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mumble-django/htdocs/ext-3.2.0/pkgs/pkg-tree-debug.js

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/*!
* Ext JS Library 3.2.0
* Copyright(c) 2006-2010 Ext JS, Inc.
* licensing@extjs.com
* http://www.extjs.com/license
*/
/**
* @class Ext.tree.TreePanel
* @extends Ext.Panel
* <p>The TreePanel provides tree-structured UI representation of tree-structured data.</p>
* <p>{@link Ext.tree.TreeNode TreeNode}s added to the TreePanel may each contain metadata
* used by your application in their {@link Ext.tree.TreeNode#attributes attributes} property.</p>
* <p><b>A TreePanel must have a {@link #root} node before it is rendered.</b> This may either be
* specified using the {@link #root} config option, or using the {@link #setRootNode} method.
* <p>An example of tree rendered to an existing div:</p><pre><code>
var tree = new Ext.tree.TreePanel({
renderTo: 'tree-div',
useArrows: true,
autoScroll: true,
animate: true,
enableDD: true,
containerScroll: true,
border: false,
// auto create TreeLoader
dataUrl: 'get-nodes.php',
root: {
nodeType: 'async',
text: 'Ext JS',
draggable: false,
id: 'source'
}
});
tree.getRootNode().expand();
* </code></pre>
* <p>The example above would work with a data packet similar to this:</p><pre><code>
[{
"text": "adapter",
"id": "source\/adapter",
"cls": "folder"
}, {
"text": "dd",
"id": "source\/dd",
"cls": "folder"
}, {
"text": "debug.js",
"id": "source\/debug.js",
"leaf": true,
"cls": "file"
}]
* </code></pre>
* <p>An example of tree within a Viewport:</p><pre><code>
new Ext.Viewport({
layout: 'border',
items: [{
region: 'west',
collapsible: true,
title: 'Navigation',
xtype: 'treepanel',
width: 200,
autoScroll: true,
split: true,
loader: new Ext.tree.TreeLoader(),
root: new Ext.tree.AsyncTreeNode({
expanded: true,
children: [{
text: 'Menu Option 1',
leaf: true
}, {
text: 'Menu Option 2',
leaf: true
}, {
text: 'Menu Option 3',
leaf: true
}]
}),
rootVisible: false,
listeners: {
click: function(n) {
Ext.Msg.alert('Navigation Tree Click', 'You clicked: "' + n.attributes.text + '"');
}
}
}, {
region: 'center',
xtype: 'tabpanel',
// remaining code not shown ...
}]
});
</code></pre>
*
* @cfg {Ext.tree.TreeNode} root The root node for the tree.
* @cfg {Boolean} rootVisible <tt>false</tt> to hide the root node (defaults to <tt>true</tt>)
* @cfg {Boolean} lines <tt>false</tt> to disable tree lines (defaults to <tt>true</tt>)
* @cfg {Boolean} enableDD <tt>true</tt> to enable drag and drop
* @cfg {Boolean} enableDrag <tt>true</tt> to enable just drag
* @cfg {Boolean} enableDrop <tt>true</tt> to enable just drop
* @cfg {Object} dragConfig Custom config to pass to the {@link Ext.tree.TreeDragZone} instance
* @cfg {Object} dropConfig Custom config to pass to the {@link Ext.tree.TreeDropZone} instance
* @cfg {String} ddGroup The DD group this TreePanel belongs to
* @cfg {Boolean} ddAppendOnly <tt>true</tt> if the tree should only allow append drops (use for trees which are sorted)
* @cfg {Boolean} ddScroll <tt>true</tt> to enable body scrolling
* @cfg {Boolean} containerScroll <tt>true</tt> to register this container with ScrollManager
* @cfg {Boolean} hlDrop <tt>false</tt> to disable node highlight on drop (defaults to the value of {@link Ext#enableFx})
* @cfg {String} hlColor The color of the node highlight (defaults to <tt>'C3DAF9'</tt>)
* @cfg {Boolean} animate <tt>true</tt> to enable animated expand/collapse (defaults to the value of {@link Ext#enableFx})
* @cfg {Boolean} singleExpand <tt>true</tt> if only 1 node per branch may be expanded
* @cfg {Object} selModel A tree selection model to use with this TreePanel (defaults to an {@link Ext.tree.DefaultSelectionModel})
* @cfg {Boolean} trackMouseOver <tt>false</tt> to disable mouse over highlighting
* @cfg {Ext.tree.TreeLoader} loader A {@link Ext.tree.TreeLoader} for use with this TreePanel
* @cfg {String} pathSeparator The token used to separate sub-paths in path strings (defaults to <tt>'/'</tt>)
* @cfg {Boolean} useArrows <tt>true</tt> to use Vista-style arrows in the tree (defaults to <tt>false</tt>)
* @cfg {String} requestMethod The HTTP request method for loading data (defaults to the value of {@link Ext.Ajax#method}).
*
* @constructor
* @param {Object} config
* @xtype treepanel
*/
Ext.tree.TreePanel = Ext.extend(Ext.Panel, {
rootVisible : true,
animate : Ext.enableFx,
lines : true,
enableDD : false,
hlDrop : Ext.enableFx,
pathSeparator : '/',
/**
* @cfg {Array} bubbleEvents
* <p>An array of events that, when fired, should be bubbled to any parent container.
* See {@link Ext.util.Observable#enableBubble}.
* Defaults to <tt>[]</tt>.
*/
bubbleEvents : [],
initComponent : function(){
Ext.tree.TreePanel.superclass.initComponent.call(this);
if(!this.eventModel){
this.eventModel = new Ext.tree.TreeEventModel(this);
}
// initialize the loader
var l = this.loader;
if(!l){
l = new Ext.tree.TreeLoader({
dataUrl: this.dataUrl,
requestMethod: this.requestMethod
});
}else if(Ext.isObject(l) && !l.load){
l = new Ext.tree.TreeLoader(l);
}
this.loader = l;
this.nodeHash = {};
/**
* The root node of this tree.
* @type Ext.tree.TreeNode
* @property root
*/
if(this.root){
var r = this.root;
delete this.root;
this.setRootNode(r);
}
this.addEvents(
/**
* @event append
* Fires when a new child node is appended to a node in this tree.
* @param {Tree} tree The owner tree
* @param {Node} parent The parent node
* @param {Node} node The newly appended node
* @param {Number} index The index of the newly appended node
*/
'append',
/**
* @event remove
* Fires when a child node is removed from a node in this tree.
* @param {Tree} tree The owner tree
* @param {Node} parent The parent node
* @param {Node} node The child node removed
*/
'remove',
/**
* @event movenode
* Fires when a node is moved to a new location in the tree
* @param {Tree} tree The owner tree
* @param {Node} node The node moved
* @param {Node} oldParent The old parent of this node
* @param {Node} newParent The new parent of this node
* @param {Number} index The index it was moved to
*/
'movenode',
/**
* @event insert
* Fires when a new child node is inserted in a node in this tree.
* @param {Tree} tree The owner tree
* @param {Node} parent The parent node
* @param {Node} node The child node inserted
* @param {Node} refNode The child node the node was inserted before
*/
'insert',
/**
* @event beforeappend
* Fires before a new child is appended to a node in this tree, return false to cancel the append.
* @param {Tree} tree The owner tree
* @param {Node} parent The parent node
* @param {Node} node The child node to be appended
*/
'beforeappend',
/**
* @event beforeremove
* Fires before a child is removed from a node in this tree, return false to cancel the remove.
* @param {Tree} tree The owner tree
* @param {Node} parent The parent node
* @param {Node} node The child node to be removed
*/
'beforeremove',
/**
* @event beforemovenode
* Fires before a node is moved to a new location in the tree. Return false to cancel the move.
* @param {Tree} tree The owner tree
* @param {Node} node The node being moved
* @param {Node} oldParent The parent of the node
* @param {Node} newParent The new parent the node is moving to
* @param {Number} index The index it is being moved to
*/
'beforemovenode',
/**
* @event beforeinsert
* Fires before a new child is inserted in a node in this tree, return false to cancel the insert.
* @param {Tree} tree The owner tree
* @param {Node} parent The parent node
* @param {Node} node The child node to be inserted
* @param {Node} refNode The child node the node is being inserted before
*/
'beforeinsert',
/**
* @event beforeload
* Fires before a node is loaded, return false to cancel
* @param {Node} node The node being loaded
*/
'beforeload',
/**
* @event load
* Fires when a node is loaded
* @param {Node} node The node that was loaded
*/
'load',
/**
* @event textchange
* Fires when the text for a node is changed
* @param {Node} node The node
* @param {String} text The new text
* @param {String} oldText The old text
*/
'textchange',
/**
* @event beforeexpandnode
* Fires before a node is expanded, return false to cancel.
* @param {Node} node The node
* @param {Boolean} deep
* @param {Boolean} anim
*/
'beforeexpandnode',
/**
* @event beforecollapsenode
* Fires before a node is collapsed, return false to cancel.
* @param {Node} node The node
* @param {Boolean} deep
* @param {Boolean} anim
*/
'beforecollapsenode',
/**
* @event expandnode
* Fires when a node is expanded
* @param {Node} node The node
*/
'expandnode',
/**
* @event disabledchange
* Fires when the disabled status of a node changes
* @param {Node} node The node
* @param {Boolean} disabled
*/
'disabledchange',
/**
* @event collapsenode
* Fires when a node is collapsed
* @param {Node} node The node
*/
'collapsenode',
/**
* @event beforeclick
* Fires before click processing on a node. Return false to cancel the default action.
* @param {Node} node The node
* @param {Ext.EventObject} e The event object
*/
'beforeclick',
/**
* @event click
* Fires when a node is clicked
* @param {Node} node The node
* @param {Ext.EventObject} e The event object
*/
'click',
/**
* @event containerclick
* Fires when the tree container is clicked
* @param {Tree} this
* @param {Ext.EventObject} e The event object
*/
'containerclick',
/**
* @event checkchange
* Fires when a node with a checkbox's checked property changes
* @param {Node} this This node
* @param {Boolean} checked
*/
'checkchange',
/**
* @event beforedblclick
* Fires before double click processing on a node. Return false to cancel the default action.
