaultDuration: 300
});
=====*/

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 scrollRoot = (dojo.doc.compatMode == 'BackCompat')? dojo.body() : dojo.doc.documentElement;

	// get scroll position
	var scroll = dojo._docScroll(); // scrollRoot.scrollTop/Left should work
	return { w: scrollRoot.clientWidth, h: scrollRoot.clientHeight, l: scroll.x, t: scroll.y };
};

/*=====
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,
	/* dijit.__Position? */	padding){
	//	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
	//	padding:
	//		set padding to put some buffer around the element you want to position.
	//	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){
		var c = { corner: corner, pos: {x:pos.x,y:pos.y} };
		if(padding){
			c.pos.x += corner.charAt(1) == 'L' ? padding.x : -padding.x;
			c.pos.y += corner.charAt(0) == 'T' ? padding.y : -padding.y;
		}
		return c; 
	});

	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 <div style="position: relative">,
	// 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");

// TODO: remove this in 2.0, it's not used anymore, or at least not internally

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

		var s = node.style;
		s.visibility = "hidden";	// so TAB key doesn't navigate to hidden popup
		s.position = "absolute";
		s.top = "-9999px";
		if(s.display == "none"){
			s.display="";
		}
		dojo.body().appendChild(node);
	};

/*=====
dijit.popup.__OpenArgs = function(){
	// 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.  (Specify this *or* "x" and "y" parameters.)
	// x: Integer
	//		Absolute horizontal position (in pixels) to place node at.  (Specify this *or* "around" parameter.)
	// y: Integer
	//		Absolute vertical position (in pixels) to place node at.  (Specity this *or* "around" parameter.)
	// orient: Object || String
	//		When the around parameter is specified, orient should be an 
	//		ordered list of tuples of the form (around-node-corner, popup-node-corner).
	//		dijit.popup.open() tries to position the popup according to each tuple in the list, in order,
	//		until the popup appears fully within the viewport.
	//
	//		The default value is {BL:'TL', TL:'BL'}, which represents a list of two tuples:
	//			1. (BL, TL)
	//			2. (TL, BL)
	//		where BL means "bottom left" and "TL" means "top left".
	//		So by default, it first tries putting the popup below the around node, left-aligning them,
	//		and then tries to put it above the around node, still left-aligning them.   Note that the
	//		default is horizontally reversed when in RTL mode.
	//
	//		When an (x,y) position is specified rather than an around node, orient is either
	//		"R" or "L".  R (for right) means that it tries to put the popup to the right of the mouse,
	//		specifically positioning the popup's top-right corner at the mouse position, and if that doesn't
	//		fit in the viewport, then it tries, in order, the bottom-right corner, the top left corner,
	//		and the top-right corner.
	// 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);
	//			   i.e. 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)
	// padding: dijit.__Position
	//		adding a buffer around the opening position. This is only useful when around is not set.
	this.popup = popup;
	this.parent = parent;
	this.around = around;
	this.x = x;
	this.y = y;
	this.orient = orient;
	this.onCancel = onCancel;
	this.onClose = onClose;
	this.onExecute = onExecute;
	this.padding = padding;
}
=====*/
	this.open = function(/*dijit.popup.__OpenArgs*/ args){
		// summary:
		//		Popup the widget at the specified position
		//
		// example:
		//		opening at the mouse position
		//		|		dijit.popup.open({popup: menuWidget, x: evt.pageX, y: evt.pageY});
		//
		// example:
		//		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 its 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 <table>, <ul>, etc.
		var wrapper = dojo.create("div",{
			id: id, 
			"class":"dijitPopup",
			style:{
				zIndex: beginZIndex + stack.length,
				visibility:"hidden"
			}
		}, dojo.body());
		dijit.setWaiRole(wrapper, "presentation");
		
		// prevent transient scrollbar causing misalign (#5776)
		wrapper.style.left = wrapper.style.top = "0px";		

		if(args.parent){
			wrapper.dijitPopupParent=args.parent.id;
		}

		var s = widget.domNode.style;
		s.display = "";
		s.visibility = "";
		s.position = "";
		s.top = "0px";
		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'], args.padding);

		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.destroy(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="<iframe src='" + burl + "'"
					+ " style='position: absolute; left: 0px; top: 0px;"
					+ "z-index: -1; filter:Alpha(Opacity=\"0\");'>";
				iframe = dojo.doc.createElement(html);
			}else{
			 	iframe = dojo.create("iframe");
				iframe.src = 'javascript:""';
				iframe.className = "dijitBackgroundIframe";
			}
			iframe.tabIndex = -1; // Magic to prevent iframe from getting focus on tab keypress - as style didnt work.
			dojo.body().appendChild(iframe);
		}
		return iframe;
	};

	this.push = function(iframe){
		iframe.style.display="none";
		if(dojo.isIE){
			iframe.style.removeExpression("width");
			iframe.style.removeExpression("height");
		}
		queue.push(iframe);
	}
}();


dijit.BackgroundIframe = function(/* DomNode */node){
	// summary:
	//		For IE z-index schenanigans. id attribute is required.
	//
	// description:
	//		new dijit.BackgroundIframe(node)
	//			Makes a background iframe as a child of node, that fills
	//			area (and position) of node

	if(!node.id){ throw new Error("no id"); }
	if(dojo.isIE < 7 || (dojo.isFF < 3 && dojo.hasClass(dojo.body(), "dijit_a11y"))){
		var iframe = dijit._frames.pop();
		node.appendChild(iframe);
		if(dojo.isIE){
			iframe.style.setExpression("width", dojo._scopeName + ".doc.getElementById('" + node.id + "').offsetWidth");
			iframe.style.setExpression("height", dojo._scopeName + ".doc.getElementById('" + node.id + "').offsetHeight");
		}
		this.iframe = iframe;
	}
};

dojo.extend(dijit.BackgroundIframe, {
	destroy: function(){
		//	summary: destroy the iframe
		if(this.iframe){
			dijit._frames.push(this.iframe);
			delete this.iframe;
		}
	}
});

}

if(!dojo._hasResource["dijit._base.scroll"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code.
dojo._hasResource["dijit._base.scroll"] = true;
dojo.provide("dijit._base.scroll");

dijit.scrollIntoView = function(/* DomNode */node){
	// summary:
	//		Scroll the passed node into view, if it is not.

	// don't rely on that node.scrollIntoView works just because the function is there
	// it doesnt work in Konqueror or Opera even though the function is there and probably
	//	not safari either
	// native scrollIntoView() causes FF3's whole window to scroll if there is no scroll bar 
	//	on the immediate parent
	// dont like browser sniffs implementations but sometimes you have to use it
	// It's not enough just to scroll the menu node into view if
	// node.scrollIntoView hides part of the parent's scrollbar,
	// so just manage the parent scrollbar ourselves

	//var testdir="H"; //debug
	try{ // catch unexpected/unrecreatable errors (#7808) since we can recover using a semi-acceptable native method
	node = dojo.byId(node);
	var doc = dojo.doc;
	var body = dojo.body();
	var html = body.parentNode;
	// if FF2 (which is perfect) or an untested browser, then use the native method

	if((!(dojo.isFF >= 3 || dojo.isIE || dojo.isWebKit) || node == body || node == html) && (typeof node.scrollIntoView == "function")){ // FF2 is perfect, too bad FF3 is not
		node.scrollIntoView(false); // short-circuit to native if possible
		return;
	}
	var ltr = dojo._isBodyLtr();
	var isIE8strict = dojo.isIE >= 8 && !compatMode;
	var rtl = !ltr && !isIE8strict; // IE8 flips scrolling so pretend it's ltr
	// body and html elements are all messed up due to browser bugs and inconsistencies related to doctype
	// normalize the values before proceeding (FF2 is not listed since its native behavior is perfect)
	// for computation simplification, client and offset width and height are the same for body and html
	// strict:       html:       |      body:       | compatMode:
	//           width   height  |  width   height  |------------
	//    ie*:  clientW  clientH | scrollW  clientH | CSS1Compat
	//    ff3:  clientW  clientH |HscrollW  clientH | CSS1Compat
	//    sf3:  clientW  clientH | clientW HclientH | CSS1Compat
	//    op9:  clientW  clientH |HscrollW  clientH | CSS1Compat
	// ---------------------------------------------|-----------
	//   none:        html:      |      body:       |
	//           width    height |  width   height  |
	//    ie*: BclientW BclientH | clientW  clientH | BackCompat
	//    ff3: BclientW BclientH | clientW  clientH | BackCompat
	//    sf3:  clientW  clientH | clientW HclientH | CSS1Compat
	//    op9: BclientW BclientH | clientW  clientH | BackCompat
	// ---------------------------------------------|-----------
	//  loose:        html:      |      body:       |
	//           width    height |  width   height  |
	//    ie*:  clientW  clientH | scrollW  clientH | CSS1Compat
	//    ff3: BclientW BclientH | clientW  clientH | BackCompat
	//    sf3:  clientW  clientH | clientW HclientH | CSS1Compat
	//    op9:  clientW  clientH |HscrollW  clientH | CSS1Compat
	var scrollRoot = body;
	var compatMode = doc.compatMode == 'BackCompat';
	if(compatMode){ // BODY is scrollable, HTML has same client size
		// body client values already OK
		html._offsetWidth = html._clientWidth = body._offsetWidth = body.clientWidth;
		html._offsetHeight = html._clientHeight = body._offsetHeight = body.clientHeight;
	}else{
		if(dojo.isWebKit){
			body._offsetWidth = body._clientWidth  = html.clientWidth;
			body._offsetHeight = body._clientHeight = html.clientHeight;
		}else{
			scrollRoot = html;
		}
		html._offsetHeight = html.clientHeight;
		html._offsetWidth  = html.clientWidth;
	}

	function isFixedPosition(element){
		var ie = dojo.isIE;
		return ((ie <= 6 || (ie >= 7 && compatMode))? false : (dojo.style(element, 'position').toLowerCase() == "fixed"));
	}

	function addPseudoAttrs(element){
		var parent = element.parentNode;
		var offsetParent = element.offsetParent;
		if(offsetParent == null || isFixedPosition(element)){ // position:fixed has no real offsetParent
			offsetParent = html; // prevents exeptions
			parent = (element == body)? html : null;
		}
		// all the V/H object members below are to reuse code for both directions
		element._offsetParent = offsetParent;
		element._parent = parent;
		//
		//
		var bp = dojo._getBorderExtents(element);
		element._borderStart = { H:(isIE8strict && !ltr)? (bp.w-bp.l):bp.l, V:bp.t };
		element._borderSize = { H:bp.w, V:bp.h };
		element._scrolledAmount = { H:element.scrollLeft, V:element.scrollTop };
		element._offsetSize = { H: element._offsetWidth||element.offsetWidth, V: element._offsetHeight||element.offsetHeight };
		//
		// IE8 flips everything in rtl mode except offsetLeft and borderLeft - so manually change offsetLeft to offsetRight here 
		element._offsetStart = { H:(isIE8strict && !ltr)? offsetParent.clientWidth-element.offsetLeft-element._offsetSize.H:element.offsetLeft, V:element.offsetTop };
		//
		element._clientSize = { H:element._clientWidth||element.clientWidth, V:element._clientHeight||element.clientHeight };
		if(element != body && element != html && element != node){
			for(var dir in element._offsetSize){ // for both x and y directions
				var scrollBarSize = element._offsetSize[dir] - element._clientSize[dir] - element._borderSize[dir];
				//if(dir==testdir)
				var hasScrollBar = element._clientSize[dir] > 0 && scrollBarSize > 0; // can't check for a specific scrollbar size since it changes dramatically as you zoom
				//if(dir==testdir)
				if(hasScrollBar){
					element._offsetSize[dir] -= scrollBarSize;
					if(dojo.isIE && rtl && dir=="H"){ element._offsetStart[dir] += scrollBarSize; }
				}
			}
		}
	}

	var element = node;
	while(element != null){
		if(isFixedPosition(element)){ node.scrollIntoView(false); return; } //TODO: handle without native call
		addPseudoAttrs(element);
		element = element._parent;
	}
	if(dojo.isIE && node._parent){ // if no parent, then offsetParent._borderStart may not tbe set
		var offsetParent = node._offsetParent;
		//
		node._offsetStart.H += offsetParent._borderStart.H;
		node._offsetStart.V += offsetParent._borderStart.V;
	}
	if(dojo.isIE >= 7 && scrollRoot == html && rtl && body._offsetStart && body._offsetStart.H == 0){ // IE7 bug
		var scroll = html.scrollWidth - html._offsetSize.H;
		if(scroll > 0){
			//
			body._offsetStart.H = -scroll;
		}
	}
	if(dojo.isIE <= 6 && !compatMode){
		html._offsetSize.H += html._borderSize.H;
		html._offsetSize.V += html._borderSize.V;
	}
	// eliminate offsetLeft/Top oddities by tweaking scroll for ease of computation
	if(rtl && body._offsetStart && scrollRoot == html && html._scrolledAmount){
		var ofs = body._offsetStart.H;
		if(ofs < 0){
			html._scrolledAmount.H += ofs;
			body._offsetStart.H = 0;
		}
	}
	element = node;
	while(element){
		var parent = element._parent;
		if(!parent){ break; }
			//
			if(parent.tagName == "TD"){
				var table = parent._parent._parent._parent; // point to TABLE
				if(parent != element._offsetParent && parent._offsetParent != element._offsetParent){
					parent = table; // child of TD has the same offsetParent as TABLE, so skip TD, TR, and TBODY (ie. verticalslider)
				}
			}
			// check if this node and its parent share the same offsetParent
			var relative = element._offsetParent == parent;
			//
			for(var dir in element._offsetStart){ // for both x and y directions
				var otherDir = dir=="H"? "V" : "H";
				if(rtl && dir=="H" && (parent != html) && (parent != body) && (dojo.isIE || dojo.isWebKit) && parent._clientSize.H > 0 && parent.scrollWidth > parent._clientSize.H){ // scroll starts on the right
					var delta = parent.scrollWidth - parent._clientSize.H;
					//
					if(delta > 0){
						parent._scrolledAmount.H -= delta;
					} // match FF3 which has cool negative scrollLeft values
				}
				if(parent._offsetParent.tagName == "TABLE"){ // make it consistent
					if(dojo.isIE){ // make it consistent with Safari and FF3 and exclude the starting TABLE border of TABLE children
						parent._offsetStart[dir] -= parent._offsetParent._borderStart[dir];
						parent._borderStart[dir] = parent._borderSize[dir] = 0;
					}
					else{
						parent._offsetStart[dir] += parent._offsetParent._borderStart[dir];
					}
				}
				//if(dir==testdir)
				if(dojo.isIE){
					//if(dir==testdir)
					parent._offsetStart[dir] += parent._offsetParent._borderStart[dir];
				}
				//if(dir==testdir)
				// underflow = visible gap between parent and this node taking scrolling into account
				// if negative, part of the node is obscured by the parent's beginning and should be scrolled to become visible
				var underflow = element._offsetStart[dir] - parent._scrolledAmount[dir] - (relative? 0 : parent._offsetStart[dir]) - parent._borderStart[dir];
				// if overflow is positive, number of pixels obscured by the parent's end
				var overflow = underflow + element._offsetSize[dir] - parent._offsetSize[dir] + parent._borderSize[dir];
				//if(dir==testdir)
				var scrollAttr = (dir=="H")? "scrollLeft" : "scrollTop";
				// see if we should scroll forward or backward
				var reverse = dir=="H" && rtl; // flip everything
				var underflowScroll = reverse? -overflow : underflow;
				var overflowScroll = reverse? -underflow : overflow;
				// don't scroll if the over/underflow signs are opposite since that means that
				// the node extends beyond parent's boundary in both/neither directions
				var scrollAmount = (underflowScroll*overflowScroll <= 0)? 0 : Math[(underflowScroll < 0)? "max" : "min"](underflowScroll, overflowScroll);
				//if(dir==testdir)
				if(scrollAmount != 0){
					var oldScroll = parent[scrollAttr];
					parent[scrollAttr] += (reverse)? -scrollAmount : scrollAmount; // actually perform the scroll
					var scrolledAmount = parent[scrollAttr] - oldScroll; // in case the scroll failed
					//if(dir==testdir)
				}
				if(relative){
					element._offsetStart[dir] += parent._offsetStart[dir];
				}
				element._offsetStart[dir] -= parent[scrollAttr];
			}
			element._parent = parent._parent;
			element._offsetParent = parent._offsetParent;
	}
	parent = node;
	var next;
	while(parent && parent.removeAttribute){
		next = parent.parentNode;
		parent.removeAttribute('_offsetParent');
		parent.removeAttribute('_parent');
		parent = next;
	}
	}catch(error){
		console.error('scrollIntoView: ' + error);
		node.scrollIntoView(false);
	}
};