* @param {Node} node The node
* @param {Ext.EventObject} e The event object
*/
'beforedblclick',
/**
* @event dblclick
* Fires when a node is double clicked
* @param {Node} node The node
* @param {Ext.EventObject} e The event object
*/
'dblclick',
/**
* @event containerdblclick
* Fires when the tree container is double clicked
* @param {Tree} this
* @param {Ext.EventObject} e The event object
*/
'containerdblclick',
/**
* @event contextmenu
* Fires when a node is right clicked. To display a context menu in response to this
* event, first create a Menu object (see {@link Ext.menu.Menu} for details), then add
* a handler for this event:<pre><code>
new Ext.tree.TreePanel({
title: 'My TreePanel',
root: new Ext.tree.AsyncTreeNode({
text: 'The Root',
children: [
{ text: 'Child node 1', leaf: true },
{ text: 'Child node 2', leaf: true }
]
}),
contextMenu: new Ext.menu.Menu({
items: [{
id: 'delete-node',
text: 'Delete Node'
}],
listeners: {
itemclick: function(item) {
switch (item.id) {
case 'delete-node':
var n = item.parentMenu.contextNode;
if (n.parentNode) {
n.remove();
}
break;
}
}
}
}),
listeners: {
contextmenu: function(node, e) {
// Register the context node with the menu so that a Menu Item's handler function can access
// it via its {@link Ext.menu.BaseItem#parentMenu parentMenu} property.
node.select();
var c = node.getOwnerTree().contextMenu;
c.contextNode = node;
c.showAt(e.getXY());
}
}
});
</code></pre>
* @param {Node} node The node
* @param {Ext.EventObject} e The event object
*/
'contextmenu',
/**
* @event containercontextmenu
* Fires when the tree container is right clicked
* @param {Tree} this
* @param {Ext.EventObject} e The event object
*/
'containercontextmenu',
/**
* @event beforechildrenrendered
* Fires right before the child nodes for a node are rendered
* @param {Node} node The node
*/
'beforechildrenrendered',
/**
* @event startdrag
* Fires when a node starts being dragged
* @param {Ext.tree.TreePanel} this
* @param {Ext.tree.TreeNode} node
* @param {event} e The raw browser event
*/
'startdrag',
/**
* @event enddrag
* Fires when a drag operation is complete
* @param {Ext.tree.TreePanel} this
* @param {Ext.tree.TreeNode} node
* @param {event} e The raw browser event
*/
'enddrag',
/**
* @event dragdrop
* Fires when a dragged node is dropped on a valid DD target
* @param {Ext.tree.TreePanel} this
* @param {Ext.tree.TreeNode} node
* @param {DD} dd The dd it was dropped on
* @param {event} e The raw browser event
*/
'dragdrop',
/**
* @event beforenodedrop
* Fires when a DD object is dropped on a node in this tree for preprocessing. Return false to cancel the drop. The dropEvent
* passed to handlers has the following properties:<br />
* <ul style="padding:5px;padding-left:16px;">
* <li>tree - The TreePanel</li>
* <li>target - The node being targeted for the drop</li>
* <li>data - The drag data from the drag source</li>
* <li>point - The point of the drop - append, above or below</li>
* <li>source - The drag source</li>
* <li>rawEvent - Raw mouse event</li>
* <li>dropNode - Drop node(s) provided by the source <b>OR</b> you can supply node(s)
* to be inserted by setting them on this object.</li>
* <li>cancel - Set this to true to cancel the drop.</li>
* <li>dropStatus - If the default drop action is cancelled but the drop is valid, setting this to true
* will prevent the animated 'repair' from appearing.</li>
* </ul>
* @param {Object} dropEvent
*/
'beforenodedrop',
/**
* @event nodedrop
* Fires after a DD object is dropped on a node in this tree. The dropEvent
* passed to handlers has the following properties:<br />
* <ul style="padding:5px;padding-left:16px;">
* <li>tree - The TreePanel</li>
* <li>target - The node being targeted for the drop</li>
* <li>data - The drag data from the drag source</li>
* <li>point - The point of the drop - append, above or below</li>
* <li>source - The drag source</li>
* <li>rawEvent - Raw mouse event</li>
* <li>dropNode - Dropped node(s).</li>
* </ul>
* @param {Object} dropEvent
*/
'nodedrop',
/**
* @event nodedragover
* Fires when a tree node is being targeted for a drag drop, return false to signal drop not allowed. The dragOverEvent
* passed to handlers has the following properties:<br />
* <ul style="padding:5px;padding-left:16px;">
* <li>tree - The TreePanel</li>
* <li>target - The node being targeted for the drop</li>
* <li>data - The drag data from the drag source</li>
* <li>point - The point of the drop - append, above or below</li>
* <li>source - The drag source</li>
* <li>rawEvent - Raw mouse event</li>
* <li>dropNode - Drop node(s) provided by the source.</li>
* <li>cancel - Set this to true to signal drop not allowed.</li>
* </ul>
* @param {Object} dragOverEvent
*/
'nodedragover'
);
if(this.singleExpand){
this.on('beforeexpandnode', this.restrictExpand, this);
}
},
// private
proxyNodeEvent : function(ename, a1, a2, a3, a4, a5, a6){
if(ename == 'collapse' || ename == 'expand' || ename == 'beforecollapse' || ename == 'beforeexpand' || ename == 'move' || ename == 'beforemove'){
ename = ename+'node';
}
// args inline for performance while bubbling events
return this.fireEvent(ename, a1, a2, a3, a4, a5, a6);
},
/**
* Returns this root node for this tree
* @return {Node}
*/
getRootNode : function(){
return this.root;
},
/**
* Sets the root node for this tree. If the TreePanel has already rendered a root node, the
* previous root node (and all of its descendants) are destroyed before the new root node is rendered.
* @param {Node} node
* @return {Node}
*/
setRootNode : function(node){
this.destroyRoot();
if(!node.render){ // attributes passed
node = this.loader.createNode(node);
}
this.root = node;
node.ownerTree = this;
node.isRoot = true;
this.registerNode(node);
if(!this.rootVisible){
var uiP = node.attributes.uiProvider;
node.ui = uiP ? new uiP(node) : new Ext.tree.RootTreeNodeUI(node);
}
if(this.innerCt){
this.clearInnerCt();
this.renderRoot();
}
return node;
},
clearInnerCt : function(){
this.innerCt.update('');
},
// private
renderRoot : function(){
this.root.render();
if(!this.rootVisible){
this.root.renderChildren();
}
},
/**
* Gets a node in this tree by its id
* @param {String} id
* @return {Node}
*/
getNodeById : function(id){
return this.nodeHash[id];
},
// private
registerNode : function(node){
this.nodeHash[node.id] = node;
},
// private
unregisterNode : function(node){
delete this.nodeHash[node.id];
},
// private
toString : function(){
return '[Tree'+(this.id?' '+this.id:'')+']';
},
// private
restrictExpand : function(node){
var p = node.parentNode;
if(p){
if(p.expandedChild && p.expandedChild.parentNode == p){
p.expandedChild.collapse();
}
p.expandedChild = node;
}
},
/**
* Retrieve an array of checked nodes, or an array of a specific attribute of checked nodes (e.g. 'id')
* @param {String} attribute (optional) Defaults to null (return the actual nodes)
* @param {TreeNode} startNode (optional) The node to start from, defaults to the root
* @return {Array}
*/
getChecked : function(a, startNode){
startNode = startNode || this.root;
var r = [];
var f = function(){
if(this.attributes.checked){
r.push(!a ? this : (a == 'id' ? this.id : this.attributes[a]));
}
};
startNode.cascade(f);
return r;
},
/**
* Returns the default {@link Ext.tree.TreeLoader} for this TreePanel.
* @return {Ext.tree.TreeLoader} The TreeLoader for this TreePanel.
*/
getLoader : function(){
return this.loader;
},
/**
* Expand all nodes
*/
expandAll : function(){
this.root.expand(true);
},
/**
* Collapse all nodes
*/
collapseAll : function(){
this.root.collapse(true);
},
/**
* Returns the selection model used by this TreePanel.
* @return {TreeSelectionModel} The selection model used by this TreePanel
*/
getSelectionModel : function(){
if(!this.selModel){
this.selModel = new Ext.tree.DefaultSelectionModel();
}
return this.selModel;
},
/**
* Expands a specified path in this TreePanel. A path can be retrieved from a node with {@link Ext.data.Node#getPath}
* @param {String} path
* @param {String} attr (optional) The attribute used in the path (see {@link Ext.data.Node#getPath} for more info)
* @param {Function} callback (optional) The callback to call when the expand is complete. The callback will be called with
* (bSuccess, oLastNode) where bSuccess is if the expand was successful and oLastNode is the last node that was expanded.
*/
expandPath : function(path, attr, callback){
attr = attr || 'id';
var keys = path.split(this.pathSeparator);
var curNode = this.root;
if(curNode.attributes[attr] != keys[1]){ // invalid root
if(callback){
callback(false, null);
}
return;
}
var index = 1;
var f = function(){
if(++index == keys.length){
if(callback){
callback(true, curNode);
}
return;
}
var c = curNode.findChild(attr, keys[index]);
if(!c){
if(callback){
callback(false, curNode);
}
return;
}
curNode = c;
c.expand(false, false, f);
};
curNode.expand(false, false, f);
},
/**
* Selects the node in this tree at the specified path. A path can be retrieved from a node with {@link Ext.data.Node#getPath}
* @param {String} path
* @param {String} attr (optional) The attribute used in the path (see {@link Ext.data.Node#getPath} for more info)
* @param {Function} callback (optional) The callback to call when the selection is complete. The callback will be called with
* (bSuccess, oSelNode) where bSuccess is if the selection was successful and oSelNode is the selected node.
*/
selectPath : function(path, attr, callback){
attr = attr || 'id';
var keys = path.split(this.pathSeparator),
v = keys.pop();
if(keys.length > 1){
var f = function(success, node){
if(success && node){
var n = node.findChild(attr, v);
if(n){
n.select();
if(callback){
callback(true, n);
}
}else if(callback){
callback(false, n);
}
}else{
if(callback){
callback(false, n);
}
}
};
this.expandPath(keys.join(this.pathSeparator), attr, f);
}else{
this.root.select();
if(callback){
callback(true, this.root);
}
}
},
/**
* Returns the underlying Element for this tree
* @return {Ext.Element} The Element
*/
getTreeEl : function(){
return this.body;
},
// private
onRender : function(ct, position){
Ext.tree.TreePanel.superclass.onRender.call(this, ct, position);
this.el.addClass('x-tree');
this.innerCt = this.body.createChild({tag:'ul',
cls:'x-tree-root-ct ' +
(this.useArrows ? 'x-tree-arrows' : this.lines ? 'x-tree-lines' : 'x-tree-no-lines')});
},
// private
initEvents : function(){
Ext.tree.TreePanel.superclass.initEvents.call(this);
if(this.containerScroll){
Ext.dd.ScrollManager.register(this.body);
}
if((this.enableDD || this.enableDrop) && !this.dropZone){
/**
* The dropZone used by this tree if drop is enabled (see {@link #enableDD} or {@link #enableDrop})
* @property dropZone
* @type Ext.tree.TreeDropZone
*/
this.dropZone = new Ext.tree.TreeDropZone(this, this.dropConfig || {
ddGroup: this.ddGroup || 'TreeDD', appendOnly: this.ddAppendOnly === true
});
}
if((this.enableDD || this.enableDrag) && !this.dragZone){
/**
* The dragZone used by this tree if drag is enabled (see {@link #enableDD} or {@link #enableDrag})
* @property dragZone
* @type Ext.tree.TreeDragZone
*/
this.dragZone = new Ext.tree.TreeDragZone(this, this.dragConfig || {
ddGroup: this.ddGroup || 'TreeDD',
scroll: this.ddScroll
});
}
this.getSelectionModel().init(this);
},
// private
afterRender : function(){
Ext.tree.TreePanel.superclass.afterRender.call(this);
this.renderRoot();
},
beforeDestroy : function(){
if(this.rendered){
Ext.dd.ScrollManager.unregister(this.body);
Ext.destroy(this.dropZone, this.dragZone);
}
this.destroyRoot();
Ext.destroy(this.loader);
this.nodeHash = this.root = this.loader = null;
Ext.tree.TreePanel.superclass.beforeDestroy.call(this);
},
/**
* Destroy the root node. Not included by itself because we need to pass the silent parameter.
* @private
*/
destroyRoot : function(){
if(this.root && this.root.destroy){
this.root.destroy(true);
}
}
/**
* @cfg {String/Number} activeItem
* @hide
*/
/**
* @cfg {Boolean} autoDestroy
* @hide
*/
/**
* @cfg {Object/String/Function} autoLoad
* @hide
*/
/**
* @cfg {Boolean} autoWidth
* @hide
*/
/**
* @cfg {Boolean/Number} bufferResize
* @hide
*/
/**
* @cfg {String} defaultType
* @hide
*/
/**
* @cfg {Object} defaults
* @hide
*/
/**
* @cfg {Boolean} hideBorders
* @hide
*/
/**
* @cfg {Mixed} items
* @hide
*/
/**
* @cfg {String} layout
* @hide
*/
/**
* @cfg {Object} layoutConfig
* @hide
*/
/**
* @cfg {Boolean} monitorResize
* @hide
*/
/**
* @property items
* @hide
*/
/**
* @method cascade
* @hide
*/
/**
* @method doLayout
* @hide
*/
/**
* @method find
* @hide
*/
/**
* @method findBy
* @hide
*/
/**
* @method findById
* @hide
*/
/**
* @method findByType
* @hide
*/
/**
* @method getComponent
* @hide
*/
/**
* @method getLayout
* @hide
*/
/**
* @method getUpdater
* @hide
*/
/**
* @method insert
* @hide
*/
/**
* @method load
* @hide
*/
/**
* @method remove
* @hide
*/
/**
* @event add
* @hide
*/
/**
* @method removeAll
* @hide
*/
/**
* @event afterLayout
* @hide
*/
/**
* @event beforeadd
* @hide
*/
/**
* @event beforeremove
* @hide
*/
/**
* @event remove
* @hide
*/
/**
* @cfg {String} allowDomMove @hide
*/
/**
* @cfg {String} autoEl @hide
*/
/**
* @cfg {String} applyTo @hide
*/
/**
* @cfg {String} contentEl @hide
*/
/**
* @cfg {Mixed} data @hide
*/
/**
* @cfg {Mixed} tpl @hide
*/
/**
* @cfg {String} tplWriteMode @hide
*/
/**
* @cfg {String} disabledClass @hide
*/
/**
* @cfg {String} elements @hide
*/
/**
* @cfg {String} html @hide
*/
/**
* @cfg {Boolean} preventBodyReset
* @hide
*/
/**
* @property disabled
* @hide
*/
/**
* @method applyToMarkup
* @hide
*/
/**
* @method enable
* @hide
*/
/**
* @method disable
* @hide
*/
/**
* @method setDisabled
* @hide
*/
});
Ext.tree.TreePanel.nodeTypes = {};
Ext.reg('treepanel', Ext.tree.TreePanel);Ext.tree.TreeEventModel = function(tree){
this.tree = tree;
this.tree.on('render', this.initEvents, this);
};
Ext.tree.TreeEventModel.prototype = {
initEvents : function(){
var t = this.tree;
if(t.trackMouseOver !== false){
t.mon(t.innerCt, {
scope: this,
mouseover: this.delegateOver,
mouseout: this.delegateOut
});
}
t.mon(t.getTreeEl(), {
scope: this,
click: this.delegateClick,
dblclick: this.delegateDblClick,
contextmenu: this.delegateContextMenu
});
},
getNode : function(e){
var t;
if(t = e.getTarget('.x-tree-node-el', 10)){
var id = Ext.fly(t, '_treeEvents').getAttribute('tree-node-id', 'ext');
if(id){
return this.tree.getNodeById(id);
}
}
return null;
},
getNodeTarget : function(e){
var t = e.getTarget('.x-tree-node-icon', 1);
if(!t){
t = e.getTarget('.x-tree-node-el', 6);
}
return t;
},
delegateOut : function(e, t){
if(!this.beforeEvent(e)){
return;
}
if(e.getTarget('.x-tree-ec-icon', 1)){
var n = this.getNode(e);
this.onIconOut(e, n);
if(n == this.lastEcOver){
delete this.lastEcOver;
}
}
if((t = this.getNodeTarget(e)) && !e.within(t, true)){
this.onNodeOut(e, this.getNode(e));
}
},
delegateOver : function(e, t){
if(!this.beforeEvent(e)){
return;
}
if(Ext.isGecko && !this.trackingDoc){ // prevent hanging in FF
Ext.getBody().on('mouseover', this.trackExit, this);
this.trackingDoc = true;
}
if(this.lastEcOver){ // prevent hung highlight
this.onIconOut(e, this.lastEcOver);
delete this.lastEcOver;
}
if(e.getTarget('.x-tree-ec-icon', 1)){
this.lastEcOver = this.getNode(e);
this.onIconOver(e, this.lastEcOver);
}
if(t = this.getNodeTarget(e)){
this.onNodeOver(e, this.getNode(e));
}
},
trackExit : function(e){
if(this.lastOverNode){
if(this.lastOverNode.ui && !e.within(this.lastOverNode.ui.getEl())){
this.onNodeOut(e, this.lastOverNode);
}
delete this.lastOverNode;
Ext.getBody().un('mouseover', this.trackExit, this);
this.trackingDoc = false;
}
},
delegateClick : function(e, t){
if(this.beforeEvent(e)){
if(e.getTarget('input[type=checkbox]', 1)){
this.onCheckboxClick(e, this.getNode(e));
}else if(e.getTarget('.x-tree-ec-icon', 1)){
this.onIconClick(e, this.getNode(e));
}else if(this.getNodeTarget(e)){
this.onNodeClick(e, this.getNode(e));
}
}else{
this.checkContainerEvent(e, 'click');
}
},
delegateDblClick : function(e, t){
if(this.beforeEvent(e)){
if(this.getNodeTarget(e)){
this.onNodeDblClick(e, this.getNode(e));
}
}else{
this.checkContainerEvent(e, 'dblclick');
}
},
delegateContextMenu : function(e, t){
if(this.beforeEvent(e)){
if(this.getNodeTarget(e)){
this.onNodeContextMenu(e, this.getNode(e));
}
}else{
this.checkContainerEvent(e, 'contextmenu');
}
},
checkContainerEvent: function(e, type){
if(this.disabled){
e.stopEvent();
return false;
}
this.onContainerEvent(e, type);
},
onContainerEvent: function(e, type){
this.tree.fireEvent('container' + type, this.tree, e);
},
onNodeClick : function(e, node){
node.ui.onClick(e);
},
onNodeOver : function(e, node){
this.lastOverNode = node;
node.ui.onOver(e);
},
onNodeOut : function(e, node){
node.ui.onOut(e);
},
onIconOver : function(e, node){
node.ui.addClass('x-tree-ec-over');
},
onIconOut : function(e, node){
node.ui.removeClass('x-tree-ec-over');
},
onIconClick : function(e, node){
node.ui.ecClick(e);
},
onCheckboxClick : function(e, node){
node.ui.onCheckChange(e);
},
onNodeDblClick : function(e, node){
node.ui.onDblClick(e);
},
onNodeContextMenu : function(e, node){
node.ui.onContextMenu(e);
},
beforeEvent : function(e){
var node = this.getNode(e);
if(this.disabled || !node || !node.ui){
e.stopEvent();
return false;
}
return true;
},
disable: function(){
this.disabled = true;
},
enable: function(){
this.disabled = false;
}
};/**
* @class Ext.tree.DefaultSelectionModel
* @extends Ext.util.Observable
* The default single selection for a TreePanel.
*/
Ext.tree.DefaultSelectionModel = function(config){
this.selNode = null;
this.addEvents(
/**
* @event selectionchange
* Fires when the selected node changes
* @param {DefaultSelectionModel} this
* @param {TreeNode} node the new selection
*/
'selectionchange',
/**
* @event beforeselect
* Fires before the selected node changes, return false to cancel the change
* @param {DefaultSelectionModel} this
* @param {TreeNode} node the new selection
* @param {TreeNode} node the old selection
*/
'beforeselect'
);
Ext.apply(this, config);
Ext.tree.DefaultSelectionModel.superclass.constructor.call(this);
};
Ext.extend(Ext.tree.DefaultSelectionModel, Ext.util.Observable, {
init : function(tree){
this.tree = tree;
tree.mon(tree.getTreeEl(), 'keydown', this.onKeyDown, this);
tree.on('click', this.onNodeClick, this);
},
onNodeClick : function(node, e){
this.select(node);
},
/**
* Select a node.
* @param {TreeNode} node The node to select
* @return {TreeNode} The selected node
*/
select : function(node, /* private*/ selectNextNode){
// If node is hidden, select the next node in whatever direction was being moved in.
if (!Ext.fly(node.ui.wrap).isVisible() && selectNextNode) {
return selectNextNode.call(this, node);
}
var last = this.selNode;
if(node == last){
node.ui.onSelectedChange(true);
}else if(this.fireEvent('beforeselect', this, node, last) !== false){
if(last && last.ui){
last.ui.onSelectedChange(false);
}
this.selNode = node;
node.ui.onSelectedChange(true);
this.fireEvent('selectionchange', this, node, last);
}
return node;
},
/**
* Deselect a node.
* @param {TreeNode} node The node to unselect
* @param {Boolean} silent True to stop the selectionchange event from firing.
*/
unselect : function(node, silent){
if(this.selNode == node){
this.clearSelections(silent);
}
},
/**
* Clear all selections
* @param {Boolean} silent True to stop the selectionchange event from firing.
*/
clearSelections : function(silent){
var n = this.selNode;
if(n){
n.ui.onSelectedChange(false);
this.selNode = null;
if(silent !== true){
this.fireEvent('selectionchange', this, null);
}
}
return n;
},
/**
* Get the selected node
* @return {TreeNode} The selected node
*/
getSelectedNode : function(){
return this.selNode;
},
/**
* Returns true if the node is selected
* @param {TreeNode} node The node to check
* @return {Boolean}
*/
isSelected : function(node){
return this.selNode == node;
},
/**
* Selects the node above the selected node in the tree, intelligently walking the nodes
* @return TreeNode The new selection
*/
selectPrevious : function(/* private */ s){
if(!(s = s || this.selNode || this.lastSelNode)){
return null;
}
// Here we pass in the current function to select to indicate the direction we're moving
var ps = s.previousSibling;
if(ps){
if(!ps.isExpanded() || ps.childNodes.length < 1){
return this.select(ps, this.selectPrevious);
} else{
var lc = ps.lastChild;
while(lc && lc.isExpanded() && Ext.fly(lc.ui.wrap).isVisible() && lc.childNodes.length > 0){
lc = lc.lastChild;
}
return this.select(lc, this.selectPrevious);
}
} else if(s.parentNode && (this.tree.rootVisible || !s.parentNode.isRoot)){
return this.select(s.parentNode, this.selectPrevious);
}
return null;
},
/**
* Selects the node above the selected node in the tree, intelligently walking the nodes
* @return TreeNode The new selection
*/
selectNext : function(/* private */ s){
if(!(s = s || this.selNode || this.lastSelNode)){
return null;
}
// Here we pass in the current function to select to indicate the direction we're moving
if(s.firstChild && s.isExpanded() && Ext.fly(s.ui.wrap).isVisible()){
return this.select(s.firstChild, this.selectNext);
}else if(s.nextSibling){
return this.select(s.nextSibling, this.selectNext);
}else if(s.parentNode){
var newS = null;
s.parentNode.bubble(function(){
if(this.nextSibling){
newS = this.getOwnerTree().selModel.select(this.nextSibling, this.selectNext);
return false;
}
});
return newS;
}
return null;
},
onKeyDown : function(e){
var s = this.selNode || this.lastSelNode;
// undesirable, but required
var sm = this;
if(!s){
return;
}
var k = e.getKey();
switch(k){
case e.DOWN:
e.stopEvent();
this.selectNext();
break;
case e.UP:
e.stopEvent();
this.selectPrevious();
break;
case e.RIGHT:
e.preventDefault();
if(s.hasChildNodes()){
if(!s.isExpanded()){
s.expand();
}else if(s.firstChild){
this.select(s.firstChild, e);
}
}
break;
case e.LEFT:
e.preventDefault();
if(s.hasChildNodes() && s.isExpanded()){
s.collapse();
}else if(s.parentNode && (this.tree.rootVisible || s.parentNode != this.tree.getRootNode())){
this.select(s.parentNode, e);
}
break;
};
}
});
/**
* @class Ext.tree.MultiSelectionModel
* @extends Ext.util.Observable
* Multi selection for a TreePanel.