}

if(!dojo._hasResource["dijit._base.sniff"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code.
dojo._hasResource["dijit._base.sniff"] = true;
// summary:
//		Applies pre-set CSS classes to the top-level HTML node, based on:
// 			- browser (ex: dj_ie)
//			- browser version (ex: dj_ie6)
//			- box model (ex: dj_contentBox)
//			- text direction (ex: dijitRtl)
//
//		In addition, browser, browser version, and box model are
//		combined with an RTL flag when browser text is RTL.  ex: dj_ie-rtl.
//
//		Simply doing a require on this module will
//		establish this CSS.  Modified version of Morris' CSS hack.

dojo.provide("dijit._base.sniff");

(function(){
	
	var d = dojo,
		html = d.doc.documentElement,
		ie = d.isIE,
		opera = d.isOpera,
		maj = Math.floor,
		ff = d.isFF,
		boxModel = d.boxModel.replace(/-/,''),
		classes = {
			dj_ie: ie,
//			dj_ie55: ie == 5.5,
			dj_ie6: maj(ie) == 6,
			dj_ie7: maj(ie) == 7,
			dj_iequirks: ie && d.isQuirks,
			// NOTE: Opera not supported by dijit
			dj_opera: opera,
			dj_opera8: maj(opera) == 8,
			dj_opera9: maj(opera) == 9,
			dj_khtml: d.isKhtml,
			dj_webkit: d.isWebKit,
			dj_safari: d.isSafari,
			dj_gecko: d.isMozilla,
			dj_ff2: maj(ff) == 2,
			dj_ff3: maj(ff) == 3
		}; // no dojo unsupported browsers
		
	classes["dj_" + boxModel] = true;
	
	// apply browser, browser version, and box model class names
	for(var p in classes){
		if(classes[p]){
			if(html.className){
				html.className += " " + p;
			}else{
				html.className = p;
			}
		}
	}

	// If RTL mode then add dijitRtl flag plus repeat existing classes
	// with -rtl extension
	// (unshift is to make this code run after <body> node is loaded but before parser runs)
	dojo._loaders.unshift(function(){
		if(!dojo._isBodyLtr()){
			html.className += " dijitRtl";
			for(var p in classes){
				if(classes[p]){
					html.className += " " + p + "-rtl";
				}
			}
		}
	});
	
})();

}

if(!dojo._hasResource["dijit._base.typematic"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code.
dojo._hasResource["dijit._base.typematic"] = true;
dojo.provide("dijit._base.typematic");

dijit.typematic = {
	// summary:
	//		These functions are used to repetitively call a user specified callback
	//		method when a specific key or mouse click over a specific DOM node is
	//		held down for a specific amount of time.
	//		Only 1 such event is allowed to occur on the browser page at 1 time.

	_fireEventAndReload: function(){
		this._timer = null;
		this._callback(++this._count, this._node, this._evt);
		this._currentTimeout = (this._currentTimeout < 0) ? this._initialDelay : ((this._subsequentDelay > 1) ? this._subsequentDelay : Math.round(this._currentTimeout * this._subsequentDelay));
		this._timer = setTimeout(dojo.hitch(this, "_fireEventAndReload"), this._currentTimeout);
	},

	trigger: function(/*Event*/ evt, /* Object */ _this, /*DOMNode*/ node, /* Function */ callback, /* Object */ obj, /* Number */ subsequentDelay, /* Number */ initialDelay){
		// summary:
		//	    Start a timed, repeating callback sequence.
		//	    If already started, the function call is ignored.
		//	    This method is not normally called by the user but can be
		//	    when the normal listener code is insufficient.
		// evt:
		//		key or mouse event object to pass to the user callback
		// _this:
		//		pointer to the user's widget space.
		// node:
		//		the DOM node object to pass the the callback function
		// callback:
		//		function to call until the sequence is stopped called with 3 parameters:
		// count:
		//		integer representing number of repeated calls (0..n) with -1 indicating the iteration has stopped
		// node:
		//		the DOM node object passed in
		// evt:
		//		key or mouse event object
		// obj:
		//		user space object used to uniquely identify each typematic sequence
		// subsequentDelay:
		//		if > 1, the number of milliseconds until the 3->n events occur
		//		or else the fractional time multiplier for the next event's delay, default=0.9
		// initialDelay:
		//		the number of milliseconds until the 2nd event occurs, default=500ms
		if(obj != this._obj){
			this.stop();
			this._initialDelay = initialDelay || 500;
			this._subsequentDelay = subsequentDelay || 0.90;
			this._obj = obj;
			this._evt = evt;
			this._node = node;
			this._currentTimeout = -1;
			this._count = -1;
			this._callback = dojo.hitch(_this, callback);
			this._fireEventAndReload();
		}
	},

	stop: function(){
		// summary:
		//	  Stop an ongoing timed, repeating callback sequence.
		if(this._timer){
			clearTimeout(this._timer);
			this._timer = null;
		}
		if(this._obj){
			this._callback(-1, this._node, this._evt);
			this._obj = null;
		}
	},

	addKeyListener: function(/*DOMNode*/ node, /*Object*/ keyObject, /*Object*/ _this, /*Function*/ callback, /*Number*/ subsequentDelay, /*Number*/ initialDelay){
		// summary:
		//		Start listening for a specific typematic key.
		//		See also the trigger method for other parameters.
		// keyObject:
		//		an object defining the key to listen for.
		// charOrCode:
		//		the printable character (string) or keyCode (number) to listen for.
		// keyCode:
		//		(deprecated - use charOrCode) the keyCode (number) to listen for (implies charCode = 0).
		// charCode:
		//		(deprecated - use charOrCode) the charCode (number) to listen for.
		// ctrlKey:
		//		desired ctrl key state to initiate the calback sequence:
		//			- pressed (true)
		//			- released (false)
		//			- either (unspecified)
		// altKey:
		//		same as ctrlKey but for the alt key
		// shiftKey:
		//		same as ctrlKey but for the shift key
		// returns:
		//		an array of dojo.connect handles
		if(keyObject.keyCode){
			keyObject.charOrCode = keyObject.keyCode;
			dojo.deprecated("keyCode attribute parameter for dijit.typematic.addKeyListener is deprecated. Use charOrCode instead.", "", "2.0");
		}else if(keyObject.charCode){
			keyObject.charOrCode = String.fromCharCode(keyObject.charCode);
			dojo.deprecated("charCode attribute parameter for dijit.typematic.addKeyListener is deprecated. Use charOrCode instead.", "", "2.0");
		}
		return [
			dojo.connect(node, "onkeypress", this, function(evt){
				if(evt.charOrCode == keyObject.charOrCode &&
				(keyObject.ctrlKey === undefined || keyObject.ctrlKey == evt.ctrlKey) &&
				(keyObject.altKey === undefined || keyObject.altKey == evt.ctrlKey) &&
				(keyObject.shiftKey === undefined || keyObject.shiftKey == evt.ctrlKey)){
					dojo.stopEvent(evt);
					dijit.typematic.trigger(keyObject, _this, node, callback, keyObject, subsequentDelay, initialDelay);
				}else if(dijit.typematic._obj == keyObject){
					dijit.typematic.stop();
				}
			}),
			dojo.connect(node, "onkeyup", this, function(evt){
				if(dijit.typematic._obj == keyObject){
					dijit.typematic.stop();
				}
			})
		];
	},

	addMouseListener: function(/*DOMNode*/ node, /*Object*/ _this, /*Function*/ callback, /*Number*/ subsequentDelay, /*Number*/ initialDelay){
		// summary:
		//		Start listening for a typematic mouse click.
		//		See the trigger method for other parameters.
		// returns:
		//		an array of dojo.connect handles
		var dc = dojo.connect;
		return [
			dc(node, "mousedown", this, function(evt){
				dojo.stopEvent(evt);
				dijit.typematic.trigger(evt, _this, node, callback, node, subsequentDelay, initialDelay);
			}),
			dc(node, "mouseup", this, function(evt){
				dojo.stopEvent(evt);
				dijit.typematic.stop();
			}),
			dc(node, "mouseout", this, function(evt){
				dojo.stopEvent(evt);
				dijit.typematic.stop();
			}),
			dc(node, "mousemove", this, function(evt){
				dojo.stopEvent(evt);
			}),
			dc(node, "dblclick", this, function(evt){
				dojo.stopEvent(evt);
				if(dojo.isIE){
					dijit.typematic.trigger(evt, _this, node, callback, node, subsequentDelay, initialDelay);
					setTimeout(dojo.hitch(this, dijit.typematic.stop), 50);
				}
			})
		];
	},

	addListener: function(/*Node*/ mouseNode, /*Node*/ keyNode, /*Object*/ keyObject, /*Object*/ _this, /*Function*/ callback, /*Number*/ subsequentDelay, /*Number*/ initialDelay){
		// summary:
		//		Start listening for a specific typematic key and mouseclick.
		//		This is a thin wrapper to addKeyListener and addMouseListener.
		//		See the addMouseListener and addKeyListener methods for other parameters.
		// mouseNode:
		//		the DOM node object to listen on for mouse events.
		// keyNode:
		//		the DOM node object to listen on for key events.
		// returns:
		//		an array of dojo.connect handles
		return this.addKeyListener(keyNode, keyObject, _this, callback, subsequentDelay, initialDelay).concat(
			this.addMouseListener(mouseNode, _this, callback, subsequentDelay, initialDelay));
	}
};

}

if(!dojo._hasResource["dijit._base.wai"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code.
dojo._hasResource["dijit._base.wai"] = true;
dojo.provide("dijit._base.wai");

dijit.wai = {
	onload: function(){
		// summary:
		//		Detects if we are in high-contrast mode or not

		// This must be a named function and not an anonymous
		// function, so that the widget parsing code can make sure it
		// registers its onload function after this function.
		// DO NOT USE "this" within this function.

		// create div for testing if high contrast mode is on or images are turned off
		var div = dojo.create("div",{
			id: "a11yTestNode",
			style:{
				cssText:'border: 1px solid;'
					+ 'border-color:red green;'
					+ 'position: absolute;'
					+ 'height: 5px;'
					+ 'top: -999px;'
					+ 'background-image: url("' + (dojo.config.blankGif || dojo.moduleUrl("dojo", "resources/blank.gif")) + '");'
			}
		}, dojo.body());

		// test it
		var cs = dojo.getComputedStyle(div);
		if(cs){
			var bkImg = cs.backgroundImage;
			var needsA11y = (cs.borderTopColor==cs.borderRightColor) || (bkImg != null && (bkImg == "none" || bkImg == "url(invalid-url:)" ));
			dojo[needsA11y ? "addClass" : "removeClass"](dojo.body(), "dijit_a11y");
			if(dojo.isIE){
				div.outerHTML = "";		// prevent mixed-content warning, see http://support.microsoft.com/kb/925014
			}else{
				dojo.body().removeChild(div);
			}
		}
	}
};

// Test if computer is in high contrast mode.
// Make sure the a11y test runs first, before widgets are instantiated.
if(dojo.isIE || dojo.isMoz){	// NOTE: checking in Safari messes things up
	dojo._loaders.unshift(dijit.wai.onload);
}

dojo.mixin(dijit,
{
	_XhtmlRoles: /banner|contentinfo|definition|main|navigation|search|note|secondary|seealso/,

	hasWaiRole: function(/*Element*/ elem, /*String*/ role){
		// summary:
		//		Determines if an element has a particular non-XHTML role.
		// returns:
		//		True if elem has the specific non-XHTML role attribute and false if not.
		// 		For backwards compatibility if role parameter not provided, 
		// 		returns true if has non XHTML role 
		var waiRole = this.getWaiRole(elem);		
		return role ? (waiRole.indexOf(role) > -1) : (waiRole.length > 0);
	},

	getWaiRole: function(/*Element*/ elem){
		// summary:
		//		Gets the non-XHTML role for an element (which should be a wai role).
		// returns:
		//		The non-XHTML role of elem or an empty string if elem
		//		does not have a role.
		 return dojo.trim((dojo.attr(elem, "role") || "").replace(this._XhtmlRoles,"").replace("wairole:",""));
	},

	setWaiRole: function(/*Element*/ elem, /*String*/ role){
		// summary:
		//		Sets the role on an element.
		// description:
		//		In other than FF2 replace existing role attribute with new role.
		//		FF3 supports XHTML and ARIA roles so    
		//		if elem already has an XHTML role, append this role to XHTML role 
		//		and remove other ARIA roles.
		//		On Firefox 2 and below, "wairole:" is
		//		prepended to the provided role value.

		var curRole = dojo.attr(elem, "role") || "";
		if(dojo.isFF < 3 || !this._XhtmlRoles.test(curRole)){
			dojo.attr(elem, "role", dojo.isFF < 3 ? "wairole:" + role : role);
		}else{
			if((" "+ curRole +" ").indexOf(" " + role + " ") < 0){
				var clearXhtml = dojo.trim(curRole.replace(this._XhtmlRoles, ""));
				var cleanRole = dojo.trim(curRole.replace(clearXhtml, ""));	 
         		dojo.attr(elem, "role", cleanRole + (cleanRole ? ' ' : '') + role);
			}
		}
	},

	removeWaiRole: function(/*Element*/ elem, /*String*/ role){
		// summary:
		//		Removes the specified non-XHTML role from an element.
		// 		Removes role attribute if no specific role provided (for backwards compat.)