*/
Ext.tree.MultiSelectionModel = function(config){
this.selNodes = [];
this.selMap = {};
this.addEvents(
/**
* @event selectionchange
* Fires when the selected nodes change
* @param {MultiSelectionModel} this
* @param {Array} nodes Array of the selected nodes
*/
'selectionchange'
);
Ext.apply(this, config);
Ext.tree.MultiSelectionModel.superclass.constructor.call(this);
};
Ext.extend(Ext.tree.MultiSelectionModel, Ext.util.Observable, {
init : function(tree){
this.tree = tree;
tree.mon(tree.getTreeEl(), 'keydown', this.onKeyDown, this);
tree.on('click', this.onNodeClick, this);
},
onNodeClick : function(node, e){
if(e.ctrlKey && this.isSelected(node)){
this.unselect(node);
}else{
this.select(node, e, e.ctrlKey);
}
},
/**
* Select a node.
* @param {TreeNode} node The node to select
* @param {EventObject} e (optional) An event associated with the selection
* @param {Boolean} keepExisting True to retain existing selections
* @return {TreeNode} The selected node
*/
select : function(node, e, keepExisting){
if(keepExisting !== true){
this.clearSelections(true);
}
if(this.isSelected(node)){
this.lastSelNode = node;
return node;
}
this.selNodes.push(node);
this.selMap[node.id] = node;
this.lastSelNode = node;
node.ui.onSelectedChange(true);
this.fireEvent('selectionchange', this, this.selNodes);
return node;
},
/**
* Deselect a node.
* @param {TreeNode} node The node to unselect
*/
unselect : function(node){
if(this.selMap[node.id]){
node.ui.onSelectedChange(false);
var sn = this.selNodes;
var index = sn.indexOf(node);
if(index != -1){
this.selNodes.splice(index, 1);
}
delete this.selMap[node.id];
this.fireEvent('selectionchange', this, this.selNodes);
}
},
/**
* Clear all selections
*/
clearSelections : function(suppressEvent){
var sn = this.selNodes;
if(sn.length > 0){
for(var i = 0, len = sn.length; i < len; i++){
sn[i].ui.onSelectedChange(false);
}
this.selNodes = [];
this.selMap = {};
if(suppressEvent !== true){
this.fireEvent('selectionchange', this, this.selNodes);
}
}
},
/**
* Returns true if the node is selected
* @param {TreeNode} node The node to check
* @return {Boolean}
*/
isSelected : function(node){
return this.selMap[node.id] ? true : false;
},
/**
* Returns an array of the selected nodes
* @return {Array}
*/
getSelectedNodes : function(){
return this.selNodes;
},
onKeyDown : Ext.tree.DefaultSelectionModel.prototype.onKeyDown,
selectNext : Ext.tree.DefaultSelectionModel.prototype.selectNext,
selectPrevious : Ext.tree.DefaultSelectionModel.prototype.selectPrevious
});/**
* @class Ext.data.Tree
* @extends Ext.util.Observable
* Represents a tree data structure and bubbles all the events for its nodes. The nodes
* in the tree have most standard DOM functionality.
* @constructor
* @param {Node} root (optional) The root node
*/
Ext.data.Tree = function(root){
this.nodeHash = {};
/**
* The root node for this tree
* @type Node
*/
this.root = null;
if(root){
this.setRootNode(root);
}
this.addEvents(
/**
* @event append
* Fires when a new child node is appended to a node in this tree.
* @param {Tree} tree The owner tree
* @param {Node} parent The parent node
* @param {Node} node The newly appended node
* @param {Number} index The index of the newly appended node
*/
"append",
/**
* @event remove
* Fires when a child node is removed from a node in this tree.
* @param {Tree} tree The owner tree
* @param {Node} parent The parent node
* @param {Node} node The child node removed
*/
"remove",
/**
* @event move
* Fires when a node is moved to a new location in the tree
* @param {Tree} tree The owner tree
* @param {Node} node The node moved
* @param {Node} oldParent The old parent of this node
* @param {Node} newParent The new parent of this node
* @param {Number} index The index it was moved to
*/
"move",
/**
* @event insert
* Fires when a new child node is inserted in a node in this tree.
* @param {Tree} tree The owner tree
* @param {Node} parent The parent node
* @param {Node} node The child node inserted
* @param {Node} refNode The child node the node was inserted before
*/
"insert",
/**
* @event beforeappend
* Fires before a new child is appended to a node in this tree, return false to cancel the append.
* @param {Tree} tree The owner tree
* @param {Node} parent The parent node
* @param {Node} node The child node to be appended
*/
"beforeappend",
/**
* @event beforeremove
* Fires before a child is removed from a node in this tree, return false to cancel the remove.
* @param {Tree} tree The owner tree
* @param {Node} parent The parent node
* @param {Node} node The child node to be removed
*/
"beforeremove",
/**
* @event beforemove
* Fires before a node is moved to a new location in the tree. Return false to cancel the move.
* @param {Tree} tree The owner tree
* @param {Node} node The node being moved
* @param {Node} oldParent The parent of the node
* @param {Node} newParent The new parent the node is moving to
* @param {Number} index The index it is being moved to
*/
"beforemove",
/**
* @event beforeinsert
* Fires before a new child is inserted in a node in this tree, return false to cancel the insert.
* @param {Tree} tree The owner tree
* @param {Node} parent The parent node
* @param {Node} node The child node to be inserted
* @param {Node} refNode The child node the node is being inserted before
*/
"beforeinsert"
);
Ext.data.Tree.superclass.constructor.call(this);
};
Ext.extend(Ext.data.Tree, Ext.util.Observable, {
/**
* @cfg {String} pathSeparator
* The token used to separate paths in node ids (defaults to '/').
*/
pathSeparator: "/",
// private
proxyNodeEvent : function(){
return this.fireEvent.apply(this, arguments);
},
/**
* Returns the root node for this tree.
* @return {Node}
*/
getRootNode : function(){
return this.root;
},
/**
* Sets the root node for this tree.
* @param {Node} node
* @return {Node}
*/
setRootNode : function(node){
this.root = node;
node.ownerTree = this;
node.isRoot = true;
this.registerNode(node);
return node;
},
/**
* Gets a node in this tree by its id.
* @param {String} id
* @return {Node}
*/
getNodeById : function(id){
return this.nodeHash[id];
},
// private
registerNode : function(node){
this.nodeHash[node.id] = node;
},
// private
unregisterNode : function(node){
delete this.nodeHash[node.id];
},
toString : function(){
return "[Tree"+(this.id?" "+this.id:"")+"]";
}
});
/**
* @class Ext.data.Node
* @extends Ext.util.Observable
* @cfg {Boolean} leaf true if this node is a leaf and does not have children
* @cfg {String} id The id for this node. If one is not specified, one is generated.
* @constructor
* @param {Object} attributes The attributes/config for the node
*/
Ext.data.Node = function(attributes){
/**
* The attributes supplied for the node. You can use this property to access any custom attributes you supplied.
* @type {Object}
*/
this.attributes = attributes || {};
this.leaf = this.attributes.leaf;
/**
* The node id. @type String
*/
this.id = this.attributes.id;
if(!this.id){
this.id = Ext.id(null, "xnode-");
this.attributes.id = this.id;
}
/**
* All child nodes of this node. @type Array
*/
this.childNodes = [];
if(!this.childNodes.indexOf){ // indexOf is a must
this.childNodes.indexOf = function(o){
for(var i = 0, len = this.length; i < len; i++){
if(this[i] == o){
return i;
}
}
return -1;
};
}
/**
* The parent node for this node. @type Node
*/
this.parentNode = null;
/**
* The first direct child node of this node, or null if this node has no child nodes. @type Node
*/
this.firstChild = null;
/**
* The last direct child node of this node, or null if this node has no child nodes. @type Node
*/
this.lastChild = null;
/**
* The node immediately preceding this node in the tree, or null if there is no sibling node. @type Node
*/
this.previousSibling = null;
/**
* The node immediately following this node in the tree, or null if there is no sibling node. @type Node
*/
this.nextSibling = null;
this.addEvents({
/**
* @event append
* Fires when a new child node is appended
* @param {Tree} tree The owner tree
* @param {Node} this This node
* @param {Node} node The newly appended node
* @param {Number} index The index of the newly appended node
*/
"append" : true,
/**
* @event remove
* Fires when a child node is removed
* @param {Tree} tree The owner tree
* @param {Node} this This node
* @param {Node} node The removed node
*/
"remove" : true,
/**
* @event move
* Fires when this node is moved to a new location in the tree
* @param {Tree} tree The owner tree
* @param {Node} this This node
* @param {Node} oldParent The old parent of this node
* @param {Node} newParent The new parent of this node
* @param {Number} index The index it was moved to
*/
"move" : true,
/**
* @event insert
* Fires when a new child node is inserted.
* @param {Tree} tree The owner tree
* @param {Node} this This node
* @param {Node} node The child node inserted
* @param {Node} refNode The child node the node was inserted before
*/
"insert" : true,
/**
* @event beforeappend
* Fires before a new child is appended, return false to cancel the append.
* @param {Tree} tree The owner tree
* @param {Node} this This node
* @param {Node} node The child node to be appended
*/
"beforeappend" : true,
/**
* @event beforeremove
* Fires before a child is removed, return false to cancel the remove.
* @param {Tree} tree The owner tree
* @param {Node} this This node
* @param {Node} node The child node to be removed
*/
"beforeremove" : true,
/**
* @event beforemove
* Fires before this node is moved to a new location in the tree. Return false to cancel the move.
* @param {Tree} tree The owner tree
* @param {Node} this This node
* @param {Node} oldParent The parent of this node
* @param {Node} newParent The new parent this node is moving to
* @param {Number} index The index it is being moved to
*/
"beforemove" : true,
/**
* @event beforeinsert
* Fires before a new child is inserted, return false to cancel the insert.
* @param {Tree} tree The owner tree
* @param {Node} this This node
* @param {Node} node The child node to be inserted
* @param {Node} refNode The child node the node is being inserted before
*/
"beforeinsert" : true
});
this.listeners = this.attributes.listeners;
Ext.data.Node.superclass.constructor.call(this);
};
Ext.extend(Ext.data.Node, Ext.util.Observable, {
// private
fireEvent : function(evtName){
// first do standard event for this node
if(Ext.data.Node.superclass.fireEvent.apply(this, arguments) === false){
return false;
}
// then bubble it up to the tree if the event wasn't cancelled
var ot = this.getOwnerTree();
if(ot){
if(ot.proxyNodeEvent.apply(ot, arguments) === false){
return false;
}
}
return true;
},
/**
* Returns true if this node is a leaf
* @return {Boolean}
*/
isLeaf : function(){
return this.leaf === true;
},
// private
setFirstChild : function(node){
this.firstChild = node;
},
//private
setLastChild : function(node){
this.lastChild = node;
},
/**
* Returns true if this node is the last child of its parent
* @return {Boolean}
*/
isLast : function(){
return (!this.parentNode ? true : this.parentNode.lastChild == this);
},
/**
* Returns true if this node is the first child of its parent
* @return {Boolean}
*/
isFirst : function(){
return (!this.parentNode ? true : this.parentNode.firstChild == this);
},
/**
* Returns true if this node has one or more child nodes, else false.
* @return {Boolean}
*/
hasChildNodes : function(){
return !this.isLeaf() && this.childNodes.length > 0;
},
/**
* Returns true if this node has one or more child nodes, or if the <tt>expandable</tt>
* node attribute is explicitly specified as true (see {@link #attributes}), otherwise returns false.
* @return {Boolean}
*/
isExpandable : function(){
return this.attributes.expandable || this.hasChildNodes();
},
/**
* Insert node(s) as the last child node of this node.