		var roleValue = dojo.attr(elem, "role"); 
		if(!roleValue){ return; }
		if(role){
			var searchRole = dojo.isFF < 3 ? "wairole:" + role : role;
			var t = dojo.trim((" " + roleValue + " ").replace(" " + searchRole + " ", " "));
			dojo.attr(elem, "role", t);
		}else{
			elem.removeAttribute("role");	
		}
	},

	hasWaiState: function(/*Element*/ elem, /*String*/ state){
		// summary:
		//		Determines if an element has a given state.
		// description:
		//		On Firefox 2 and below, we check for an attribute in namespace
		//		"http://www.w3.org/2005/07/aaa" with a name of the given state.
		//		On all other browsers, we check for an attribute
		//		called "aria-"+state.
		// returns:
		//		true if elem has a value for the given state and
		//		false if it does not.
		if(dojo.isFF < 3){
			return elem.hasAttributeNS("http://www.w3.org/2005/07/aaa", state);
		}
		return elem.hasAttribute ? elem.hasAttribute("aria-"+state) : !!elem.getAttribute("aria-"+state);
	},

	getWaiState: function(/*Element*/ elem, /*String*/ state){
		// summary:
		//		Gets the value of a state on an element.
		// description:
		//		On Firefox 2 and below, we check for an attribute in namespace
		//		"http://www.w3.org/2005/07/aaa" with a name of the given state.
		//		On all other browsers, we check for an attribute called
		//		"aria-"+state.
		// returns:
		//		The value of the requested state on elem
		//		or an empty string if elem has no value for state.
		if(dojo.isFF < 3){
			return elem.getAttributeNS("http://www.w3.org/2005/07/aaa", state);
		}
		return elem.getAttribute("aria-"+state) || "";
	},

	setWaiState: function(/*Element*/ elem, /*String*/ state, /*String*/ value){
		// summary:
		//		Sets a state on an element.
		// description:
		//		On Firefox 2 and below, we set an attribute in namespace
		//		"http://www.w3.org/2005/07/aaa" with a name of the given state.
		//		On all other browsers, we set an attribute called
		//		"aria-"+state.
		if(dojo.isFF < 3){
			elem.setAttributeNS("http://www.w3.org/2005/07/aaa",
				"aaa:"+state, value);
		}else{
			elem.setAttribute("aria-"+state, value);
		}
	},

	removeWaiState: function(/*Element*/ elem, /*String*/ state){
		// summary:
		//		Removes a state from an element.
		// description:
		//		On Firefox 2 and below, we remove the attribute in namespace
		//		"http://www.w3.org/2005/07/aaa" with a name of the given state.
		//		On all other browsers, we remove the attribute called
		//		"aria-"+state.
		if(dojo.isFF < 3){
			elem.removeAttributeNS("http://www.w3.org/2005/07/aaa", state);
		}else{
			elem.removeAttribute("aria-"+state);
		}
	}
});

}

if(!dojo._hasResource["dijit._base"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code.
dojo._hasResource["dijit._base"] = true;
dojo.provide("dijit._base");











}

if(!dojo._hasResource["dojo.date.stamp"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code.
dojo._hasResource["dojo.date.stamp"] = true;
dojo.provide("dojo.date.stamp");

// Methods to convert dates to or from a wire (string) format using well-known conventions

dojo.date.stamp.fromISOString = function(/*String*/formattedString, /*Number?*/defaultTime){
	//	summary:
	//		Returns a Date object given a string formatted according to a subset of the ISO-8601 standard.
	//
	//	description:
	//		Accepts a string formatted according to a profile of ISO8601 as defined by
	//		[RFC3339](http://www.ietf.org/rfc/rfc3339.txt), except that partial input is allowed.
	//		Can also process dates as specified [by the W3C](http://www.w3.org/TR/NOTE-datetime)
	//		The following combinations are valid:
	//
	//			* dates only
	//			|	* yyyy
	//			|	* yyyy-MM
	//			|	* yyyy-MM-dd
	// 			* times only, with an optional time zone appended
	//			|	* THH:mm
	//			|	* THH:mm:ss
	//			|	* THH:mm:ss.SSS
	// 			* and "datetimes" which could be any combination of the above
	//
	//		timezones may be specified as Z (for UTC) or +/- followed by a time expression HH:mm
	//		Assumes the local time zone if not specified.  Does not validate.  Improperly formatted
	//		input may return null.  Arguments which are out of bounds will be handled
	// 		by the Date constructor (e.g. January 32nd typically gets resolved to February 1st)
	//		Only years between 100 and 9999 are supported.
	//
  	//	formattedString:
	//		A string such as 2005-06-30T08:05:00-07:00 or 2005-06-30 or T08:05:00
	//
	//	defaultTime:
	//		Used for defaults for fields omitted in the formattedString.
	//		Uses 1970-01-01T00:00:00.0Z by default.

	if(!dojo.date.stamp._isoRegExp){
		dojo.date.stamp._isoRegExp =
//TODO: could be more restrictive and check for 00-59, etc.
			/^(?:(\d{4})(?:-(\d{2})(?:-(\d{2}))?)?)?(?:T(\d{2}):(\d{2})(?::(\d{2})(.\d+)?)?((?:[+-](\d{2}):(\d{2}))|Z)?)?$/;
	}

	var match = dojo.date.stamp._isoRegExp.exec(formattedString);
	var result = null;

	if(match){
		match.shift();
		if(match[1]){match[1]--;} // Javascript Date months are 0-based
		if(match[6]){match[6] *= 1000;} // Javascript Date expects fractional seconds as milliseconds

		if(defaultTime){
			// mix in defaultTime.  Relatively expensive, so use || operators for the fast path of defaultTime === 0
			defaultTime = new Date(defaultTime);
			dojo.map(["FullYear", "Month", "Date", "Hours", "Minutes", "Seconds", "Milliseconds"], function(prop){
				return defaultTime["get" + prop]();
			}).forEach(function(value, index){
				if(match[index] === undefined){
					match[index] = value;
				}
			});
		}
		result = new Date(match[0]||1970, match[1]||0, match[2]||1, match[3]||0, match[4]||0, match[5]||0, match[6]||0);
//		result.setFullYear(match[0]||1970); // for year < 100

		var offset = 0;
		var zoneSign = match[7] && match[7].charAt(0);
		if(zoneSign != 'Z'){
			offset = ((match[8] || 0) * 60) + (Number(match[9]) || 0);
			if(zoneSign != '-'){ offset *= -1; }
		}
		if(zoneSign){
			offset -= result.getTimezoneOffset();
		}
		if(offset){
			result.setTime(result.getTime() + offset * 60000);
		}
	}

	return result; // Date or null
}

/*=====
	dojo.date.stamp.__Options = function(){
		//	selector: String
		//		"date" or "time" for partial formatting of the Date object.
		//		Both date and time will be formatted by default.
		//	zulu: Boolean
		//		if true, UTC/GMT is used for a timezone
		//	milliseconds: Boolean
		//		if true, output milliseconds
		this.selector = selector;
		this.zulu = zulu;
		this.milliseconds = milliseconds;
	}
=====*/

dojo.date.stamp.toISOString = function(/*Date*/dateObject, /*dojo.date.stamp.__Options?*/options){
	//	summary:
	//		Format a Date object as a string according a subset of the ISO-8601 standard
	//
	//	description:
	//		When options.selector is omitted, output follows [RFC3339](http://www.ietf.org/rfc/rfc3339.txt)
	//		The local time zone is included as an offset from GMT, except when selector=='time' (time without a date)
	//		Does not check bounds.  Only years between 100 and 9999 are supported.
	//
	//	dateObject:
	//		A Date object

	var _ = function(n){ return (n < 10) ? "0" + n : n; };
	options = options || {};
	var formattedDate = [];
	var getter = options.zulu ? "getUTC" : "get";
	var date = "";
	if(options.selector != "time"){
		var year = dateObject[getter+"FullYear"]();
		date = ["0000".substr((year+"").length)+year, _(dateObject[getter+"Month"]()+1), _(dateObject[getter+"Date"]())].join('-');
	}
	formattedDate.push(date);
	if(options.selector != "date"){
		var time = [_(dateObject[getter+"Hours"]()), _(dateObject[getter+"Minutes"]()), _(dateObject[getter+"Seconds"]())].join(':');
		var millis = dateObject[getter+"Milliseconds"]();
		if(options.milliseconds){
			time += "."+ (millis < 100 ? "0" : "") + _(millis);
		}
		if(options.zulu){
			time += "Z";
		}else if(options.selector != "time"){
			var timezoneOffset = dateObject.getTimezoneOffset();
			var absOffset = Math.abs(timezoneOffset);
			time += (timezoneOffset > 0 ? "-" : "+") + 
				_(Math.floor(absOffset/60)) + ":" + _(absOffset%60);
		}
		formattedDate.push(time);
	}
	return formattedDate.join('T'); // String
}

}

if(!dojo._hasResource["dojo.parser"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code.
dojo._hasResource["dojo.parser"] = true;
dojo.provide("dojo.parser");


dojo.parser = new function(){
	// summary: The Dom/Widget parsing package

	var d = dojo;
	var dtName = d._scopeName + "Type";
	var qry = "[" + dtName + "]";

	var _anonCtr = 0, _anon = {};
	var nameAnonFunc = function(/*Function*/anonFuncPtr, /*Object*/thisObj){
		// summary:
		//		Creates a reference to anonFuncPtr in thisObj with a completely
		//		unique name. The new name is returned as a String. 
		var nso = thisObj || _anon;
		if(dojo.isIE){
			var cn = anonFuncPtr["__dojoNameCache"];
			if(cn && nso[cn] === anonFuncPtr){
				return cn;
			}
		}
		var name;
		do{
			name = "__" + _anonCtr++;
		}while(name in nso)
		nso[name] = anonFuncPtr;
		return name; // String
	}

	function val2type(/*Object*/ value){
		// summary:
		//		Returns name of type of given value.

		if(d.isString(value)){ return "string"; }
		if(typeof value == "number"){ return "number"; }
		if(typeof value == "boolean"){ return "boolean"; }
		if(d.isFunction(value)){ return "function"; }
		if(d.isArray(value)){ return "array"; } // typeof [] == "object"
		if(value instanceof Date) { return "date"; } // assume timestamp
		if(value instanceof d._Url){ return "url"; }
		return "object";
	}

	function str2obj(/*String*/ value, /*String*/ type){
		// summary:
		//		Convert given string value to given type
		switch(type){
			case "string":
				return value;
			case "number":
				return value.length ? Number(value) : NaN;
			case "boolean":
				// for checked/disabled value might be "" or "checked".  interpret as true.
				return typeof value == "boolean" ? value : !(value.toLowerCase()=="false");
			case "function":
				if(d.isFunction(value)){
					// IE gives us a function, even when we say something like onClick="foo"
					// (in which case it gives us an invalid function "function(){ foo }"). 
					//  Therefore, convert to string
					value=value.toString();
					value=d.trim(value.substring(value.indexOf('{')+1, value.length-1));
				}
				try{
					if(value.search(/[^\w\.]+/i) != -1){
						// TODO: "this" here won't work
						value = nameAnonFunc(new Function(value), this);
					}
					return d.getObject(value, false);
				}catch(e){ return new Function(); }
			case "array":
				return value ? value.split(/\s*,\s*/) : [];
			case "date":
				switch(value){
					case "": return new Date("");	// the NaN of dates
					case "now": return new Date();	// current date
					default: return d.date.stamp.fromISOString(value);
				}
			case "url":
				return d.baseUrl + value;
			default:
				return d.fromJson(value);
		}
	}

	var instanceClasses = {
		// map from fully qualified name (like "dijit.Button") to structure like
		// { cls: dijit.Button, params: {label: "string", disabled: "boolean"} }
	};
	
	function getClassInfo(/*String*/ className){
		// className:
		//		fully qualified name (like "dijit.form.Button")
		// returns:
		//		structure like
		//			{ 
		//				cls: dijit.Button, 
		//				params: { label: "string", disabled: "boolean"}
		//			}

		if(!instanceClasses[className]){
			// get pointer to widget class
			var cls = d.getObject(className);
			if(!d.isFunction(cls)){
				throw new Error("Could not load class '" + className +
					"'. Did you spell the name correctly and use a full path, like 'dijit.form.Button'?");
			}
			var proto = cls.prototype;
	
			// get table of parameter names & types
			var params = {}, dummyClass = {};
			for(var name in proto){
				if(name.charAt(0)=="_"){ continue; } 	// skip internal properties
				if(name in dummyClass){ continue; }		// skip "constructor" and "toString"
				var defVal = proto[name];
				params[name]=val2type(defVal);
			}

			instanceClasses[className] = { cls: cls, params: params };
		}
		return instanceClasses[className];
	}

	this._functionFromScript = function(script){
		var preamble = "";
		var suffix = "";
		var argsStr = script.getAttribute("args");
		if(argsStr){
			d.forEach(argsStr.split(/\s*,\s*/), function(part, idx){
				preamble += "var "+part+" = arguments["+idx+"]; ";
			});
		}
		var withStr = script.getAttribute("with");
		if(withStr && withStr.length){
			d.forEach(withStr.split(/\s*,\s*/), function(part){
				preamble += "with("+part+"){";
				suffix += "}";
			});
		}
		return new Function(preamble+script.innerHTML+suffix);
	}

	this.instantiate = function(/* Array */nodes, /* Object? */mixin){
		// summary:
		//		Takes array of nodes, and turns them into class instances and
		//		potentially calls a layout method to allow them to connect with
		//		any children		
		// mixin: Object
		//		An object that will be mixed in with each node in the array.
		//		Values in the mixin will override values in the node, if they
		//		exist.
		var thelist = [];
		mixin = mixin||{};
		d.forEach(nodes, function(node){
			if(!node){ return; }
			var type = dtName in mixin?mixin[dtName]:node.getAttribute(dtName);
			if(!type || !type.length){ return; }
			var clsInfo = getClassInfo(type),
				clazz = clsInfo.cls,
				ps = clazz._noScript || clazz.prototype._noScript;

			// read parameters (ie, attributes).
			// clsInfo.params lists expected params like {"checked": "boolean", "n": "number"}
			var params = {},
				attributes = node.attributes;
			for(var name in clsInfo.params){
				var item = name in mixin?{value:mixin[name],specified:true}:attributes.getNamedItem(name);
				if(!item || (!item.specified && (!dojo.isIE || name.toLowerCase()!="value"))){ continue; }
				var value = item.value;
				// Deal with IE quirks for 'class' and 'style'
				switch(name){
				case "class":
					value = "className" in mixin?mixin.className:node.className;
					break;
				case "style":
					value = "style" in mixin?mixin.style:(node.style && node.style.cssText); // FIXME: Opera?
				}
				var _type = clsInfo.params[name];
				if(typeof value == "string"){
					params[name] = str2obj(value, _type);
				}else{
					params[name] = value;
				}
			}

			// Process <script type="dojo/*"> script tags
			// <script type="dojo/method" event="foo"> tags are added to params, and passed to
			// the widget on instantiation.
			// <script type="dojo/method"> tags (with no event) are executed after instantiation
			// <script type="dojo/connect" event="foo"> tags are dojo.connected after instantiation
			// note: dojo/* script tags cannot exist in self closing widgets, like <input />
			if(!ps){
				var connects = [],	// functions to connect after instantiation
					calls = [];		// functions to call after instantiation

				d.query("> script[type^='dojo/']", node).orphan().forEach(function(script){
					var event = script.getAttribute("event"),
						type = script.getAttribute("type"),
						nf = d.parser._functionFromScript(script);
					if(event){
						if(type == "dojo/connect"){
							connects.push({event: event, func: nf});
						}else{
							params[event] = nf;
						}
					}else{
						calls.push(nf);
					}
				});
			}

			var markupFactory = clazz["markupFactory"];
			if(!markupFactory && clazz["prototype"]){
				markupFactory = clazz.prototype["markupFactory"];
			}
			// create the instance
			var instance = markupFactory ? markupFactory(params, node, clazz) : new clazz(params, node);
			thelist.push(instance);

			// map it to the JS namespace if that makes sense
			var jsname = node.getAttribute("jsId");
			if(jsname){
				d.setObject(jsname, instance);
			}

			// process connections and startup functions
			if(!ps){
				d.forEach(connects, function(connect){
					d.connect(instance, connect.event, null, connect.func);
				});
				d.forEach(calls, function(func){
					func.call(instance);
				});
			}
		});

		// Call startup on each top level instance if it makes sense (as for
		// widgets).  Parent widgets will recursively call startup on their
		// (non-top level) children
		d.forEach(thelist, function(instance){
			if(	instance  && 
				instance.startup &&
				!instance._started && 
				(!instance.getParent || !instance.getParent())
			){
				instance.startup();
			}
		});
		return thelist;
	};

	this.parse = function(/*DomNode?*/ rootNode){
		// summary:
		//		Search specified node (or root node) recursively for class instances,
		//		and instantiate them Searches for
		//		dojoType="qualified.class.name"
		var list = d.query(qry, rootNode);
		// go build the object instances
		var instances = this.instantiate(list);
		return instances;
	};
}();

//Register the parser callback. It should be the first callback
//after the a11y test.

(function(){
	var parseRunner = function(){ 
		if(dojo.config["parseOnLoad"] == true){
			dojo.parser.parse(); 
		}
	};

	// FIXME: need to clobber cross-dependency!!
	if(dojo.exists("dijit.wai.onload") && (dijit.wai.onload === dojo._loaders[0])){
		dojo._loaders.splice(1, 0, parseRunner);
	}else{
		dojo._loaders.unshift(parseRunner);
	}
})();

}

if(!dojo._hasResource["dijit._Widget"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code.
dojo._hasResource["dijit._Widget"] = true;
dojo.provide("dijit._Widget");

dojo.require( "dijit._base" );

dojo.connect(dojo, "connect", 
	function(/*Widget*/ widget, /*String*/ event){
		if(widget && dojo.isFunction(widget._onConnect)){
			widget._onConnect(event);
		}
	});

dijit._connectOnUseEventHandler = function(/*Event*/ event){};

(function(){

var _attrReg = {};
var getAttrReg = function(dc){
	if(!_attrReg[dc]){
		var r = [];
		var attrs;
		var proto = dojo.getObject(dc).prototype;
		for(var fxName in proto){
			if(dojo.isFunction(proto[fxName]) && (attrs = fxName.match(/^_set([a-zA-Z]*)Attr$/)) && attrs[1]){
				r.push(attrs[1].charAt(0).toLowerCase() + attrs[1].substr(1));
			}
		}
		_attrReg[dc] = r;
	}
	return _attrReg[dc]||[];
}

dojo.declare("dijit._Widget", null, {
	// summary:
	//		Base class for all dijit widgets. 	

	// id: [const] String
	//		A unique, opaque ID string that can be assigned by users or by the
	//		system. If the developer passes an ID which is known not to be
	//		unique, the specified ID is ignored and the system-generated ID is
	//		used instead.
	id: "",

	// lang: [const] String
	//		Rarely used.  Overrides the default Dojo locale used to render this widget,
	//		as defined by the [HTML LANG](http://www.w3.org/TR/html401/struct/dirlang.html#adef-lang) attribute.
	//		Value must be among the list of locales specified during by the Dojo bootstrap,
	//		formatted according to [RFC 3066](http://www.ietf.org/rfc/rfc3066.txt) (like en-us).
	lang: "",

	// dir: [const] String
	//		Unsupported by Dijit, but here for completeness.  Dijit only supports setting text direction on the
	//		entire document.
	//		Bi-directional support, as defined by the [HTML DIR](http://www.w3.org/TR/html401/struct/dirlang.html#adef-dir)
	//		attribute. Either left-to-right "ltr" or right-to-left "rtl".
	dir: "",

	// class: String
	//		HTML class attribute
	"class": "",

	// style: String||Object
	//		HTML style attributes as cssText string or name/value hash
	style: "",

	// title: String
	//		HTML title attribute, used to specify the title of tabs, accordion panes, etc.
	title: "",

	// srcNodeRef: [readonly] DomNode
	//		pointer to original dom node
	srcNodeRef: null,

	// domNode: [readonly] DomNode
	//		This is our visible representation of the widget! Other DOM
	//		Nodes may by assigned to other properties, usually through the
	//		template system's dojoAttachPoint syntax, but the domNode
	//		property is the canonical "top level" node in widget UI.
	domNode: null,

	// containerNode: [readonly] DomNode
	//		Designates where children of the source dom node will be placed.
	//		"Children" in this case refers to both dom nodes and widgets.
	//		For example, for myWidget:
	//
	//		|	<div dojoType=myWidget>
	//		|		<b> here's a plain dom node
	//		|		<span dojoType=subWidget>and a widget</span>
	//		|		<i> and another plain dom node </i>
	//		|	</div>
	//
	//		containerNode would point to:
	//
	//		|		<b> here's a plain dom node
	//		|		<span dojoType=subWidget>and a widget</span>
	//		|		<i> and another plain dom node </i>
	//
	//		In templated widgets, "containerNode" is set via a
	//		dojoAttachPoint assignment.
	//
	//		containerNode must be defined for any widget that accepts innerHTML
	//		(like ContentPane or BorderContainer or even Button), and conversely
	//		is null for widgets that don't, like TextBox.
	containerNode: null,

	// attributeMap: [protected] Object
	//		attributeMap sets up a "binding" between attributes (aka properties)
	//		of the widget and the widget's DOM.
	//		Changes to widget attributes listed in attributeMap will be 
	//		reflected into the DOM.
	//
	//		For example, calling attr('title', 'hello')
	//		on a TitlePane will automatically cause the TitlePane's DOM to update
	//		with the new title.
	//
	//		attributeMap is a hash where the key is an attribute of the widget,
	//		and the value reflects a binding to a:
	//
	//		- DOM node attribute
	// |		focus: {node: "focusNode", type: "attribute"}
	// 		Maps this.focus to this.focusNode.focus
	//
	//		- DOM node innerHTML
	//	|		title: { node: "titleNode", type: "innerHTML" }
	//		Maps this.title to this.titleNode.innerHTML
	//
	//		- DOM node CSS class
	// |		myClass: { node: "domNode", type: "class" }
	//		Maps this.myClass to this.domNode.className
	//
	//		If the value is an array, then each element in the array matches one of the
	//		formats of the above list.
	//
	//		There are also some shorthands for backwards compatibility:
	//		- string --> { node: string, type: "attribute" }, for example:
	//	|	"focusNode" ---> { node: "focusNode", type: "attribute" }
	//		- "" --> { node: "domNode", type: "attribute" }
	attributeMap: {id:"", dir:"", lang:"", "class":"", style:"", title:""},

	// _deferredConnects: [protected] Object
	//		attributeMap addendum for event handlers that should be connected only on first use
	_deferredConnects: {
		onClick: "",
		onDblClick: "",
		onKeyDown: "",
		onKeyPress: "",
		onKeyUp: "",
		onMouseMove: "",
		onMouseDown: "",
		onMouseOut: "",
		onMouseOver: "",
		onMouseLeave: "",
		onMouseEnter: "",
		onMouseUp: ""},

	onClick: dijit._connectOnUseEventHandler,
	/*=====
	onClick: function(event){
		// summary: 
		//		Connect to this function to receive notifications of mouse click events.
		// event:
		//		mouse Event
		// tags:
		//		callback
	},
	=====*/
	onDblClick: dijit._connectOnUseEventHandler,
	/*=====
	onDblClick: function(event){
		// summary: 
		//		Connect to this function to receive notifications of mouse double click events.
		// event:
		//		mouse Event
		// tags:
		//		callback
	},
	=====*/
	onKeyDown: dijit._connectOnUseEventHandler,
	/*=====
	onKeyDown: function(event){
		// summary: 
		//		Connect to this function to receive notifications of keys being pressed down.
		// event:
		//		key Event
		// tags:
		//		callback
	},
	=====*/
	onKeyPress: dijit._connectOnUseEventHandler,
	/*=====
	onKeyPress: function(event){
		// summary: 
		//		Connect to this function to receive notifications of printable keys being typed.
		// event:
		//		key Event
		// tags:
		//		callback
	},
	=====*/
	onKeyUp: dijit._connectOnUseEventHandler,
	/*=====
	onKeyUp: function(event){
		// summary: 
		//		Connect to this function to receive notifications of keys being released.
		// event:
		//		key Event
		// tags:
		//		callback
	},
	=====*/
	onMouseDown: dijit._connectOnUseEventHandler,
	/*=====
	onMouseDown: function(event){
		// summary: 
		//		Connect to this function to receive notifications of when the mouse button is pressed down.
		// event:
		//		mouse Event
		// tags:
		//		callback
	},
	=====*/
	onMouseMove: dijit._connectOnUseEventHandler,
	/*=====
	onMouseMove: function(event){
		// summary: 
		//		Connect to this function to receive notifications of when the mouse moves over nodes contained within this widget.
		// event:
		//		mouse Event
		// tags:
		//		callback
	},
	=====*/
	onMouseOut: dijit._connectOnUseEventHandler,
	/*=====
	onMouseOut: function(event){
		// summary: 
		//		Connect to this function to receive notifications of when the mouse moves off of nodes contained within this widget.
		// event:
		//		mouse Event
		// tags:
		//		callback
	},
	=====*/
	onMouseOver: dijit._connectOnUseEventHandler,
	/*=====
	onMouseOver: function(event){
		// summary: 
		//		Connect to this function to receive notifications of when the mouse moves onto nodes contained within this widget.
		// event:
		//		mouse Event
		// tags:
		//		callback
	},
	=====*/
	onMouseLeave: dijit._connectOnUseEventHandler,
	/*=====
	onMouseLeave: function(event){
		// summary: 
		//		Connect to this function to receive notifications of when the mouse moves off of this widget.
		// event:
		//		mouse Event
		// tags:
		//		callback
	},
	=====*/
	onMouseEnter: dijit._connectOnUseEventHandler,
	/*=====
	onMouseEnter: function(event){
		// summary: 
		//		Connect to this function to receive notifications of when the mouse moves onto this widget.
		// event:
		//		mouse Event
		// tags:
		//		callback
	},
	=====*/
	onMouseUp: dijit._connectOnUseEventHandler,
	/*=====
	onMouseUp: function(event){
		// summary: 
		//		Connect to this function to receive notifications of when the mouse button is released.
		// event:
		//		mouse Event
		// tags:
		//		callback
	},
	=====*/

	// Constants used in templates
	
	// _blankGif: [protected] URL
	//		Used by <img> nodes in templates that really get there image via CSS background-image
	_blankGif: (dojo.config.blankGif || dojo.moduleUrl("dojo", "resources/blank.gif")),

	//////////// INITIALIZATION METHODS ///////////////////////////////////////

	postscript: function(/*Object?*/params, /*DomNode|String*/srcNodeRef){
		// summary:
		//		Kicks off widget instantiation.  See create() for details.
		// tags:
		//		private
		this.create(params, srcNodeRef);
	},

	create: function(/*Object?*/params, /*DomNode|String?*/srcNodeRef){
		// summary:
		//		Kick off the life-cycle of a widget
		// params:
		//		Hash of initialization parameters for widget, including
		//		scalar values (like title, duration etc.) and functions,
		//		typically callbacks like onClick.
		// srcNodeRef:
		//		If a srcNodeRef (dom node) is specified:
		//			- use srcNodeRef.innerHTML as my contents
		//			- if this is a behavioral widget then apply behavior
		//			  to that srcNodeRef 
		//			- otherwise, replace srcNodeRef with my generated DOM
		//			  tree
		// description:
		//		To understand the process by which widgets are instantiated, it
		//		is critical to understand what other methods create calls and
		//		which of them you'll want to override. Of course, adventurous
		//		developers could override create entirely, but this should
		//		only be done as a last resort.
		//
		//		Below is a list of the methods that are called, in the order
		//		they are fired, along with notes about what they do and if/when
		//		you should over-ride them in your widget:
		//
		// * postMixInProperties:
		//	|	* a stub function that you can over-ride to modify
		//		variables that may have been naively assigned by
		//		mixInProperties
		// * widget is added to manager object here
		// * buildRendering:
		//	|	* Subclasses use this method to handle all UI initialization
		//		Sets this.domNode.  Templated widgets do this automatically
		//		and otherwise it just uses the source dom node.
		// * postCreate:
		//	|	* a stub function that you can over-ride to modify take
		//		actions once the widget has been placed in the UI
		// tags:
		//		private

		// store pointer to original dom tree
		this.srcNodeRef = dojo.byId(srcNodeRef);

		// For garbage collection.  An array of handles returned by Widget.connect()
		// Each handle returned from Widget.connect() is an array of handles from dojo.connect()
		this._connects = [];

		// To avoid double-connects, remove entries from _deferredConnects
		// that have been setup manually by a subclass (ex, by dojoAttachEvent).
		// If a subclass has redefined a callback (ex: onClick) then assume it's being
		// connected to manually.
		this._deferredConnects = dojo.clone(this._deferredConnects);
		for(var attr in this.attributeMap){
			delete this._deferredConnects[attr]; // can't be in both attributeMap and _deferredConnects
		}
		for(attr in this._deferredConnects){
			if(this[attr] !== dijit._connectOnUseEventHandler){
				delete this._deferredConnects[attr];	// redefined, probably dojoAttachEvent exists
			}
		}

		//mixin our passed parameters
		if(this.srcNodeRef && (typeof this.srcNodeRef.id == "string")){ this.id = this.srcNodeRef.id; }
		if(params){
			this.params = params;
			dojo.mixin(this,params);
		}
		this.postMixInProperties();

		// generate an id for the widget if one wasn't specified
		// (be sure to do this before buildRendering() because that function might
		// expect the id to be there.)
		if(!this.id){
			this.id = dijit.getUniqueId(this.declaredClass.replace(/\./g,"_"));
		}
		dijit.registry.add(this);

		this.buildRendering();

		if(this.domNode){
			// Copy attributes listed in attributeMap into the [newly created] DOM for the widget.
			this._applyAttributes();

			var source = this.srcNodeRef;
			if(source && source.parentNode){
				source.parentNode.replaceChild(this.domNode, source);
			}

			// If the developer has specified a handler as a widget parameter
			// (ex: new Button({onClick: ...})
			// then naturally need to connect from dom node to that handler immediately, 
			for(attr in this.params){
				this._onConnect(attr);
			}
		}
		
		if(this.domNode){
			this.domNode.setAttribute("widgetId", this.id);
		}
		this.postCreate();

		// If srcNodeRef has been processed and removed from the DOM (e.g. TemplatedWidget) then delete it to allow GC.
		if(this.srcNodeRef && !this.srcNodeRef.parentNode){
			delete this.srcNodeRef;
		}	

		this._created = true;
	},

	_applyAttributes: function(){
		// summary:
		//		Step during widget creation to copy all widget attributes to the
		//		DOM as per attributeMap and _setXXXAttr functions.
		// description:
		//		Skips over blank/false attribute values, unless they were explicitly specified
		//		as parameters to the widget, since those are the default anyway,
		//		and setting tabIndex="" is different than not setting tabIndex at all.
		//
		//		It processes the attributes in the attribute map first, and then
		//		it goes through and processes the attributes for the _setXXXAttr
		//		functions that have been specified
		// tags:
		//		private
		var condAttrApply = function(attr, scope){
			if( (scope.params && attr in scope.params) || scope[attr]){
				scope.attr(attr, scope[attr]);
			}
		};
		for(var attr in this.attributeMap){
			condAttrApply(attr, this);
		}
		dojo.forEach(getAttrReg(this.declaredClass), function(a){
			if(!(a in this.attributeMap)){
				condAttrApply(a, this);
			}
		}, this);
	},

	postMixInProperties: function(){
		// summary:
		//		Called after the parameters to the widget have been read-in,
		//		but before the widget template is instantiated. Especially
		//		useful to set properties that are referenced in the widget
		//		template.
		// tags:
		//		protected
	},

	buildRendering: function(){
		// summary:
		//		Construct the UI for this widget, setting this.domNode.  Most
		//		widgets will mixin `dijit._Templated`, which implements this
		//		method.
		// tags:
		//		protected
		this.domNode = this.srcNodeRef || dojo.create('div');
	},

	postCreate: function(){
		// summary:
		//		Called after a widget's dom has been setup
		// tags:
		//		protected
	},

	startup: function(){
		// summary:
		//		Called after a widget's children, and other widgets on the page, have been created.
		//		Provides an opportunity to manipulate any children before they are displayed.
		//		This is useful for composite widgets that need to control or layout sub-widgets.
		//		Many layout widgets can use this as a wiring phase.
		this._started = true;
	},