* @param {Node/Array} node The node or Array of nodes to append
* @return {Node} The appended node if single append, or null if an array was passed
*/
appendChild : function(node){
var multi = false;
if(Ext.isArray(node)){
multi = node;
}else if(arguments.length > 1){
multi = arguments;
}
// if passed an array or multiple args do them one by one
if(multi){
for(var i = 0, len = multi.length; i < len; i++) {
this.appendChild(multi[i]);
}
}else{
if(this.fireEvent("beforeappend", this.ownerTree, this, node) === false){
return false;
}
var index = this.childNodes.length;
var oldParent = node.parentNode;
// it's a move, make sure we move it cleanly
if(oldParent){
if(node.fireEvent("beforemove", node.getOwnerTree(), node, oldParent, this, index) === false){
return false;
}
oldParent.removeChild(node);
}
index = this.childNodes.length;
if(index === 0){
this.setFirstChild(node);
}
this.childNodes.push(node);
node.parentNode = this;
var ps = this.childNodes[index-1];
if(ps){
node.previousSibling = ps;
ps.nextSibling = node;
}else{
node.previousSibling = null;
}
node.nextSibling = null;
this.setLastChild(node);
node.setOwnerTree(this.getOwnerTree());
this.fireEvent("append", this.ownerTree, this, node, index);
if(oldParent){
node.fireEvent("move", this.ownerTree, node, oldParent, this, index);
}
return node;
}
},
/**
* Removes a child node from this node.
* @param {Node} node The node to remove
* @param {Boolean} destroy <tt>true</tt> to destroy the node upon removal. Defaults to <tt>false</tt>.
* @return {Node} The removed node
*/
removeChild : function(node, destroy){
var index = this.childNodes.indexOf(node);
if(index == -1){
return false;
}
if(this.fireEvent("beforeremove", this.ownerTree, this, node) === false){
return false;
}
// remove it from childNodes collection
this.childNodes.splice(index, 1);
// update siblings
if(node.previousSibling){
node.previousSibling.nextSibling = node.nextSibling;
}
if(node.nextSibling){
node.nextSibling.previousSibling = node.previousSibling;
}
// update child refs
if(this.firstChild == node){
this.setFirstChild(node.nextSibling);
}
if(this.lastChild == node){
this.setLastChild(node.previousSibling);
}
this.fireEvent("remove", this.ownerTree, this, node);
if(destroy){
node.destroy(true);
}else{
node.clear();
}
return node;
},
// private
clear : function(destroy){
// clear any references from the node
this.setOwnerTree(null, destroy);
this.parentNode = this.previousSibling = this.nextSibling = null;
if(destroy){
this.firstChild = this.lastChild = null;
}
},
/**
* Destroys the node.
*/
destroy : function(/* private */ silent){
/*
* Silent is to be used in a number of cases
* 1) When setRootNode is called.
* 2) When destroy on the tree is called
* 3) For destroying child nodes on a node
*/
if(silent === true){
this.purgeListeners();
this.clear(true);
Ext.each(this.childNodes, function(n){
n.destroy(true);
});
this.childNodes = null;
}else{
this.remove(true);
}
},
/**
* Inserts the first node before the second node in this nodes childNodes collection.
* @param {Node} node The node to insert
* @param {Node} refNode The node to insert before (if null the node is appended)
* @return {Node} The inserted node
*/
insertBefore : function(node, refNode){
if(!refNode){ // like standard Dom, refNode can be null for append
return this.appendChild(node);
}
// nothing to do
if(node == refNode){
return false;
}
if(this.fireEvent("beforeinsert", this.ownerTree, this, node, refNode) === false){
return false;
}
var index = this.childNodes.indexOf(refNode);
var oldParent = node.parentNode;
var refIndex = index;
// when moving internally, indexes will change after remove
if(oldParent == this && this.childNodes.indexOf(node) < index){
refIndex--;
}
// it's a move, make sure we move it cleanly
if(oldParent){
if(node.fireEvent("beforemove", node.getOwnerTree(), node, oldParent, this, index, refNode) === false){
return false;
}
oldParent.removeChild(node);
}
if(refIndex === 0){
this.setFirstChild(node);
}
this.childNodes.splice(refIndex, 0, node);
node.parentNode = this;
var ps = this.childNodes[refIndex-1];
if(ps){
node.previousSibling = ps;
ps.nextSibling = node;
}else{
node.previousSibling = null;
}
node.nextSibling = refNode;
refNode.previousSibling = node;
node.setOwnerTree(this.getOwnerTree());
this.fireEvent("insert", this.ownerTree, this, node, refNode);
if(oldParent){
node.fireEvent("move", this.ownerTree, node, oldParent, this, refIndex, refNode);
}
return node;
},
/**
* Removes this node from its parent
* @param {Boolean} destroy <tt>true</tt> to destroy the node upon removal. Defaults to <tt>false</tt>.
* @return {Node} this
*/
remove : function(destroy){
if (this.parentNode) {
this.parentNode.removeChild(this, destroy);
}
return this;
},
/**
* Removes all child nodes from this node.
* @param {Boolean} destroy <tt>true</tt> to destroy the node upon removal. Defaults to <tt>false</tt>.
* @return {Node} this
*/
removeAll : function(destroy){
var cn = this.childNodes,
n;
while((n = cn[0])){
this.removeChild(n, destroy);
}
return this;
},
/**
* Returns the child node at the specified index.
* @param {Number} index
* @return {Node}
*/
item : function(index){
return this.childNodes[index];
},
/**
* Replaces one child node in this node with another.
* @param {Node} newChild The replacement node
* @param {Node} oldChild The node to replace
* @return {Node} The replaced node
*/
replaceChild : function(newChild, oldChild){
var s = oldChild ? oldChild.nextSibling : null;
this.removeChild(oldChild);
this.insertBefore(newChild, s);
return oldChild;
},
/**
* Returns the index of a child node
* @param {Node} node
* @return {Number} The index of the node or -1 if it was not found
*/
indexOf : function(child){
return this.childNodes.indexOf(child);
},
/**
* Returns the tree this node is in.
* @return {Tree}
*/
getOwnerTree : function(){
// if it doesn't have one, look for one
if(!this.ownerTree){
var p = this;
while(p){
if(p.ownerTree){
this.ownerTree = p.ownerTree;
break;
}
p = p.parentNode;
}
}
return this.ownerTree;
},
/**
* Returns depth of this node (the root node has a depth of 0)
* @return {Number}
*/
getDepth : function(){
var depth = 0;
var p = this;
while(p.parentNode){
++depth;
p = p.parentNode;
}
return depth;
},
// private
setOwnerTree : function(tree, destroy){
// if it is a move, we need to update everyone
if(tree != this.ownerTree){
if(this.ownerTree){
this.ownerTree.unregisterNode(this);
}
this.ownerTree = tree;
// If we're destroying, we don't need to recurse since it will be called on each child node
if(destroy !== true){
Ext.each(this.childNodes, function(n){
n.setOwnerTree(tree);
});
}
if(tree){
tree.registerNode(this);
}
}
},
/**
* Changes the id of this node.
* @param {String} id The new id for the node.
*/
setId: function(id){
if(id !== this.id){
var t = this.ownerTree;
if(t){
t.unregisterNode(this);
}
this.id = this.attributes.id = id;
if(t){
t.registerNode(this);
}
this.onIdChange(id);
}
},
// private
onIdChange: Ext.emptyFn,
/**
* Returns the path for this node. The path can be used to expand or select this node programmatically.
* @param {String} attr (optional) The attr to use for the path (defaults to the node's id)
* @return {String} The path
*/
getPath : function(attr){
attr = attr || "id";
var p = this.parentNode;
var b = [this.attributes[attr]];
while(p){
b.unshift(p.attributes[attr]);
p = p.parentNode;
}
var sep = this.getOwnerTree().pathSeparator;
return sep + b.join(sep);
},
/**
* Bubbles up the tree from this node, calling the specified function with each node. The arguments to the function
* will be the args provided or the current node. If the function returns false at any point,
* the bubble is stopped.
* @param {Function} fn The function to call
* @param {Object} scope (optional) The scope (<code>this</code> reference) in which the function is executed. Defaults to the current Node.
* @param {Array} args (optional) The args to call the function with (default to passing the current Node)
*/
bubble : function(fn, scope, args){
var p = this;
while(p){
if(fn.apply(scope || p, args || [p]) === false){
break;
}
p = p.parentNode;
}
},
/**
* Cascades down the tree from this node, calling the specified function with each node. The arguments to the function
* will be the args provided or the current node. If the function returns false at any point,
* the cascade is stopped on that branch.
* @param {Function} fn The function to call
* @param {Object} scope (optional) The scope (<code>this</code> reference) in which the function is executed. Defaults to the current Node.
* @param {Array} args (optional) The args to call the function with (default to passing the current Node)
*/
cascade : function(fn, scope, args){
if(fn.apply(scope || this, args || [this]) !== false){
var cs = this.childNodes;
for(var i = 0, len = cs.length; i < len; i++) {
cs[i].cascade(fn, scope, args);
}
}
},
/**
* Interates the child nodes of this node, calling the specified function with each node. The arguments to the function
* will be the args provided or the current node. If the function returns false at any point,
* the iteration stops.
* @param {Function} fn The function to call
* @param {Object} scope (optional) The scope (<code>this</code> reference) in which the function is executed. Defaults to the current Node in the iteration.
* @param {Array} args (optional) The args to call the function with (default to passing the current Node)
*/
eachChild : function(fn, scope, args){
var cs = this.childNodes;
for(var i = 0, len = cs.length; i < len; i++) {
if(fn.apply(scope || this, args || [cs[i]]) === false){
break;
}
}
},
/**
* Finds the first child that has the attribute with the specified value.
* @param {String} attribute The attribute name
* @param {Mixed} value The value to search for
* @param {Boolean} deep (Optional) True to search through nodes deeper than the immediate children
* @return {Node} The found child or null if none was found
*/
findChild : function(attribute, value, deep){
return this.findChildBy(function(){
return this.attributes[attribute] == value;
}, null, deep);
},
/**
* Finds the first child by a custom function. The child matches if the function passed returns <code>true</code>.
* @param {Function} fn A function which must return <code>true</code> if the passed Node is the required Node.
* @param {Object} scope (optional) The scope (<code>this</code> reference) in which the function is executed. Defaults to the Node being tested.
* @param {Boolean} deep (Optional) True to search through nodes deeper than the immediate children
* @return {Node} The found child or null if none was found
*/
findChildBy : function(fn, scope, deep){
var cs = this.childNodes,
len = cs.length,
i = 0,
n,
res;
for(; i < len; i++){
n = cs[i];
if(fn.call(scope || n, n) === true){
return n;
}else if (deep){
res = n.findChildBy(fn, scope, deep);
if(res != null){
return res;
}
}
}
return null;
},
/**
* Sorts this nodes children using the supplied sort function.
* @param {Function} fn A function which, when passed two Nodes, returns -1, 0 or 1 depending upon required sort order.
* @param {Object} scope (optional)The scope (<code>this</code> reference) in which the function is executed. Defaults to the browser window.
*/
sort : function(fn, scope){
var cs = this.childNodes;
var len = cs.length;
if(len > 0){
var sortFn = scope ? function(){fn.apply(scope, arguments);} : fn;
cs.sort(sortFn);
for(var i = 0; i < len; i++){
var n = cs[i];
n.previousSibling = cs[i-1];
n.nextSibling = cs[i+1];
if(i === 0){
this.setFirstChild(n);
}
if(i == len-1){
this.setLastChild(n);
}
}
}
},
/**
* Returns true if this node is an ancestor (at any point) of the passed node.
* @param {Node} node
* @return {Boolean}
*/
contains : function(node){
return node.isAncestor(this);
},
/**
* Returns true if the passed node is an ancestor (at any point) of this node.