	//////////// DESTROY FUNCTIONS ////////////////////////////////

	destroyRecursive: function(/*Boolean?*/ preserveDom){
		// summary:
		// 		Destroy this widget and it's descendants. This is the generic
		// 		"destructor" function that all widget users should call to
		// 		cleanly discard with a widget. Once a widget is destroyed, it's
		// 		removed from the manager object.
		// preserveDom:
		//		If true, this method will leave the original Dom structure
		//		alone of descendant Widgets. Note: This will NOT work with
		//		dijit._Templated widgets.

		this.destroyDescendants(preserveDom);
		this.destroy(preserveDom);
	},

	destroy: function(/*Boolean*/ preserveDom){
		// summary:
		// 		Destroy this widget, but not its descendants.
		//		Will, however, destroy internal widgets such as those used within a template.
		// preserveDom: Boolean
		//		If true, this method will leave the original Dom structure alone.
		//		Note: This will not yet work with _Templated widgets

		this.uninitialize();
		dojo.forEach(this._connects, function(array){
			dojo.forEach(array, dojo.disconnect);
		});

		// destroy widgets created as part of template, etc.
		dojo.forEach(this._supportingWidgets||[], function(w){ 
			if(w.destroy){
				w.destroy();
			}
		});
		
		this.destroyRendering(preserveDom);
		dijit.registry.remove(this.id);
	},

	destroyRendering: function(/*Boolean?*/ preserveDom){
		// summary:
		//		Destroys the DOM nodes associated with this widget
		// preserveDom:
		//		If true, this method will leave the original Dom structure alone
		//		during tear-down. Note: this will not work with _Templated
		//		widgets yet. 
		// tags:
		//		protected

		if(this.bgIframe){
			this.bgIframe.destroy(preserveDom);
			delete this.bgIframe;
		}

		if(this.domNode){
			if(preserveDom){
				dojo.removeAttr(this.domNode, "widgetId");
			}else{
				dojo.destroy(this.domNode);
			}
			delete this.domNode;
		}

		if(this.srcNodeRef){
			if(!preserveDom){
				dojo.destroy(this.srcNodeRef);
			}
			delete this.srcNodeRef;
		}
	},

	destroyDescendants: function(/*Boolean?*/ preserveDom){
		// summary:
		//		Recursively destroy the children of this widget and their
		//		descendants.
		// preserveDom:
		//		If true, the preserveDom attribute is passed to all descendant
		//		widget's .destroy() method. Not for use with _Templated
		//		widgets.

		// get all direct descendants and destroy them recursively
		dojo.forEach(this.getChildren(), function(widget){ 
			if(widget.destroyRecursive){
				widget.destroyRecursive(preserveDom);
			}
		});
	},


	uninitialize: function(){
		// summary:
		//		Stub function. Override to implement custom widget tear-down
		//		behavior.
		// tags:
		//		protected
		return false;
	},

	////////////////// MISCELLANEOUS METHODS ///////////////////

	onFocus: function(){
		// summary:
		//		Called when the widget becomes "active" because
		//		it or a widget inside of it either has focus, or has recently
		//		been clicked.
		// tags:
		//		callback
	},

	onBlur: function(){
		// summary:
		//		Called when the widget stops being "active" because
		//		focus moved to something outside of it, or the user
		//		clicked somewhere outside of it, or the widget was
		//		hidden.
		// tags:
		//		callback
	},

	_onFocus: function(e){
		// summary:
		//		This is where widgets do processing for when they are active,
		//		such as changing CSS classes.  See onFocus() for more details.
		// tags:
		//		protected
		this.onFocus();
	},

	_onBlur: function(){
		// summary:
		//		This is where widgets do processing for when they stop being active,
		//		such as changing CSS classes.  See onBlur() for more details.
		// tags:
		//		protected
		this.onBlur();
	},

	_onConnect: function(/*String*/ event){
		// summary:
		//		Called when someone connects to one of my handlers.
		//		"Turn on" that handler if it isn't active yet.
		//
		//		This is also called for every single initialization parameter
		//		so need to do nothing for parameters like "id".
		// tags:
		//		private
		if(event in this._deferredConnects){
			var mapNode = this[this._deferredConnects[event]||'domNode'];
			this.connect(mapNode, event.toLowerCase(), event);
			delete this._deferredConnects[event];
		}
	},

	_setClassAttr: function(/*String*/ value){
		// summary:
		//		Custom setter for the CSS "class" attribute
		// tags:
		//		protected
		var mapNode = this[this.attributeMap["class"]||'domNode'];
		dojo.removeClass(mapNode, this["class"])
		this["class"] = value;
		dojo.addClass(mapNode, value);
	},

	_setStyleAttr: function(/*String||Object*/ value){
		// summary:
		//		Sets the style attribut of the widget according to value,
		//		which is either a hash like {height: "5px", width: "3px"}
		//		or a plain string
		// description:
		//		Determines which node to set the style on based on style setting
		//		in attributeMap.
		// tags:
		//		protected

		var mapNode = this[this.attributeMap["style"]||'domNode'];
		
		// Note: technically we should revert any style setting made in a previous call
		// to his method, but that's difficult to keep track of.

		if(dojo.isObject(value)){
			dojo.style(mapNode, value);
		}else{
			if(mapNode.style.cssText){
				mapNode.style.cssText += "; " + value;
			}else{
				mapNode.style.cssText = value;
			}
		}

		this["style"] = value;
	},

	setAttribute: function(/*String*/ attr, /*anything*/ value){
		// summary:
		//		Deprecated.  Use attr() instead.
		// tags:
		//		deprecated
		dojo.deprecated(this.declaredClass+"::setAttribute() is deprecated. Use attr() instead.", "", "2.0");
		this.attr(attr, value);
	},
	
	_attrToDom: function(/*String*/ attr, /*String*/ value){
		// summary:
		//		Reflect a widget attribute (title, tabIndex, duration etc.) to
		//		the widget DOM, as specified in attributeMap.
		//
		// description:
		//		Also sets this["attr"] to the new value.
		//		Note some attributes like "type"
		//		cannot be processed this way as they are not mutable.
		//
		// tags:
		//		private

		var commands = this.attributeMap[attr];
		dojo.forEach( dojo.isArray(commands) ? commands : [commands], function(command){

			// Get target node and what we are doing to that node
			var mapNode = this[command.node || command || "domNode"];	// DOM node
			var type = command.type || "attribute";	// class, innerHTML, or attribute
	
			switch(type){
				case "attribute":
					if(dojo.isFunction(value)){ // functions execute in the context of the widget
						value = dojo.hitch(this, value);
					}
					if(/^on[A-Z][a-zA-Z]*$/.test(attr)){ // eg. onSubmit needs to be onsubmit
						attr = attr.toLowerCase();
					}
					dojo.attr(mapNode, attr, value);
					break;
				case "innerHTML":
					mapNode.innerHTML = value;
					break;
				case "class":
					dojo.removeClass(mapNode, this[attr]);
					dojo.addClass(mapNode, value);
					break;
			}
		}, this);
		this[attr] = value;
	},

	attr: function(/*String|Object*/name, /*Object?*/value){
		//	summary:
		//		Set or get properties on a widget instance.
		//	name:
		//		The property to get or set. If an object is passed here and not
		//		a string, its keys are used as names of attributes to be set
		//		and the value of the object as values to set in the widget.
		//	value:
		//		Optional. If provided, attr() operates as a setter. If omitted,
		//		the current value of the named property is returned.
		//	description:
		//		Get or set named properties on a widget. If no value is
		//		provided, the current value of the attribute is returned,
		//		potentially via a getter method. If a value is provided, then
		//		the method acts as a setter, assigning the value to the name,
		//		potentially calling any explicitly provided setters to handle
		//		the operation. For instance, if the widget has properties "foo"
		//		and "bar" and a method named "_setFooAttr", calling:
		//	|	myWidget.attr("foo", "Howdy!");
		//		would be equivalent to calling:
		//	|	widget._setFooAttr("Howdy!");
		//		while calling:
		//	|	myWidget.attr("bar", "Howdy!");
		//		would be the same as writing:
		//	|	widget.bar = "Howdy!";
		//		It also tries to copy the changes to the widget's DOM according
		//		to settings in attributeMap (see description of `dijit._Widget.attributeMap`
		//		for details)
		//		For example, calling:
		//	|	myTitlePane.attr("title", "Howdy!");
		//		will do
		//	|	myTitlePane.title = "Howdy!";
		//	|	myTitlePane.title.innerHTML = "Howdy!";
		//		It works for dom node attributes too.  Calling
		//	|	widget.attr("disabled", true)
		//		will set the disabled attribute on the widget's focusNode,
		//		among other housekeeping for a change in disabled state.

		//	open questions:
		//		- how to handle build shortcut for attributes which want to map
		//		into DOM attributes?
		//		- what relationship should setAttribute()/attr() have to
		//		layout() calls?
		var args = arguments.length;
		if(args == 1 && !dojo.isString(name)){
			for(var x in name){ this.attr(x, name[x]); }
			return this;
		}
		var names = this._getAttrNames(name);
		if(args == 2){ // setter
			if(this[names.s]){
				// use the explicit setter
				return this[names.s](value) || this;
			}else{
				// if param is specified as DOM node attribute, copy it
				if(name in this.attributeMap){
					this._attrToDom(name, value);
				}

				// FIXME: what about function assignments? Any way to connect() here?
				this[name] = value;
			}
			return this;
		}else{ // getter
			if(this[names.g]){
				return this[names.g]();
			}else{
				return this[name];
			}
		}
	},

	_attrPairNames: {},		// shared between all widgets
	_getAttrNames: function(name){
		// summary:
		//		Helper function for Widget.attr().
		//		Caches attribute name values so we don't do the string ops every time.
		// tags:
		//		private

		var apn = this._attrPairNames;
		if(apn[name]){ return apn[name]; }
		var uc = name.charAt(0).toUpperCase() + name.substr(1);
		return apn[name] = {
			n: name+"Node",
			s: "_set"+uc+"Attr",
			g: "_get"+uc+"Attr"
		};
	},

	toString: function(){
		// summary:
		//		Returns a string that represents the widget. When a widget is
		//		cast to a string, this method will be used to generate the
		//		output. Currently, it does not implement any sort of reversable
		//		serialization.
		return '[Widget ' + this.declaredClass + ', ' + (this.id || 'NO ID') + ']'; // String
	},

	getDescendants: function(){
		// summary:
		//		Returns all the widgets that contained by this, i.e., all widgets underneath this.containerNode.
		//		This method should generally be avoided as it returns widgets declared in templates, which are
		//		supposed to be internal/hidden, but it's left here for back-compat reasons.

		if(this.containerNode){
			var list = dojo.query('[widgetId]', this.containerNode);
			return list.map(dijit.byNode);		// Array
		}else{
			return [];
		}
	},

	getChildren: function(){
		// summary:
		//		Returns all the widgets contained by this, i.e., all widgets underneath this.containerNode.
		//		Does not return nested widgets, nor widgets that are part of this widget's template.
		if(this.containerNode){
			return dijit.findWidgets(this.containerNode);
		}else{
			return [];
		}
	},

	// nodesWithKeyClick: [private] String[]
	//		List of nodes that correctly handle click events via native browser support,
	//		and don't need dijit's help
	nodesWithKeyClick: ["input", "button"],

	connect: function(
			/*Object|null*/ obj,
			/*String|Function*/ event,
			/*String|Function*/ method){
		// summary:
		//		Connects specified obj/event to specified method of this object
		//		and registers for disconnect() on widget destroy.
		// description:
		//		Provide widget-specific analog to dojo.connect, except with the
		//		implicit use of this widget as the target object.
		//		This version of connect also provides a special "ondijitclick"
		//		event which triggers on a click or space-up, enter-down in IE
		//		or enter press in FF (since often can't cancel enter onkeydown
		//		in FF)
		// example:
		//	|	var btn = new dijit.form.Button();
		//	|	// when foo.bar() is called, call the listener we're going to
		//	|	// provide in the scope of btn
		//	|	btn.connect(foo, "bar", function(){ 
		//	|		
		//	|	});
		// tags:
		//		protected

		var d = dojo;
		var dc = dojo.connect;
		var handles =[];
		if(event == "ondijitclick"){
			// add key based click activation for unsupported nodes.
			if(!this.nodesWithKeyClick[obj.nodeName]){
				var m = d.hitch(this, method);
				handles.push(
					dc(obj, "onkeydown", this, function(e){
						if(!d.isFF && e.keyCode == d.keys.ENTER &&
							!e.ctrlKey && !e.shiftKey && !e.altKey && !e.metaKey){
							return m(e);
						}else if(e.keyCode == d.keys.SPACE){
							// stop space down as it causes IE to scroll
							// the browser window
							d.stopEvent(e);
						}
			 		}),
					dc(obj, "onkeyup", this, function(e){
						if(e.keyCode == d.keys.SPACE && 
							!e.ctrlKey && !e.shiftKey && !e.altKey && !e.metaKey){ return m(e); }
					})
				);
			 	if(d.isFF){
					handles.push(
						dc(obj, "onkeypress", this, function(e){
							if(e.keyCode == d.keys.ENTER &&
								!e.ctrlKey && !e.shiftKey && !e.altKey && !e.metaKey){ return m(e); }
						})
					);
			 	}
			}
			event = "onclick";
		}
		handles.push(dc(obj, event, this, method));

		// return handles for FormElement and ComboBox
		this._connects.push(handles);
		return handles;
	},

	disconnect: function(/*Object*/ handles){
		// summary:
		//		Disconnects handle created by this.connect.
		//		Also removes handle from this widget's list of connects
		// tags:
		//		protected
		for(var i=0; i<this._connects.length; i++){
			if(this._connects[i]==handles){
				dojo.forEach(handles, dojo.disconnect);
				this._connects.splice(i, 1);
				return;
			}
		}
	},

	isLeftToRight: function(){
		// summary:
		//		Checks the page for text direction
		// tags:
		//		protected
		return dojo._isBodyLtr(); //Boolean
	},

	isFocusable: function(){
		// summary:
		//		Return true if this widget can currently be focused
		//		and false if not
		return this.focus && (dojo.style(this.domNode, "display") != "none");
	},
	
	placeAt: function(/* String|DomNode|_Widget */reference, /* String?|Int? */position){
		// summary:
		//		Place this widget's domNode reference somewhere in the DOM based
		//		on standard dojo.place conventions, or passing a Widget reference that
		//		contains and addChild member.
		//
		// description:
		//		A convenience function provided in all _Widgets, providing a simple
		//		shorthand mechanism to put an existing (or newly created) Widget
		//		somewhere in the dom, and allow chaining.
		//
		// reference: 
		//		The String id of a domNode, a domNode reference, or a reference to a Widget posessing 
		//		an addChild method.
		//
		// position: 
		//		If passed a string or domNode reference, the position argument
		//		accepts a string just as dojo.place does, one of: "first", "last", 
		//		"before", or "after". 
		//
		//		If passed a _Widget reference, and that widget reference has an ".addChild" method, 
		//		it will be called passing this widget instance into that method, supplying the optional
		//		position index passed.
		//
		// returns: dijit._Widget
		//		Provides a useful return of the newly created dijit._Widget instance so you 
		//		can "chain" this function by instantiating, placing, then saving the return value
		//		to a variable. 
		//
		// example:
		// | 	// create a Button with no srcNodeRef, and place it in the body:
		// | 	var button = new dijit.form.Button({ label:"click" }).placeAt(dojo.body());
		// | 	// now, 'button' is still the widget reference to the newly created button
		// | 	dojo.connect(button, "onClick", function(e){  });
		//
		// example:
		// |	// create a button out of a node with id="src" and append it to id="wrapper":
		// | 	var button = new dijit.form.Button({},"src").placeAt("wrapper");
		//
		// example:
		// |	// place a new button as the first element of some div
		// |	var button = new dijit.form.Button({ label:"click" }).placeAt("wrapper","first");
		//
		// example: 
		// |	// create a contentpane and add it to a TabContainer
		// |	var tc = dijit.byId("myTabs");
		// |	new dijit.layout.ContentPane({ href:"foo.html", title:"Wow!" }).placeAt(tc)

		if(reference["declaredClass"] && reference["addChild"]){
			reference.addChild(this, position);
		}else{
			dojo.place(this.domNode, reference, position);
		}
		return this;
	}