* @param {Node} node
* @return {Boolean}
*/
isAncestor : function(node){
var p = this.parentNode;
while(p){
if(p == node){
return true;
}
p = p.parentNode;
}
return false;
},
toString : function(){
return "[Node"+(this.id?" "+this.id:"")+"]";
}
});/**
* @class Ext.tree.TreeNode
* @extends Ext.data.Node
* @cfg {String} text The text for this node
* @cfg {Boolean} expanded true to start the node expanded
* @cfg {Boolean} allowDrag False to make this node undraggable if {@link #draggable} = true (defaults to true)
* @cfg {Boolean} allowDrop False if this node cannot have child nodes dropped on it (defaults to true)
* @cfg {Boolean} disabled true to start the node disabled
* @cfg {String} icon The path to an icon for the node. The preferred way to do this
* is to use the cls or iconCls attributes and add the icon via a CSS background image.
* @cfg {String} cls A css class to be added to the node
* @cfg {String} iconCls A css class to be added to the nodes icon element for applying css background images
* @cfg {String} href URL of the link used for the node (defaults to #)
* @cfg {String} hrefTarget target frame for the link
* @cfg {Boolean} hidden True to render hidden. (Defaults to false).
* @cfg {String} qtip An Ext QuickTip for the node
* @cfg {Boolean} expandable If set to true, the node will always show a plus/minus icon, even when empty
* @cfg {String} qtipCfg An Ext QuickTip config for the node (used instead of qtip)
* @cfg {Boolean} singleClickExpand True for single click expand on this node
* @cfg {Function} uiProvider A UI <b>class</b> to use for this node (defaults to Ext.tree.TreeNodeUI)
* @cfg {Boolean} checked True to render a checked checkbox for this node, false to render an unchecked checkbox
* (defaults to undefined with no checkbox rendered)
* @cfg {Boolean} draggable True to make this node draggable (defaults to false)
* @cfg {Boolean} isTarget False to not allow this node to act as a drop target (defaults to true)
* @cfg {Boolean} allowChildren False to not allow this node to have child nodes (defaults to true)
* @cfg {Boolean} editable False to not allow this node to be edited by an {@link Ext.tree.TreeEditor} (defaults to true)
* @constructor
* @param {Object/String} attributes The attributes/config for the node or just a string with the text for the node
*/
Ext.tree.TreeNode = function(attributes){
attributes = attributes || {};
if(Ext.isString(attributes)){
attributes = {text: attributes};
}
this.childrenRendered = false;
this.rendered = false;
Ext.tree.TreeNode.superclass.constructor.call(this, attributes);
this.expanded = attributes.expanded === true;
this.isTarget = attributes.isTarget !== false;
this.draggable = attributes.draggable !== false && attributes.allowDrag !== false;
this.allowChildren = attributes.allowChildren !== false && attributes.allowDrop !== false;
/**
* Read-only. The text for this node. To change it use <code>{@link #setText}</code>.
* @type String
*/
this.text = attributes.text;
/**
* True if this node is disabled.
* @type Boolean
*/
this.disabled = attributes.disabled === true;
/**
* True if this node is hidden.
* @type Boolean
*/
this.hidden = attributes.hidden === true;
this.addEvents(
/**
* @event textchange
* Fires when the text for this node is changed
* @param {Node} this This node
* @param {String} text The new text
* @param {String} oldText The old text
*/
'textchange',
/**
* @event beforeexpand
* Fires before this node is expanded, return false to cancel.
* @param {Node} this This node
* @param {Boolean} deep
* @param {Boolean} anim
*/
'beforeexpand',
/**
* @event beforecollapse
* Fires before this node is collapsed, return false to cancel.
* @param {Node} this This node
* @param {Boolean} deep
* @param {Boolean} anim
*/
'beforecollapse',
/**
* @event expand
* Fires when this node is expanded
* @param {Node} this This node
*/
'expand',
/**
* @event disabledchange
* Fires when the disabled status of this node changes
* @param {Node} this This node
* @param {Boolean} disabled
*/
'disabledchange',
/**
* @event collapse
* Fires when this node is collapsed
* @param {Node} this This node
*/
'collapse',
/**
* @event beforeclick
* Fires before click processing. Return false to cancel the default action.
* @param {Node} this This node
* @param {Ext.EventObject} e The event object
*/
'beforeclick',
/**
* @event click
* Fires when this node is clicked
* @param {Node} this This node
* @param {Ext.EventObject} e The event object
*/
'click',
/**
* @event checkchange
* Fires when a node with a checkbox's checked property changes
* @param {Node} this This node
* @param {Boolean} checked
*/
'checkchange',
/**
* @event beforedblclick
* Fires before double click processing. Return false to cancel the default action.
* @param {Node} this This node
* @param {Ext.EventObject} e The event object
*/
'beforedblclick',
/**
* @event dblclick
* Fires when this node is double clicked
* @param {Node} this This node
* @param {Ext.EventObject} e The event object
*/
'dblclick',
/**
* @event contextmenu
* Fires when this node is right clicked
* @param {Node} this This node
* @param {Ext.EventObject} e The event object
*/
'contextmenu',
/**
* @event beforechildrenrendered
* Fires right before the child nodes for this node are rendered
* @param {Node} this This node
*/
'beforechildrenrendered'
);
var uiClass = this.attributes.uiProvider || this.defaultUI || Ext.tree.TreeNodeUI;
/**
* Read-only. The UI for this node
* @type TreeNodeUI
*/
this.ui = new uiClass(this);
};
Ext.extend(Ext.tree.TreeNode, Ext.data.Node, {
preventHScroll : true,
/**
* Returns true if this node is expanded
* @return {Boolean}
*/
isExpanded : function(){
return this.expanded;
},
/**
* Returns the UI object for this node.
* @return {TreeNodeUI} The object which is providing the user interface for this tree
* node. Unless otherwise specified in the {@link #uiProvider}, this will be an instance
* of {@link Ext.tree.TreeNodeUI}
*/
getUI : function(){
return this.ui;
},
getLoader : function(){
var owner;
return this.loader || ((owner = this.getOwnerTree()) && owner.loader ? owner.loader : (this.loader = new Ext.tree.TreeLoader()));
},
// private override
setFirstChild : function(node){
var of = this.firstChild;
Ext.tree.TreeNode.superclass.setFirstChild.call(this, node);
if(this.childrenRendered && of && node != of){
of.renderIndent(true, true);
}
if(this.rendered){
this.renderIndent(true, true);
}
},
// private override
setLastChild : function(node){
var ol = this.lastChild;
Ext.tree.TreeNode.superclass.setLastChild.call(this, node);
if(this.childrenRendered && ol && node != ol){
ol.renderIndent(true, true);
}
if(this.rendered){
this.renderIndent(true, true);
}
},
// these methods are overridden to provide lazy rendering support
// private override
appendChild : function(n){
if(!n.render && !Ext.isArray(n)){
n = this.getLoader().createNode(n);
}
var node = Ext.tree.TreeNode.superclass.appendChild.call(this, n);
if(node && this.childrenRendered){
node.render();
}
this.ui.updateExpandIcon();
return node;
},
// private override
removeChild : function(node, destroy){
this.ownerTree.getSelectionModel().unselect(node);
Ext.tree.TreeNode.superclass.removeChild.apply(this, arguments);
// only update the ui if we're not destroying
if(!destroy){
// if it's been rendered remove dom node
if(node.ui.rendered){
node.ui.remove();
}
if(this.childNodes.length < 1){
this.collapse(false, false);
}else{
this.ui.updateExpandIcon();
}
if(!this.firstChild && !this.isHiddenRoot()){
this.childrenRendered = false;
}
}
return node;
},
// private override
insertBefore : function(node, refNode){
if(!node.render){
node = this.getLoader().createNode(node);
}
var newNode = Ext.tree.TreeNode.superclass.insertBefore.call(this, node, refNode);
if(newNode && refNode && this.childrenRendered){
node.render();
}
this.ui.updateExpandIcon();
return newNode;
},
/**
* Sets the text for this node
* @param {String} text
*/
setText : function(text){
var oldText = this.text;
this.text = this.attributes.text = text;
if(this.rendered){ // event without subscribing
this.ui.onTextChange(this, text, oldText);
}
this.fireEvent('textchange', this, text, oldText);
},
/**
* Triggers selection of this node
*/
select : function(){
var t = this.getOwnerTree();
if(t){
t.getSelectionModel().select(this);
}
},
/**
* Triggers deselection of this node
* @param {Boolean} silent (optional) True to stop selection change events from firing.
*/
unselect : function(silent){
var t = this.getOwnerTree();
if(t){
t.getSelectionModel().unselect(this, silent);
}
},
/**
* Returns true if this node is selected
* @return {Boolean}
*/
isSelected : function(){
var t = this.getOwnerTree();
return t ? t.getSelectionModel().isSelected(this) : false;
},
/**
* Expand this node.
* @param {Boolean} deep (optional) True to expand all children as well
* @param {Boolean} anim (optional) false to cancel the default animation
* @param {Function} callback (optional) A callback to be called when
* expanding this node completes (does not wait for deep expand to complete).
* Called with 1 parameter, this node.
* @param {Object} scope (optional) The scope (<code>this</code> reference) in which the callback is executed. Defaults to this TreeNode.
*/
expand : function(deep, anim, callback, scope){
if(!this.expanded){
if(this.fireEvent('beforeexpand', this, deep, anim) === false){
return;
}
if(!this.childrenRendered){
this.renderChildren();
}
this.expanded = true;
if(!this.isHiddenRoot() && (this.getOwnerTree().animate && anim !== false) || anim){
this.ui.animExpand(function(){
this.fireEvent('expand', this);
this.runCallback(callback, scope || this, [this]);
if(deep === true){
this.expandChildNodes(true);
}
}.createDelegate(this));
return;
}else{
this.ui.expand();
this.fireEvent('expand', this);
this.runCallback(callback, scope || this, [this]);
}
}else{
this.runCallback(callback, scope || this, [this]);
}
if(deep === true){
this.expandChildNodes(true);
}
},
runCallback : function(cb, scope, args){
if(Ext.isFunction(cb)){
cb.apply(scope, args);
}
},
isHiddenRoot : function(){
return this.isRoot && !this.getOwnerTree().rootVisible;
},
/**
* Collapse this node.
* @param {Boolean} deep (optional) True to collapse all children as well
* @param {Boolean} anim (optional) false to cancel the default animation
* @param {Function} callback (optional) A callback to be called when
* expanding this node completes (does not wait for deep expand to complete).
* Called with 1 parameter, this node.
* @param {Object} scope (optional) The scope (<code>this</code> reference) in which the callback is executed. Defaults to this TreeNode.
*/
collapse : function(deep, anim, callback, scope){
if(this.expanded && !this.isHiddenRoot()){
if(this.fireEvent('beforecollapse', this, deep, anim) === false){
return;
}
this.expanded = false;
if((this.getOwnerTree().animate && anim !== false) || anim){
this.ui.animCollapse(function(){
this.fireEvent('collapse', this);
this.runCallback(callback, scope || this, [this]);
if(deep === true){
this.collapseChildNodes(true);
}
}.createDelegate(this));
return;
}else{
this.ui.collapse();
this.fireEvent('collapse', this);
this.runCallback(callback, scope || this, [this]);
}
}else if(!this.expanded){
this.runCallback(callback, scope || this, [this]);
}
if(deep === true){
var cs = this.childNodes;
for(var i = 0, len = cs.length; i < len; i++) {
cs[i].collapse(true, false);
}
}
},
// private
delayedExpand : function(delay){
if(!this.expandProcId){
this.expandProcId = this.expand.defer(delay, this);
}
},
// private
cancelExpand : function(){
if(this.expandProcId){
clearTimeout(this.expandProcId);
}
this.expandProcId = false;
},
/**
* Toggles expanded/collapsed state of the node
*/
toggle : function(){
if(this.expanded){
this.collapse();
}else{
this.expand();
}
},
/**
* Ensures all parent nodes are expanded, and if necessary, scrolls
* the node into view.
* @param {Function} callback (optional) A function to call when the node has been made visible.
* @param {Object} scope (optional) The scope (<code>this</code> reference) in which the callback is executed. Defaults to this TreeNode.
*/
ensureVisible : function(callback, scope){
var tree = this.getOwnerTree();
tree.expandPath(this.parentNode ? this.parentNode.getPath() : this.getPath(), false, function(){
var node = tree.getNodeById(this.id); // Somehow if we don't do this, we lose changes that happened to node in the meantime
tree.getTreeEl().scrollChildIntoView(node.ui.anchor);
this.runCallback(callback, scope || this, [this]);
}.createDelegate(this));
},
/**
* Expand all child nodes
* @param {Boolean} deep (optional) true if the child nodes should also expand their child nodes
*/
expandChildNodes : function(deep){
var cs = this.childNodes;
for(var i = 0, len = cs.length; i < len; i++) {
cs[i].expand(deep);
}
},
/**
* Collapse all child nodes
* @param {Boolean} deep (optional) true if the child nodes should also collapse their child nodes
*/
collapseChildNodes : function(deep){
var cs = this.childNodes;
for(var i = 0, len = cs.length; i < len; i++) {
cs[i].collapse(deep);
}
},
/**
* Disables this node
*/
disable : function(){
this.disabled = true;
this.unselect();
if(this.rendered && this.ui.onDisableChange){ // event without subscribing
this.ui.onDisableChange(this, true);
}
this.fireEvent('disabledchange', this, true);
},
/**
* Enables this node
*/
enable : function(){
this.disabled = false;
if(this.rendered && this.ui.onDisableChange){ // event without subscribing
this.ui.onDisableChange(this, false);
}
this.fireEvent('disabledchange', this, false);
},
// private
renderChildren : function(suppressEvent){
if(suppressEvent !== false){
this.fireEvent('beforechildrenrendered', this);
}
var cs = this.childNodes;
for(var i = 0, len = cs.length; i < len; i++){
cs[i].render(true);
}
this.childrenRendered = true;
},
// private
sort : function(fn, scope){
Ext.tree.TreeNode.superclass.sort.apply(this, arguments);
if(this.childrenRendered){
var cs = this.childNodes;
for(var i = 0, len = cs.length; i < len; i++){
cs[i].render(true);
}
}
},
// private
render : function(bulkRender){
this.ui.render(bulkRender);
if(!this.rendered){
// make sure it is registered
this.getOwnerTree().registerNode(this);
this.rendered = true;
if(this.expanded){
this.expanded = false;
this.expand(false, false);
}
}
},
// private
renderIndent : function(deep, refresh){
if(refresh){
this.ui.childIndent = null;
}
this.ui.renderIndent();
if(deep === true && this.childrenRendered){
var cs = this.childNodes;
for(var i = 0, len = cs.length; i < len; i++){
cs[i].renderIndent(true, refresh);
}
}
},
beginUpdate : function(){
this.childrenRendered = false;
},
endUpdate : function(){
if(this.expanded && this.rendered){
this.renderChildren();
}
},
//inherit docs
destroy : function(silent){
if(silent === true){
this.unselect(true);
}
Ext.tree.TreeNode.superclass.destroy.call(this, silent);
Ext.destroy(this.ui, this.loader);
this.ui = this.loader = null;
},
// private
onIdChange : function(id){
this.ui.onIdChange(id);
}
});
Ext.tree.TreePanel.nodeTypes.node = Ext.tree.TreeNode;/**
* @class Ext.tree.AsyncTreeNode
* @extends Ext.tree.TreeNode
* @cfg {TreeLoader} loader A TreeLoader to be used by this node (defaults to the loader defined on the tree)
* @constructor
* @param {Object/String} attributes The attributes/config for the node or just a string with the text for the node
*/
Ext.tree.AsyncTreeNode = function(config){
this.loaded = config && config.loaded === true;
this.loading = false;
Ext.tree.AsyncTreeNode.superclass.constructor.apply(this, arguments);
/**
* @event beforeload
* Fires before this node is loaded, return false to cancel
* @param {Node} this This node
*/
this.addEvents('beforeload', 'load');
/**
* @event load
* Fires when this node is loaded
* @param {Node} this This node
*/
/**
* The loader used by this node (defaults to using the tree's defined loader)
* @type TreeLoader
* @property loader
*/
};
Ext.extend(Ext.tree.AsyncTreeNode, Ext.tree.TreeNode, {
expand : function(deep, anim, callback, scope){
if(this.loading){ // if an async load is already running, waiting til it's done
var timer;
var f = function(){
if(!this.loading){ // done loading
clearInterval(timer);
this.expand(deep, anim, callback, scope);
}
}.createDelegate(this);
timer = setInterval(f, 200);
return;
}
if(!this.loaded){
if(this.fireEvent("beforeload", this) === false){
return;
}
this.loading = true;
this.ui.beforeLoad(this);
var loader = this.loader || this.attributes.loader || this.getOwnerTree().getLoader();
if(loader){
loader.load(this, this.loadComplete.createDelegate(this, [deep, anim, callback, scope]), this);
return;
}
}
Ext.tree.AsyncTreeNode.superclass.expand.call(this, deep, anim, callback, scope);
},
/**
* Returns true if this node is currently loading
* @return {Boolean}
*/
isLoading : function(){
return this.loading;
},
loadComplete : function(deep, anim, callback, scope){
this.loading = false;
this.loaded = true;
this.ui.afterLoad(this);
this.fireEvent("load", this);
this.expand(deep, anim, callback, scope);
},
/**
* Returns true if this node has been loaded
* @return {Boolean}
*/
isLoaded : function(){
return this.loaded;
},
hasChildNodes : function(){
if(!this.isLeaf() && !this.loaded){
return true;
}else{
return Ext.tree.AsyncTreeNode.superclass.hasChildNodes.call(this);
}
},
/**
* Trigger a reload for this node
* @param {Function} callback
* @param {Object} scope (optional) The scope (<code>this</code> reference) in which the callback is executed. Defaults to this Node.
*/
reload : function(callback, scope){
this.collapse(false, false);
while(this.firstChild){
this.removeChild(this.firstChild).destroy();
}
this.childrenRendered = false;
this.loaded = false;
if(this.isHiddenRoot()){
this.expanded = false;
}
this.expand(false, false, callback, scope);
}
});
Ext.tree.TreePanel.nodeTypes.async = Ext.tree.AsyncTreeNode;/**
* @class Ext.tree.TreeNodeUI
* This class provides the default UI implementation for Ext TreeNodes.
* The TreeNode UI implementation is separate from the
* tree implementation, and allows customizing of the appearance of
* tree nodes.<br>
* <p>
* If you are customizing the Tree's user interface, you
* may need to extend this class, but you should never need to instantiate this class.<br>
* <p>
* This class provides access to the user interface components of an Ext TreeNode, through
* {@link Ext.tree.TreeNode#getUI}
*/
Ext.tree.TreeNodeUI = function(node){
this.node = node;
this.rendered = false;
this.animating = false;
this.wasLeaf = true;
this.ecc = 'x-tree-ec-icon x-tree-elbow';
this.emptyIcon = Ext.BLANK_IMAGE_URL;
};
Ext.tree.TreeNodeUI.prototype = {
// private
removeChild : function(node){
if(this.rendered){
this.ctNode.removeChild(node.ui.getEl());
}
},
// private
beforeLoad : function(){
this.addClass("x-tree-node-loading");
},
// private
afterLoad : function(){
this.removeClass("x-tree-node-loading");
},
// private
onTextChange : function(node, text, oldText){
if(this.rendered){
this.textNode.innerHTML = text;
}
},
// private
onDisableChange : function(node, state){
this.disabled = state;
if (this.checkbox) {
this.checkbox.disabled = state;
}
if(state){
this.addClass("x-tree-node-disabled");
}else{
this.removeClass("x-tree-node-disabled");
}
},
// private
onSelectedChange : function(state){
if(state){
this.focus();
this.addClass("x-tree-selected");
}else{
//this.blur();
this.removeClass("x-tree-selected");
}
},
// private
onMove : function(tree, node, oldParent, newParent, index, refNode){
this.childIndent = null;
if(this.rendered){
var targetNode = newParent.ui.getContainer();
if(!targetNode){//target not rendered
this.holder = document.createElement("div");
this.holder.appendChild(this.wrap);
return;
}
var insertBefore = refNode ? refNode.ui.getEl() : null;
if(insertBefore){
targetNode.insertBefore(this.wrap, insertBefore);
}else{
targetNode.appendChild(this.wrap);
}
this.node.renderIndent(true, oldParent != newParent);
}
},
/**
* Adds one or more CSS classes to the node's UI element.
* Duplicate classes are automatically filtered out.
* @param {String/Array} className The CSS class to add, or an array of classes
*/
addClass : function(cls){
if(this.elNode){
Ext.fly(this.elNode).addClass(cls);
}
},
/**
* Removes one or more CSS classes from the node's UI element.
* @param {String/Array} className The CSS class to remove, or an array of classes
*/
removeClass : function(cls){
if(this.elNode){
Ext.fly(this.elNode).removeClass(cls);
}
},
// private
remove : function(){
if(this.rendered){
this.holder = document.createElement("div");
this.holder.appendChild(this.wrap);
}
},
// private
fireEvent : function(){
return this.node.fireEvent.apply(this.node, arguments);
},
// private
initEvents : function(){
this.node.on("move", this.onMove, this);
if(this.node.disabled){
this.onDisableChange(this.node, true);
}
if(this.node.hidden){
this.hide();
}
var ot = this.node.getOwnerTree();
var dd = ot.enableDD || ot.enableDrag || ot.enableDrop;
if(dd && (!this.node.isRoot || ot.rootVisible)){
Ext.dd.Registry.register(this.elNode, {
node: this.node,
handles: this.getDDHandles(),
isHandle: false
});
}
},
// private
getDDHandles : function(){
return [this.iconNode, this.textNode, this.elNode];
},
/**
* Hides this node.
*/
hide : function(){
this.node.hidden = true;
if(this.wrap){
this.wrap.style.display = "none";
}
},
/**
* Shows this node.
*/
show : function(){
this.node.hidden = false;
if(this.wrap){
this.wrap.style.display = "";
}
},
// private
onContextMenu : function(e){
if (this.node.hasListener("contextmenu") || this.node.getOwnerTree().hasListener("contextmenu")) {
e.preventDefault();
this.focus();
this.fireEvent("contextmenu", this.node, e);
}
},
// private
onClick : function(e){
if(this.dropping){
e.stopEvent();
return;
}
if(this.fireEvent("beforeclick", this.node, e) !== false){
var a = e.getTarget('a');
if(!this.disabled && this.node.attributes.href && a){
this.fireEvent("click", this.node, e);
return;
}else if(a && e.ctrlKey){
e.stopEvent();
}
e.preventDefault();
if(this.disabled){
return;
}
if(this.node.attributes.singleClickExpand && !this.animating && this.node.isExpandable()){
this.node.toggle();
}
this.fireEvent("click", this.node, e);
}else{
e.stopEvent();
}
},
// private
onDblClick : function(e){
e.preventDefault();
if(this.disabled){
return;
}
if(this.fireEvent("beforedblclick", this.node, e) !== false){
if(this.checkbox){
this.toggleCheck();
}
if(!this.animating && this.node.isExpandable()){
this.node.toggle();
}
this.fireEvent("dblclick", this.node, e);
}
},
onOver : function(e){
this.addClass('x-tree-node-over');
},
onOut : function(e){
this.removeClass('x-tree-node-over');
},
// private
onCheckChange : function(){
var checked = this.checkbox.checked;
// fix for IE6
this.checkbox.defaultChecked = checked;
this.node.attributes.checked = checked;
this.fireEvent('checkchange', this.node, checked);
},
// private
ecClick : function(e){
if(!this.animating && this.node.isExpandable()){
this.node.toggle();
}
},
// private
startDrop : function(){
this.dropping = true;
},
// delayed drop so the click event doesn't get fired on a drop
endDrop : function(){
setTimeout(function(){
this.dropping = false;
}.createDelegate(this), 50);
},
// private
expand : function(){
this.updateExpandIcon();
this.ctNode.style.display = "";
},
// private
focus : function(){
if(!this.node.preventHScroll){
try{this.anchor.focus();
}catch(e){}
}else{
try{
var noscroll = this.node.getOwnerTree().getTreeEl().dom;
var l = noscroll.scrollLeft;
this.anchor.focus();
noscroll.scrollLeft = l;
}catch(e){}
}
},
/**
* Sets the checked status of the tree node to the passed value, or, if no value was passed,
* toggles the checked status. If the node was rendered with no checkbox, this has no effect.