});

})();

}

if(!dojo._hasResource["dojo.string"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code.
dojo._hasResource["dojo.string"] = true;
dojo.provide("dojo.string");

/*=====
dojo.string = { 
	// summary: String utilities for Dojo
};
=====*/

dojo.string.rep = function(/*String*/str, /*Integer*/num){
	//	summary:
	//		Efficiently replicate a string `n` times.
	//	str:
	//		the string to replicate
	//	num:
	//		number of times to replicate the string
	
	if(num <= 0 || !str){ return ""; }
	
	var buf = [];
	for(;;){
		if(num & 1){
			buf.push(str);
		}
		if(!(num >>= 1)){ break; }
		str += str;
	}
	return buf.join("");	// String
};

dojo.string.pad = function(/*String*/text, /*Integer*/size, /*String?*/ch, /*Boolean?*/end){
	//	summary:
	//		Pad a string to guarantee that it is at least `size` length by
	//		filling with the character `ch` at either the start or end of the
	//		string. Pads at the start, by default.
	//	text:
	//		the string to pad
	//	size:
	//		length to provide padding
	//	ch:
	//		character to pad, defaults to '0'
	//	end:
	//		adds padding at the end if true, otherwise pads at start
	//	example:
	//	|	// Fill the string to length 10 with "+" characters on the right.  Yields "Dojo++++++".
	//	|	dojo.string.pad("Dojo", 10, "+", true);

	if(!ch){
		ch = '0';
	}
	var out = String(text),
		pad = dojo.string.rep(ch, Math.ceil((size - out.length) / ch.length));
	return end ? out + pad : pad + out;	// String
};

dojo.string.substitute = function(	/*String*/		template, 
									/*Object|Array*/map, 
									/*Function?*/	transform, 
									/*Object?*/		thisObject){
	//	summary:
	//		Performs parameterized substitutions on a string. Throws an
	//		exception if any parameter is unmatched.
	//	template: 
	//		a string with expressions in the form `${key}` to be replaced or
	//		`${key:format}` which specifies a format function. keys are case-sensitive. 
	//	map:
	//		hash to search for substitutions
	//	transform: 
	//		a function to process all parameters before substitution takes
	//		place, e.g. dojo.string.encodeXML
	//	thisObject: 
	//		where to look for optional format function; default to the global
	//		namespace
	//	example:
	//	|	// returns "File 'foo.html' is not found in directory '/temp'."
	//	|	dojo.string.substitute(
	//	|		"File '${0}' is not found in directory '${1}'.",
	//	|		["foo.html","/temp"]
	//	|	);
	//	|
	//	|	// also returns "File 'foo.html' is not found in directory '/temp'."
	//	|	dojo.string.substitute(
	//	|		"File '${name}' is not found in directory '${info.dir}'.",
	//	|		{ name: "foo.html", info: { dir: "/temp" } }
	//	|	);
	//	example:
	//		use a transform function to modify the values:
	//	|	// returns "file 'foo.html' is not found in directory '/temp'."
	//	|	dojo.string.substitute(
	//	|		"${0} is not found in ${1}.",
	//	|		["foo.html","/temp"],
	//	|		function(str){
	//	|			// try to figure out the type
	//	|			var prefix = (str.charAt(0) == "/") ? "directory": "file";
	//	|			return prefix + " '" + str + "'";
	//	|		}
	//	|	);
	//	example:
	//		use a formatter
	//	|	// returns "thinger -- howdy"
	//	|	dojo.string.substitute(
	//	|		"${0:postfix}", ["thinger"], null, {
	//	|			postfix: function(value, key){
	//	|				return value + " -- howdy";
	//	|			}
	//	|		}
	//	|	);

	thisObject = thisObject||dojo.global;
	transform = (!transform) ? 
					function(v){ return v; } : 
					dojo.hitch(thisObject, transform);

	return template.replace(/\$\{([^\s\:\}]+)(?:\:([^\s\:\}]+))?\}/g, function(match, key, format){
		var value = dojo.getObject(key, false, map);
		if(format){
			value = dojo.getObject(format, false, thisObject).call(thisObject, value, key);
		}
		return transform(value, key).toString();
	}); // string
};

/*=====
dojo.string.trim = function(str){
	//	summary:
	//		Trims whitespace from both sides of the string
	//	str: String
	//		String to be trimmed
	//	returns: String
	//		Returns the trimmed string
	//	description:
	//		This version of trim() was taken from [Steven Levithan's blog](http://blog.stevenlevithan.com/archives/faster-trim-javascript).
	//		The short yet performant version of this function is dojo.trim(),
	//		which is part of Dojo base.  Uses String.prototype.trim instead, if available.
	return "";	// String
}
=====*/

dojo.string.trim = String.prototype.trim ?
	dojo.trim : // aliasing to the native function
	function(str){
		str = str.replace(/^\s+/, '');
		for(var i = str.length - 1; i >= 0; i--){
			if(/\S/.test(str.charAt(i))){
				str = str.substring(0, i + 1);
				break;
			}
		}
		return str;
	};

}

if(!dojo._hasResource["dijit._Templated"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code.
dojo._hasResource["dijit._Templated"] = true;
dojo.provide("dijit._Templated");





dojo.declare("dijit._Templated",
	null,
	{
		//	summary:
		//		Mixin for widgets that are instantiated from a template
		// 

		// templateString: [protected] String
		//		A string that represents the widget template. Pre-empts the
		//		templatePath. In builds that have their strings "interned", the
		//		templatePath is converted to an inline templateString, thereby
		//		preventing a synchronous network call.
		templateString: null,

		// templatePath: [protected] String
		//		Path to template (HTML file) for this widget relative to dojo.baseUrl
		templatePath: null,

		// widgetsInTemplate: [protected] Boolean
		//		Should we parse the template to find widgets that might be
		//		declared in markup inside it?  False by default.
		widgetsInTemplate: false,

		// skipNodeCache: [protected] Boolean
		//		If using a cached widget template node poses issues for a
		//		particular widget class, it can set this property to ensure
		//		that its template is always re-built from a string
		_skipNodeCache: false,

		_stringRepl: function(tmpl){
			// summary:
			//		Does substitution of ${foo} type properties in template string
			// tags:
			//		private
			var className = this.declaredClass, _this = this;
			// Cache contains a string because we need to do property replacement
			// do the property replacement
			return dojo.string.substitute(tmpl, this, function(value, key){
				if(key.charAt(0) == '!'){ value = dojo.getObject(key.substr(1), _this); }
				if(typeof value == "undefined"){ throw new Error(className+" template:"+key); } // a debugging aide
				if(value == null){ return ""; }

				// Substitution keys beginning with ! will skip the transform step,
				// in case a user wishes to insert unescaped markup, e.g. ${!foo}
				return key.charAt(0) == "!" ? value :
					// Safer substitution, see heading "Attribute values" in
					// http://www.w3.org/TR/REC-html40/appendix/notes.html#h-B.3.2
					value.toString().replace(/"/g,"&quot;"); //TODO: add &amp? use encodeXML method?
			}, this);
		},

		// method over-ride
		buildRendering: function(){
			// summary:
			//		Construct the UI for this widget from a template, setting this.domNode.
			// tags:
			//		protected

			// Lookup cached version of template, and download to cache if it
			// isn't there already.  Returns either a DomNode or a string, depending on
			// whether or not the template contains ${foo} replacement parameters.
			var cached = dijit._Templated.getCachedTemplate(this.templatePath, this.templateString, this._skipNodeCache);

			var node;
			if(dojo.isString(cached)){
				node = dojo._toDom(this._stringRepl(cached));
			}else{
				// if it's a node, all we have to do is clone it
				node = cached.cloneNode(true);
			}

			this.domNode = node;

			// recurse through the node, looking for, and attaching to, our
			// attachment points and events, which should be defined on the template node.
			this._attachTemplateNodes(node);

			if(this.widgetsInTemplate){
				var cw = (this._supportingWidgets = dojo.parser.parse(node));
				this._attachTemplateNodes(cw, function(n,p){
					return n[p];
				});
			}

			this._fillContent(this.srcNodeRef);
		},

		_fillContent: function(/*DomNode*/ source){
			// summary:
			//		Relocate source contents to templated container node.
			//		this.containerNode must be able to receive children, or exceptions will be thrown.
			// tags:
			//		protected
			var dest = this.containerNode;
			if(source && dest){
				while(source.hasChildNodes()){
					dest.appendChild(source.firstChild);
				}
			}
		},

		_attachTemplateNodes: function(rootNode, getAttrFunc){
			// summary:
			//		Iterate through the template and attach functions and nodes accordingly.	
			// description:		
			//		Map widget properties and functions to the handlers specified in
			//		the dom node and it's descendants. This function iterates over all
			//		nodes and looks for these properties:
			//			* dojoAttachPoint
			//			* dojoAttachEvent	
			//			* waiRole
			//			* waiState
			// rootNode: DomNode|Array[Widgets]
			//		the node to search for properties. All children will be searched.
			// getAttrFunc: Function?
			//		a function which will be used to obtain property for a given
			//		DomNode/Widget
			// tags:
			//		private

			getAttrFunc = getAttrFunc || function(n,p){ return n.getAttribute(p); };

			var nodes = dojo.isArray(rootNode) ? rootNode : (rootNode.all || rootNode.getElementsByTagName("*"));
			var x = dojo.isArray(rootNode) ? 0 : -1;
			for(; x<nodes.length; x++){
				var baseNode = (x == -1) ? rootNode : nodes[x];
				if(this.widgetsInTemplate && getAttrFunc(baseNode, "dojoType")){
					continue;
				}
				// Process dojoAttachPoint
				var attachPoint = getAttrFunc(baseNode, "dojoAttachPoint");
				if(attachPoint){
					var point, points = attachPoint.split(/\s*,\s*/);
					while((point = points.shift())){
						if(dojo.isArray(this[point])){
							this[point].push(baseNode);
						}else{
							this[point]=baseNode;
						}
					}
				}

				// Process dojoAttachEvent
				var attachEvent = getAttrFunc(baseNode, "dojoAttachEvent");
				if(attachEvent){
					// NOTE: we want to support attributes that have the form
					// "domEvent: nativeEvent; ..."
					var event, events = attachEvent.split(/\s*,\s*/);
					var trim = dojo.trim;
					while((event = events.shift())){
						if(event){
							var thisFunc = null;
							if(event.indexOf(":") != -1){
								// oh, if only JS had tuple assignment
								var funcNameArr = event.split(":");
								event = trim(funcNameArr[0]);
								thisFunc = trim(funcNameArr[1]);
							}else{
								event = trim(event);
							}
							if(!thisFunc){
								thisFunc = event;
							}
							this.connect(baseNode, event, thisFunc);
						}
					}
				}

				// waiRole, waiState
				var role = getAttrFunc(baseNode, "waiRole");
				if(role){
					dijit.setWaiRole(baseNode, role);
				}
				var values = getAttrFunc(baseNode, "waiState");
				if(values){
					dojo.forEach(values.split(/\s*,\s*/), function(stateValue){
						if(stateValue.indexOf('-') != -1){
							var pair = stateValue.split('-');
							dijit.setWaiState(baseNode, pair[0], pair[1]);
						}
					});
				}
			}
		}
	}
);

// key is either templatePath or templateString; object is either string or DOM tree
dijit._Templated._templateCache = {};

dijit._Templated.getCachedTemplate = function(templatePath, templateString, alwaysUseString){
	// summary:
	//		Static method to get a template based on the templatePath or
	//		templateString key
	// templatePath: String
	//		The URL to get the template from. dojo.uri.Uri is often passed as well.
	// templateString: String?
	//		a string to use in lieu of fetching the template from a URL. Takes precedence
	//		over templatePath
	// returns: Mixed
	//		Either string (if there are ${} variables that need to be replaced) or just
	//		a DOM tree (if the node can be cloned directly)

	// is it already cached?
	var tmplts = dijit._Templated._templateCache;
	var key = templateString || templatePath;
	var cached = tmplts[key];
	if(cached){
		if(!cached.ownerDocument || cached.ownerDocument == dojo.doc){
			// string or node of the same document
			return cached;
		}
		// destroy the old cached node of a different document
		dojo.destroy(cached);
	}

	// If necessary, load template string from template path
	if(!templateString){
		templateString = dijit._Templated._sanitizeTemplateString(dojo.trim(dojo._getText(templatePath)));
	}

	templateString = dojo.string.trim(templateString);

	if(alwaysUseString || templateString.match(/\$\{([^\}]+)\}/g)){
		// there are variables in the template so all we can do is cache the string
		return (tmplts[key] = templateString); //String
	}else{
		// there are no variables in the template so we can cache the DOM tree
		return (tmplts[key] = dojo._toDom(templateString)); //Node
	}
};

dijit._Templated._sanitizeTemplateString = function(/*String*/tString){
	// summary: 
	//		Strips <?xml ...?> declarations so that external SVG and XML
	// 		documents can be added to a document without worry. Also, if the string
	//		is an HTML document, only the part inside the body tag is returned.
	if(tString){
		tString = tString.replace(/^\s*<\?xml(\s)+version=[\'\"](\d)*.(\d)*[\'\"](\s)*\?>/im, "");
		var matches = tString.match(/<body[^>]*>\s*([\s\S]+)\s*<\/body>/im);
		if(matches){
			tString = matches[1];
		}
	}else{
		tString = "";
	}
	return tString; //String
};


if(dojo.isIE){
	dojo.addOnWindowUnload(function(){
		var cache = dijit._Templated._templateCache;
		for(var key in cache){
			var value = cache[key];
			if(!isNaN(value.nodeType)){ // isNode equivalent
				dojo.destroy(value);
			}
			delete cache[key];
		}
	});
}

// These arguments can be specified for widgets which are used in templates.
// Since any widget can be specified as sub widgets in template, mix it
// into the base widget class.  (This is a hack, but it's effective.)
dojo.extend(dijit._Widget,{
	dojoAttachEvent: "",
	dojoAttachPoint: "",
	waiRole: "",
	waiState:""
});

}

if(!dojo._hasResource["dijit._Container"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code.
dojo._hasResource["dijit._Container"] = true;
dojo.provide("dijit._Container");

dojo.declare("dijit._Container",
	null,
	{
		// summary:
		//		Mixin for widgets that contain a set of widget children.
		// description:
		//		Use this mixin for widgets that needs to know about and
		//		keep track of their widget children. Suitable for widgets like BorderContainer
		//		and TabContainer which contain (only) a set of child widgets.
		//
		//		It's not suitable for widgets like ContentPane
		//		which contains mixed HTML (plain DOM nodes in addition to widgets),
		//		and where contained widgets are not necessarily directly below
		//		this.containerNode.   In that case calls like addChild(node, position)
		//		wouldn't make sense.

		// isContainer: [protected] Boolean
		//		Just a flag indicating that this widget descends from dijit._Container
		isContainer: true,

		buildRendering: function(){
			this.inherited(arguments);
			if(!this.containerNode){
				// all widgets with descendants must set containerNode
   				this.containerNode = this.domNode;
			}
		},

		addChild: function(/*Widget*/ widget, /*int?*/ insertIndex){
			// summary:
			//		Makes the given widget a child of this widget.
			// description:
			//		Inserts specified child widget's dom node as a child of this widget's
			//		container node, and possibly does other processing (such as layout).

			var refNode = this.containerNode;
			if(insertIndex && typeof insertIndex == "number"){
				var children = this.getChildren();
				if(children && children.length >= insertIndex){
					refNode = children[insertIndex-1].domNode;
					insertIndex = "after";
				}
			}
			dojo.place(widget.domNode, refNode, insertIndex);

			// If I've been started but the child widget hasn't been started,
			// start it now.  Make sure to do this after widget has been
			// inserted into the DOM tree, so it can see that it's being controlled by me,
			// so it doesn't try to size itself.
			if(this._started && !widget._started){
				widget.startup();
			}
		},

		removeChild: function(/*Widget or int*/ widget){
			// summary:
			//		Removes the passed widget instance from this widget but does
			//		not destroy it.  You can also pass in an integer indicating
			//		the index within the container to remove
			if(typeof widget == "number" && widget > 0){
				widget = this.getChildren()[widget];
			}
			// If we cannot find the widget, just return
			if(!widget || !widget.domNode){ return; }
			
			var node = widget.domNode;
			node.parentNode.removeChild(node);	// detach but don't destroy
		},

		_nextElement: function(node){
			// summary:
			//      Find the next (non-text, non-comment etc) node
			// tags:
			//      private
			do{
				node = node.nextSibling;
			}while(node && node.nodeType != 1);
			return node;
		},

		_firstElement: function(node){
			// summary:
			//      Find the first (non-text, non-comment etc) node
			// tags:
			//      private
			node = node.firstChild;
			if(node && node.nodeType != 1){
				node = this._nextElement(node);
			}
			return node;
		},

		getChildren: function(){
			// summary:
			//		Returns array of children widgets.
			// description:
			//		Returns the widgets that are directly under this.containerNode.
			return dojo.query("> [widgetId]", this.containerNode).map(dijit.byNode); // Widget[]
		},

		hasChildren: function(){
			// summary:
			//		Returns true if widget has children, i.e. if this.containerNode contains something.
			return !!this._firstElement(this.containerNode); // Boolean
		},

		destroyDescendants: function(/*Boolean*/ preserveDom){
			// summary:
			//      Destroys all the widgets inside this.containerNode,
			//      but not this widget itself
			dojo.forEach(this.getChildren(), function(child){ child.destroyRecursive(preserveDom); });
		},
	
		_getSiblingOfChild: function(/*Widget*/ child, /*int*/ dir){
			// summary:
			//		Get the next or previous widget sibling of child
			// dir:
			//		if 1, get the next sibling
			//		if -1, get the previous sibling
			// tags:
			//      private
			var node = child.domNode;
			var which = (dir>0 ? "nextSibling" : "previousSibling");
			do{
				node = node[which];
			}while(node && (node.nodeType != 1 || !dijit.byNode(node)));
			return node ? dijit.byNode(node) : null;
		},
		
		getIndexOfChild: function(/*Widget*/ child){
			// summary:
			//		Gets the index of the child in this container or -1 if not found
			var children = this.getChildren();
			for(var i=0, c; c=children[i]; i++){
				if(c == child){ 
					return i; // int
				}
			}
			return -1; // int
		}
	}
);

}

if(!dojo._hasResource["dijit._Contained"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code.
dojo._hasResource["dijit._Contained"] = true;
dojo.provide("dijit._Contained");

dojo.declare("dijit._Contained",
		null,
		{
			// summary
			//		Mixin for widgets that are children of a container widget
			//
			// example:
			// | 	// make a basic custom widget that knows about it's parents
			// |	dojo.declare("my.customClass",[dijit._Widget,dijit._Contained],{});
			// 
			getParent: function(){
				// summary:
				//		Returns the parent widget of this widget, assuming the parent
				//		implements dijit._Container
				for(var p=this.domNode.parentNode; p; p=p.parentNode){
					var id = p.getAttribute && p.getAttribute("widgetId");
					if(id){
						var parent = dijit.byId(id);
						return parent.isContainer ? parent : null;
					}
				}
				return null;
			},

			_getSibling: function(which){
				// summary:
				//      Returns next or previous sibling
				// which:
				//      Either "next" or "previous"
				// tags:
				//      private
				var node = this.domNode;
				do{
					node = node[which+"Sibling"];
				}while(node && node.nodeType != 1);
				if(!node){ return null; } // null
				var id = node.getAttribute("widgetId");
				return dijit.byId(id);
			},

			getPreviousSibling: function(){
				// summary:
				//		Returns null if this is the first child of the parent,
				//		otherwise returns the next element sibling to the "left".

				return this._getSibling("previous"); // Mixed
			},

			getNextSibling: function(){
				// summary:
				//		Returns null if this is the last child of the parent,
				//		otherwise returns the next element sibling to the "right".

				return this._getSibling("next"); // Mixed
			},
			
			getIndexInParent: function(){
				// summary:
				//		Returns the index of this widget within its container parent.
				//		It returns -1 if the parent does not exist, or if the parent
				//		is not a dijit._Container
				
				var p = this.getParent();
				if(!p || !p.getIndexOfChild){
					return -1; // int
				}
				return p.getIndexOfChild(this); // int
			}
		}
	);


}

if(!dojo._hasResource["dijit.layout._LayoutWidget"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code.
dojo._hasResource["dijit.layout._LayoutWidget"] = true;
dojo.provide("dijit.layout._LayoutWidget");





dojo.declare("dijit.layout._LayoutWidget",
	[dijit._Widget, dijit._Container, dijit._Contained],
	{
		// summary:
		//		Base class for a _Container widget which is responsible for laying out its children.
		//		Widgets which mixin this code must define layout() to lay out the children.

		// baseClass: [protected extension] String
		//		This class name is applied to the widget's domNode
		//		and also may be used to generate names for sub nodes,
		//		like for example dijitTabContainer-content.
		baseClass: "dijitLayoutContainer",

		// isLayoutContainer: [private deprecated] Boolean
		//		TODO: this is unused, but maybe it *should* be used for a child to
		//		detect whether the parent is going to call resize() on it or not
		//		(see calls to getParent() and resize() in this file)
		isLayoutContainer: true,

		postCreate: function(){
			dojo.addClass(this.domNode, "dijitContainer");
			dojo.addClass(this.domNode, this.baseClass);
			
			// TODO: this.inherited()
		},

		startup: function(){
			// summary:
			//		Called after all the widgets have been instantiated and their
			//		dom nodes have been inserted somewhere under dojo.doc.body.
			//
			//		Widgets should override this method to do any initialization
			//		dependent on other widgets existing, and then call
			//		this superclass method to finish things off.
			//
			//		startup() in subclasses shouldn't do anything
			//		size related because the size of the widget hasn't been set yet.

			if(this._started){ return; }

			// TODO: seems like this code should be in _Container.startup().
			// Then things that don't extend LayoutContainer (like GridContainer)
			// would get the behavior for free.
			dojo.forEach(this.getChildren(), function(child){ child.startup(); });

			// If I am a top level widget
			if(!this.getParent || !this.getParent()){
				// Do recursive sizing and layout of all my descendants
				// (passing in no argument to resize means that it has to glean the size itself)
				this.resize();

				// Since my parent isn't a layout container, and my style is width=height=100% (or something similar),
				// then I need to watch when the window resizes, and size myself accordingly.
				// (Passing in no arguments to resize means that it has to glean the size itself.)
				// TODO: make one global listener to avoid getViewport() per widget.
				this._viewport = dijit.getViewport();
				this.connect(dojo.global, 'onresize', function(){
					var newViewport = dijit.getViewport();
					if(newViewport.w != this._viewport.w ||  newViewport.h != this._viewport.h){
						this._viewport = newViewport;
						this.resize();
					}
				});
			}
			
			this.inherited(arguments);
		},

		resize: function(changeSize, resultSize){
			// summary:
			//		Call this to resize a widget, or after its size has changed.
			// description:
			//		Change size mode:
			//			When changeSize is specified, changes the marginBox of this widget
			//			 and forces it to relayout its contents accordingly.
			//			changeSize may specify height, width, or both.
			//
			//			If resultSize is specified it indicates the size the widget will
			//			become after changeSize has been applied.
			//
			//		Notification mode:
			//			When changeSize is null, indicates that the caller has already changed
			//			the size of the widget, or perhaps it changed because the browser
			//			window was resized.  Tells widget to relayout it's contents accordingly.
			//
			//			If resultSize is also specified it indicates the size the widget has
			//			become.
			//
			//		In either mode, this method also:
			//			1. Sets this._borderBox and this._contentBox to the new size of
			//				the widget.  Queries the current domNode size if necessary.
			//			2. Calls layout() to resize contents (and maybe adjust child widgets).	
			//
			// changeSize: Object?
			//		Sets the widget to this margin-box size and position.
			//		May include any/all of the following properties:
			//	|	{w: int, h: int, l: int, t: int}
			//
			// resultSize: Object?
			//		The margin-box size of this widget after applying changeSize (if 
			//		changeSize is specified).  If caller knows this size and
			//		passes it in, we don't need to query the browser to get the size.
			//	|	{w: int, h: int}

			var node = this.domNode;

			// set margin box size, unless it wasn't specified, in which case use current size
			if(changeSize){
				dojo.marginBox(node, changeSize);

				// set offset of the node
				if(changeSize.t){ node.style.top = changeSize.t + "px"; }
				if(changeSize.l){ node.style.left = changeSize.l + "px"; }
			}

			// If either height or width wasn't specified by the user, then query node for it.
			// But note that setting the margin box and then immediately querying dimensions may return
			// inaccurate results, so try not to depend on it.
			var mb = resultSize || {};
			dojo.mixin(mb, changeSize || {});	// changeSize overrides resultSize
			if ( !("h" in mb) || !("w" in mb) ){
				mb = dojo.mixin(dojo.marginBox(node), mb);	// just use dojo.marginBox() to fill in missing values
			}

			// Compute and save the size of my border box and content box
			// (w/out calling dojo.contentBox() since that may fail if size was recently set)
			var cs = dojo.getComputedStyle(node);
			var me = dojo._getMarginExtents(node, cs);
			var be = dojo._getBorderExtents(node, cs);
			var bb = (this._borderBox = {
				w: mb.w - (me.w + be.w),
				h: mb.h - (me.h + be.h)
			});
			var pe = dojo._getPadExtents(node, cs);
			this._contentBox = {
				l: dojo._toPixelValue(node, cs.paddingLeft),
				t: dojo._toPixelValue(node, cs.paddingTop),
				w: bb.w - pe.w,
				h: bb.h - pe.h
			};

			// Callback for widget to adjust size of it's children
			this.layout();
		},

		layout: function(){
			// summary:
			//		Widgets override this method to size and position their contents/children.
			//		When this is called this._contentBox is guaranteed to be set (see resize()).
			//
			//		This is called after startup(), and also when the widget's size has been
			//		changed.
			// tags:
			//		protected extension
		},

		_setupChild: function(/*Widget*/child){
			// summary:
			//		Common setup for initial children and children which are added after startup
			// tags:
			//		protected extension

			dojo.addClass(child.domNode, this.baseClass+"-child");
			if(child.baseClass){
				dojo.addClass(child.domNode, this.baseClass+"-"+child.baseClass);
			}
		},

		addChild: function(/*Widget*/ child, /*Integer?*/ insertIndex){
			// Overrides _Container.addChild() to call _setupChild()
			this.inherited(arguments);
			if(this._started){
				this._setupChild(child);
			}
		},

		removeChild: function(/*Widget*/ child){
			// Overrides _Container.removeChild() to remove class added by _setupChild()
			dojo.removeClass(child.domNode, this.baseClass+"-child");
			if(child.baseClass){
				dojo.removeClass(child.domNode, this.baseClass+"-"+child.baseClass);
			}
			this.inherited(arguments);
		}
	}
);

dijit.layout.marginBox2contentBox = function(/*DomNode*/ node, /*Object*/ mb){
	// summary:
	//		Given the margin-box size of a node, return its content box size.
	//		Functions like dojo.contentBox() but is more reliable since it doesn't have
	//		to wait for the browser to compute sizes.
	var cs = dojo.getComputedStyle(node);
	var me = dojo._getMarginExtents(node, cs);
	var pb = dojo._getPadBorderExtents(node, cs);
	return {
		l: dojo._toPixelValue(node, cs.paddingLeft),
		t: dojo._toPixelValue(node, cs.paddingTop),
		w: mb.w - (me.w + pb.w),
		h: mb.h - (me.h + pb.h)
	};
};

(function(){
	var capitalize = function(word){
		return word.substring(0,1).toUpperCase() + word.substring(1);
	};

	var size = function(widget, dim){
		// size the child
		widget.resize ? widget.resize(dim) : dojo.marginBox(widget.domNode, dim);

		// record child's size, but favor our own numbers when we have them.
		// the browser lies sometimes
		dojo.mixin(widget, dojo.marginBox(widget.domNode));
		dojo.mixin(widget, dim);
	};

	dijit.layout.layoutChildren = function(/*DomNode*/ container, /*Object*/ dim, /*Object[]*/ children){
		// summary
		//		Layout a bunch of child dom nodes within a parent dom node
		// container:
		//		parent node
		// dim:
		//		{l, t, w, h} object specifying dimensions of container into which to place children
		// children:
		//		an array like [ {domNode: foo, layoutAlign: "bottom" }, {domNode: bar, layoutAlign: "client"} ]

		// copy dim because we are going to modify it
		dim = dojo.mixin({}, dim);

		dojo.addClass(container, "dijitLayoutContainer");

		// Move "client" elements to the end of the array for layout.  a11y dictates that the author
		// needs to be able to put them in the document in tab-order, but this algorithm requires that
		// client be last.
		children = dojo.filter(children, function(item){ return item.layoutAlign != "client"; })
			.concat(dojo.filter(children, function(item){ return item.layoutAlign == "client"; }));

		// set positions/sizes
		dojo.forEach(children, function(child){
			var elm = child.domNode,
				pos = child.layoutAlign;

			// set elem to upper left corner of unused space; may move it later
			var elmStyle = elm.style;
			elmStyle.left = dim.l+"px";
			elmStyle.top = dim.t+"px";
			elmStyle.bottom = elmStyle.right = "auto";

			dojo.addClass(elm, "dijitAlign" + capitalize(pos));

			// set size && adjust record of remaining space.
			// note that setting the width of a <div> may affect it's height.
			if(pos == "top" || pos == "bottom"){
				size(child, { w: dim.w });
				dim.h -= child.h;
				if(pos=="top"){
					dim.t += child.h;
				}else{
					elmStyle.top = dim.t + dim.h + "px";
				}
			}else if(pos == "left" || pos == "right"){
				size(child, { h: dim.h });
				dim.w -= child.w;
				if(pos == "left"){
					dim.l += child.w;
				}else{
					elmStyle.left = dim.l + dim.w + "px";
				}
			}else if(pos == "client"){
				size(child, dim);
			}
		});
	};

})();

}

if(!dojo._hasResource["dijit.form._FormWidget"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code.
dojo._hasResource["dijit.form._FormWidget"] = true;
dojo.provide("dijit.form._FormWidget");




dojo.declare("dijit.form._FormWidget", [dijit._Widget, dijit._Templated],
	{
	//
	// summary:
	//		Base class for widgets corresponding to native HTML elements such as <checkbox> or <button>,
	//		which can be children of a <form> node or a `dijit.form.Form` widget.
	//
	// description:
	//		Represents a single HTML element.
	//		All these widgets should have these attributes just like native HTML input elements.
	//		You can set them during widget construction or afterwards, via `dijit._Widget.attr`.
	//
	//	They also share some common methods.

	// baseClass: [protected] String
	//		Root CSS class of the widget (ex: dijitTextBox), used to add CSS classes of widget
	//		(ex: "dijitTextBox dijitTextBoxInvalid dijitTextBoxFocused dijitTextBoxInvalidFocused")
	//		See _setStateClass().
	baseClass: "",

	// name: String
	//		Name used when submitting form; same as "name" attribute or plain HTML elements
	name: "",

	// alt: String
	//		Corresponds to the native HTML <input> element's attribute.
	alt: "",

	// value: String
	//		Corresponds to the native HTML <input> element's attribute.
	value: "",

	// type: String
	//		Corresponds to the native HTML <input> element's attribute.
	type: "text",

	// tabIndex: Integer
	//		Order fields are traversed when user hits the tab key
	tabIndex: "0",

	// disabled: Boolean
	//		Should this widget respond to user input?
	//		In markup, this is specified as "disabled='disabled'", or just "disabled".
	disabled: false,

	// readOnly: Boolean
	//		Should this widget respond to user input?
	//		In markup, this is specified as "readOnly".
	//		Similar to disabled except readOnly form values are submitted.
	readOnly: false,

	// intermediateChanges: Boolean
	//		Fires onChange for each value change or only on demand
	intermediateChanges: false,

	// scrollOnFocus: Boolean
	//		On focus, should this widget scroll into view?
	scrollOnFocus: true,

	// These mixins assume that the focus node is an INPUT, as many but not all _FormWidgets are.
	attributeMap: dojo.delegate(dijit._Widget.prototype.attributeMap, {
		value: "focusNode",
		disabled: "focusNode",
		readOnly: "focusNode",
		id: "focusNode",
		tabIndex: "focusNode",
		alt: "focusNode"
	}),

	postMixInProperties: function(){
		// Setup name=foo string to be referenced from the template (but only if a name has been specified)
		// Unfortunately we can't use attributeMap to set the name due to IE limitations, see #8660
		this.nameAttrSetting = this.name ? ("name='" + this.name + "'") : "";
		this.inherited(arguments);
	},

	_setDisabledAttr: function(/*Boolean*/ value){
		this.disabled = value;
		dojo.attr(this.focusNode, 'disabled', value);
		dijit.setWaiState(this.focusNode, "disabled", value);

				if(value){
					//reset those, because after the domNode is disabled, we can no longer receive
					//mouse related events, see #4200
					this._hovering = false;
					this._active = false;
					// remove the tabIndex, especially for FF
					this.focusNode.removeAttribute('tabIndex');
				}else{
					this.focusNode.setAttribute('tabIndex', this.tabIndex);
				}
				this._setStateClass();
	},

	setDisabled: function(/*Boolean*/ disabled){
		// summary:
		//		Deprecated.   Use attr('disabled', ...) instead.
		dojo.deprecated("setDisabled("+disabled+") is deprecated. Use attr('disabled',"+disabled+") instead.", "", "2.0");
		this.attr('disabled', disabled);
	},

	_onFocus: function(e){
		if(this.scrollOnFocus){
			dijit.scrollIntoView(this.domNode);
		}
		this.inherited(arguments);
	},

	_onMouse : function(/*Event*/ event){
		// summary:
		//	Sets _hovering, _active, and stateModifier properties depending on mouse state,
		//	then calls setStateClass() to set appropriate CSS classes for this.domNode.
		//
		//	To get a different CSS class for hover, send onmouseover and onmouseout events to this method.
		//	To get a different CSS class while mouse button is depressed, send onmousedown to this method.

		var mouseNode = event.currentTarget;
		if(mouseNode && mouseNode.getAttribute){
			this.stateModifier = mouseNode.getAttribute("stateModifier") || "";
		}

		if(!this.disabled){
			switch(event.type){
				case "mouseenter":
				case "mouseover":
					this._hovering = true;
					this._active = this._mouseDown;
					break;

				case "mouseout":
				case "mouseleave":
					this._hovering = false;
					this._active = false;
					break;

				case "mousedown" :
					this._active = true;
					this._mouseDown = true;
					// set a global event to handle mouseup, so it fires properly
					//	even if the cursor leaves the button
					var mouseUpConnector = this.connect(dojo.body(), "onmouseup", function(){
						//if user clicks on the button, even if the mouse is released outside of it,
						//this button should get focus (which mimics native browser buttons)
						if(this._mouseDown && this.isFocusable()){
							this.focus();
						}
						this._active = false;
						this._mouseDown = false;
						this._setStateClass();
						this.disconnect(mouseUpConnector);
					});
					break;
			}
			this._setStateClass();
		}
	},

	isFocusable: function(){
		// summary:
		//		Tells if this widget is focusable or not.   Used internally by dijit.
		// tags:
		//		protected
		return !this.disabled && !this.readOnly && this.focusNode && (dojo.style(this.domNode, "display") != "none");
	},

	focus: function(){
		// summary:
		//		Put focus on this widget
		dijit.focus(this.focusNode);
	},

	_setStateClass: function(){
		// summary:
		//		Update the visual state of the widget by setting the css classes on this.domNode
		//		(or this.stateNode if defined) by combining this.baseClass with
		//		various suffixes that represent the current widget state(s).
		//
		// description:
		//		In the case where a widget has multiple
		//		states, it sets the class based on all possible
		//	 	combinations.  For example, an invalid form widget that is being hovered
		//		will be "dijitInput dijitInputInvalid dijitInputHover dijitInputInvalidHover".
		//
		//		For complex widgets with multiple regions, there can be various hover/active states,
		//		such as "Hover" or "CloseButtonHover" (for tab buttons).
		//		This is controlled by a stateModifier="CloseButton" attribute on the close button node.
		//
		//		The widget may have one or more of the following states, determined
		//		by this.state, this.checked, this.valid, and this.selected:
		//			- Error - ValidationTextBox sets this.state to "Error" if the current input value is invalid
		//			- Checked - ex: a checkmark or a ToggleButton in a checked state, will have this.checked==true
		//			- Selected - ex: currently selected tab will have this.selected==true
		//
		//		In addition, it may have one or more of the following states,
		//		based on this.disabled and flags set in _onMouse (this._active, this._hovering, this._focused):
		//			- Disabled	- if the widget is disabled
		//			- Active		- if the mouse (or space/enter key?) is being pressed down
		//			- Focused		- if the widget has focus
		//			- Hover		- if the mouse is over the widget

		// Compute new set of classes
		var newStateClasses = this.baseClass.split(" ");

		function multiply(modifier){
			newStateClasses = newStateClasses.concat(dojo.map(newStateClasses, function(c){ return c+modifier; }), "dijit"+modifier);
		}

		if(this.checked){
			multiply("Checked");
		}
		if(this.state){
			multiply(this.state);
		}
		if(this.selected){
			multiply("Selected");
		}

		if(this.disabled){
			multiply("Disabled");
		}else if(this.readOnly){
			multiply("ReadOnly");
		}else if(this._active){
			multiply(this.stateModifier+"Active");
		}else{
			if(this._focused){
				multiply("Focused");
			}
			if(this._hovering){
				multiply(this.stateModifier+"Hover");
			}
		}

		// Remove old state classes and add new ones.
		// For performance concerns we only write into domNode.className once.
		var tn = this.stateNode || this.domNode,
			classHash = {};	// set of all classes (state and otherwise) for node

		dojo.forEach(tn.className.split(" "), function(c){ classHash[c] = true; });

		if("_stateClasses" in this){
			dojo.forEach(this._stateClasses, function(c){ delete classHash[c]; });
		}

		dojo.forEach(newStateClasses, function(c){ classHash[c] = true; });

		var newClasses = [];
		for(var c in classHash){
			newClasses.push(c);
		}
		tn.className = newClasses.join(" ");

		this._stateClasses = newStateClasses;
	},

	compare: function(/*anything*/val1, /*anything*/val2){
		// summary:
		//		Compare 2 values (as returned by attr('value') for this widget).
		// tags:
		//		protected
		if((typeof val1 == "number") && (typeof val2 == "number")){
			return (isNaN(val1) && isNaN(val2))? 0 : (val1-val2);
		}else if(val1 > val2){ return 1; }
		else if(val1 < val2){ return -1; }
		else { return 0; }
	},

	onChange: function(newValue){
		// summary:
		//		Callback when this widget's value is changed.
		// tags:
		//		callback
	},

	// _onChangeActive: [private] Boolean
	//		Indicates that changes to the value should call onChange() callback.
	//		This is false during widget initialization, to avoid calling onChange()
	//		when the initial value is set.
	_onChangeActive: false,

	_handleOnChange: function(/*anything*/ newValue, /* Boolean? */ priorityChange){
		// summary:
		//		Called when the value of the widget is set.  Calls onChange() if appropriate
		// newValue:
		//		the new value
		// priorityChange:
		//		For a slider, for example, dragging the slider is priorityChange==false,
		//		but on mouse up, it's priorityChange==true.  If intermediateChanges==true,
		//		onChange is only called form priorityChange=true events.
		// tags:
		//		private
		this._lastValue = newValue;
		if(this._lastValueReported == undefined && (priorityChange === null || !this._onChangeActive)){
			// this block executes not for a change, but during initialization,
			// and is used to store away the original value (or for ToggleButton, the original checked state)
			this._resetValue = this._lastValueReported = newValue;
		}
		if((this.intermediateChanges || priorityChange || priorityChange === undefined) &&
			((typeof newValue != typeof this._lastValueReported) ||
				this.compare(newValue, this._lastValueReported) != 0)){
			this._lastValueReported = newValue;
			if(this._onChangeActive){ this.onChange(newValue); }
		}
	},

	create: function(){
		// Overrides _Widget.create()
		this.inherited(arguments);
		this._onChangeActive = true;
		this._setStateClass();
	},

	destroy: function(){
		if(this._layoutHackHandle){
			clearTimeout(this._layoutHackHandle);
		}
		this.inherited(arguments);
	},

	setValue: function(/*String*/ value){
		// summary:
		//		Deprecated.   Use attr('value', ...) instead.
		dojo.deprecated("dijit.form._FormWidget:setValue("+value+") is deprecated.  Use attr('value',"+value+") instead.", "", "2.0");
		this.attr('value', value);
	},

	getValue: function(){
		// summary:
		//		Deprecated.   Use attr('value') instead.
		dojo.deprecated(this.declaredClass+"::getValue() is deprecated. Use attr('value') instead.", "", "2.0");
		return this.attr('value');
	},

	_layoutHack: function(){
		// summary:
		//		Work around table sizing bugs on FF2 by forcing redraw

		if(dojo.isFF == 2 && !this._layoutHackHandle){
			var node=this.domNode;
			var old = node.style.opacity;
			node.style.opacity = "0.999";
			this._layoutHackHandle = setTimeout(dojo.hitch(this, function(){
				this._layoutHackHandle = null;
				node.style.opacity = old;
			}), 0);
		}
	}
});

dojo.declare("dijit.form._FormValueWidget", dijit.form._FormWidget,
{
	// summary:
	//		Base class for widgets corresponding to native HTML elements such as <input> or <select> that have user changeable values.
	// description:
	//		Each _FormValueWidget represents a single input value, and has a (possibly hidden) <input> element,
	//		to which it serializes it's input value, so that form submission (either normal submission or via FormBind?)
	//		works as expected.

	// Don't attempt to mixin the 'type', 'name' attributes here programatically -- they must be declared
	// directly in the template as read by the parser in order to function. IE is known to specifically
	// require the 'name' attribute at element creation time.   See #8484, #8660.
	// TODO: unclear what that {value: ""} is for; FormWidget.attributeMap copies value to focusNode,
	// so maybe {value: ""} is so the value *doesn't* get copied to focusNode?
	// Seems like we really want value removed from attributeMap altogether
	// (although there's no easy way to do that now)
	attributeMap: dojo.delegate(dijit.form._FormWidget.prototype.attributeMap, { value: "" }),

	postCreate: function(){
		if(dojo.isIE || dojo.isWebKit){ // IE won't stop the event with keypress and Safari won't send an ESCAPE to keypress at all
			this.connect(this.focusNode || this.domNode, "onkeydown", this._onKeyDown);
		}
		// Update our reset value if it hasn't yet been set (because this.attr
		// is only called when there *is* a value
		if(this._resetValue === undefined){
			this._resetValue = this.value;
		}
	},

	_setValueAttr: function(/*anything*/ newValue, /*Boolean, optional*/ priorityChange){
		// summary:
		//		Hook so attr('value', value) works.
		// description:
		//		Sets the value of the widget.
		//		If the value has changed, then fire onChange event, unless priorityChange
		//		is specified as null (or false?)
		this.value = newValue;
		this._handleOnChange(newValue, priorityChange);
	},

	_getValueAttr: function(/*String*/ value){
		// summary:
		//		Hook so attr('value') works.
		return this._lastValue;
	},

	undo: function(){
		// summary:
		//		Restore the value to the last value passed to onChange
		this._setValueAttr(this._lastValueReported, false);
	},

	reset: function(){
		// summary:
		//		Reset the widget's value to what it was at initialization time
		this._hasBeenBlurred = false;
		this._setValueAttr(this._resetValue, true);
	},

	_onKeyDown: function(e){
		if(e.keyCode == dojo.keys.ESCAPE && !e.ctrlKey && !e.altKey){
			var te;
			if(dojo.isIE){ 
				e.preventDefault(); // default behavior needs to be stopped here since keypress is too late
				te = document.createEventObject();
				te.keyCode = dojo.keys.ESCAPE;
				te.shiftKey = e.shiftKey;
				e.srcElement.fireEvent('onkeypress', te);
			}else if(dojo.isWebKit){ // ESCAPE needs help making it into keypress
				te = document.createEvent('Events');
				te.initEvent('keypress', true, true);
				te.keyCode = dojo.keys.ESCAPE;
				te.shiftKey = e.shiftKey;
				e.target.dispatchEvent(te);
			}
		}
	}
});

}

if(!dojo._hasResource["dijit.dijit"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code.
dojo._hasResource["dijit.dijit"] = true;
dojo.provide("dijit.dijit");

/*=====
dijit.dijit = {
	// summary: A roll-up for common dijit methods
	// description:
	//	A rollup file for the build system including the core and common
	//	dijit files.
	//	
	// example:
	// | <script type="text/javascript" src="js/dojo/dijit/dijit.js"></script>
	//
};
=====*/

// All the stuff in _base (these are the function that are guaranteed available without an explicit dojo.require)


// And some other stuff that we tend to pull in all the time anyway







}