* @param {Boolean} value (optional) The new checked status.
*/
toggleCheck : function(value){
var cb = this.checkbox;
if(cb){
cb.checked = (value === undefined ? !cb.checked : value);
this.onCheckChange();
}
},
// private
blur : function(){
try{
this.anchor.blur();
}catch(e){}
},
// private
animExpand : function(callback){
var ct = Ext.get(this.ctNode);
ct.stopFx();
if(!this.node.isExpandable()){
this.updateExpandIcon();
this.ctNode.style.display = "";
Ext.callback(callback);
return;
}
this.animating = true;
this.updateExpandIcon();
ct.slideIn('t', {
callback : function(){
this.animating = false;
Ext.callback(callback);
},
scope: this,
duration: this.node.ownerTree.duration || .25
});
},
// private
highlight : function(){
var tree = this.node.getOwnerTree();
Ext.fly(this.wrap).highlight(
tree.hlColor || "C3DAF9",
{endColor: tree.hlBaseColor}
);
},
// private
collapse : function(){
this.updateExpandIcon();
this.ctNode.style.display = "none";
},
// private
animCollapse : function(callback){
var ct = Ext.get(this.ctNode);
ct.enableDisplayMode('block');
ct.stopFx();
this.animating = true;
this.updateExpandIcon();
ct.slideOut('t', {
callback : function(){
this.animating = false;
Ext.callback(callback);
},
scope: this,
duration: this.node.ownerTree.duration || .25
});
},
// private
getContainer : function(){
return this.ctNode;
},
/**
* Returns the element which encapsulates this node.
* @return {HtmlElement} The DOM element. The default implementation uses a <code>&lt;li></code>.
*/
getEl : function(){
return this.wrap;
},
// private
appendDDGhost : function(ghostNode){
ghostNode.appendChild(this.elNode.cloneNode(true));
},
// private
getDDRepairXY : function(){
return Ext.lib.Dom.getXY(this.iconNode);
},
// private
onRender : function(){
this.render();
},
// private
render : function(bulkRender){
var n = this.node, a = n.attributes;
var targetNode = n.parentNode ?
n.parentNode.ui.getContainer() : n.ownerTree.innerCt.dom;
if(!this.rendered){
this.rendered = true;
this.renderElements(n, a, targetNode, bulkRender);
if(a.qtip){
if(this.textNode.setAttributeNS){
this.textNode.setAttributeNS("ext", "qtip", a.qtip);
if(a.qtipTitle){
this.textNode.setAttributeNS("ext", "qtitle", a.qtipTitle);
}
}else{
this.textNode.setAttribute("ext:qtip", a.qtip);
if(a.qtipTitle){
this.textNode.setAttribute("ext:qtitle", a.qtipTitle);
}
}
}else if(a.qtipCfg){
a.qtipCfg.target = Ext.id(this.textNode);
Ext.QuickTips.register(a.qtipCfg);
}
this.initEvents();
if(!this.node.expanded){
this.updateExpandIcon(true);
}
}else{
if(bulkRender === true) {
targetNode.appendChild(this.wrap);
}
}
},
// private
renderElements : function(n, a, targetNode, bulkRender){
// add some indent caching, this helps performance when rendering a large tree
this.indentMarkup = n.parentNode ? n.parentNode.ui.getChildIndent() : '';
var cb = Ext.isBoolean(a.checked),
nel,
href = a.href ? a.href : Ext.isGecko ? "" : "#",
buf = ['<li class="x-tree-node"><div ext:tree-node-id="',n.id,'" class="x-tree-node-el x-tree-node-leaf x-unselectable ', a.cls,'" unselectable="on">',
'<span class="x-tree-node-indent">',this.indentMarkup,"</span>",
'<img src="', this.emptyIcon, '" class="x-tree-ec-icon x-tree-elbow" />',
'<img src="', a.icon || this.emptyIcon, '" class="x-tree-node-icon',(a.icon ? " x-tree-node-inline-icon" : ""),(a.iconCls ? " "+a.iconCls : ""),'" unselectable="on" />',
cb ? ('<input class="x-tree-node-cb" type="checkbox" ' + (a.checked ? 'checked="checked" />' : '/>')) : '',
'<a hidefocus="on" class="x-tree-node-anchor" href="',href,'" tabIndex="1" ',
a.hrefTarget ? ' target="'+a.hrefTarget+'"' : "", '><span unselectable="on">',n.text,"</span></a></div>",
'<ul class="x-tree-node-ct" style="display:none;"></ul>',
"</li>"].join('');
if(bulkRender !== true && n.nextSibling && (nel = n.nextSibling.ui.getEl())){
this.wrap = Ext.DomHelper.insertHtml("beforeBegin", nel, buf);
}else{
this.wrap = Ext.DomHelper.insertHtml("beforeEnd", targetNode, buf);
}
this.elNode = this.wrap.childNodes[0];
this.ctNode = this.wrap.childNodes[1];
var cs = this.elNode.childNodes;
this.indentNode = cs[0];
this.ecNode = cs[1];
this.iconNode = cs[2];
var index = 3;
if(cb){
this.checkbox = cs[3];
// fix for IE6
this.checkbox.defaultChecked = this.checkbox.checked;
index++;
}
this.anchor = cs[index];
this.textNode = cs[index].firstChild;
},
/**
* Returns the &lt;a> element that provides focus for the node's UI.
* @return {HtmlElement} The DOM anchor element.
*/
getAnchor : function(){
return this.anchor;
},
/**
* Returns the text node.
* @return {HtmlNode} The DOM text node.
*/
getTextEl : function(){
return this.textNode;
},
/**
* Returns the icon &lt;img> element.
* @return {HtmlElement} The DOM image element.
*/
getIconEl : function(){
return this.iconNode;
},
/**
* Returns the checked status of the node. If the node was rendered with no
* checkbox, it returns false.
* @return {Boolean} The checked flag.
*/
isChecked : function(){
return this.checkbox ? this.checkbox.checked : false;
},
// private
updateExpandIcon : function(){
if(this.rendered){
var n = this.node,
c1,
c2,
cls = n.isLast() ? "x-tree-elbow-end" : "x-tree-elbow",
hasChild = n.hasChildNodes();
if(hasChild || n.attributes.expandable){
if(n.expanded){
cls += "-minus";
c1 = "x-tree-node-collapsed";
c2 = "x-tree-node-expanded";
}else{
cls += "-plus";
c1 = "x-tree-node-expanded";
c2 = "x-tree-node-collapsed";
}
if(this.wasLeaf){
this.removeClass("x-tree-node-leaf");
this.wasLeaf = false;
}
if(this.c1 != c1 || this.c2 != c2){
Ext.fly(this.elNode).replaceClass(c1, c2);
this.c1 = c1; this.c2 = c2;
}
}else{
if(!this.wasLeaf){
Ext.fly(this.elNode).replaceClass("x-tree-node-expanded", "x-tree-node-collapsed");
delete this.c1;
delete this.c2;
this.wasLeaf = true;
}
}
var ecc = "x-tree-ec-icon "+cls;
if(this.ecc != ecc){
this.ecNode.className = ecc;
this.ecc = ecc;
}
}
},
// private
onIdChange: function(id){
if(this.rendered){
this.elNode.setAttribute('ext:tree-node-id', id);
}
},
// private
getChildIndent : function(){
if(!this.childIndent){
var buf = [],
p = this.node;
while(p){
if(!p.isRoot || (p.isRoot && p.ownerTree.rootVisible)){
if(!p.isLast()) {
buf.unshift('<img src="'+this.emptyIcon+'" class="x-tree-elbow-line" />');
} else {
buf.unshift('<img src="'+this.emptyIcon+'" class="x-tree-icon" />');
}
}
p = p.parentNode;
}
this.childIndent = buf.join("");
}
return this.childIndent;
},
// private
renderIndent : function(){
if(this.rendered){
var indent = "",
p = this.node.parentNode;
if(p){
indent = p.ui.getChildIndent();
}
if(this.indentMarkup != indent){ // don't rerender if not required
this.indentNode.innerHTML = indent;
this.indentMarkup = indent;
}
this.updateExpandIcon();
}
},
destroy : function(){
if(this.elNode){
Ext.dd.Registry.unregister(this.elNode.id);
}
Ext.each(['textnode', 'anchor', 'checkbox', 'indentNode', 'ecNode', 'iconNode', 'elNode', 'ctNode', 'wrap', 'holder'], function(el){
if(this[el]){
Ext.fly(this[el]).remove();
delete this[el];
}
}, this);
delete this.node;
}
};
/**
* @class Ext.tree.RootTreeNodeUI
* This class provides the default UI implementation for <b>root</b> Ext TreeNodes.
* The RootTreeNode UI implementation allows customizing the appearance of the root tree node.<br>
* <p>
* If you are customizing the Tree's user interface, you
* may need to extend this class, but you should never need to instantiate this class.<br>
*/
Ext.tree.RootTreeNodeUI = Ext.extend(Ext.tree.TreeNodeUI, {
// private
render : function(){
if(!this.rendered){
var targetNode = this.node.ownerTree.innerCt.dom;
this.node.expanded = true;
targetNode.innerHTML = '<div class="x-tree-root-node"></div>';
this.wrap = this.ctNode = targetNode.firstChild;
}
},
collapse : Ext.emptyFn,
expand : Ext.emptyFn
});/**
* @class Ext.tree.TreeLoader
* @extends Ext.util.Observable
* A TreeLoader provides for lazy loading of an {@link Ext.tree.TreeNode}'s child
* nodes from a specified URL. The response must be a JavaScript Array definition
* whose elements are node definition objects. e.g.:
* <pre><code>
[{
id: 1,
text: 'A leaf Node',
leaf: true
},{
id: 2,
text: 'A folder Node',
children: [{
id: 3,
text: 'A child Node',
leaf: true
}]
}]
</code></pre>
* <br><br>
* A server request is sent, and child nodes are loaded only when a node is expanded.
* The loading node's id is passed to the server under the parameter name "node" to
* enable the server to produce the correct child nodes.
* <br><br>
* To pass extra parameters, an event handler may be attached to the "beforeload"
* event, and the parameters specified in the TreeLoader's baseParams property:
* <pre><code>
myTreeLoader.on("beforeload", function(treeLoader, node) {
this.baseParams.category = node.attributes.category;
}, this);
</code></pre>
* This would pass an HTTP parameter called "category" to the server containing
* the value of the Node's "category" attribute.
* @constructor
* Creates a new Treeloader.
* @param {Object} config A config object containing config properties.
*/
Ext.tree.TreeLoader = function(config){
this.baseParams = {};
Ext.apply(this, config);
this.addEvents(
/**
* @event beforeload
* Fires before a network request is made to retrieve the Json text which specifies a node's children.
* @param {Object} This TreeLoader object.
* @param {Object} node The {@link Ext.tree.TreeNode} object being loaded.
* @param {Object} callback The callback function specified in the {@link #load} call.
*/
"beforeload",
/**
* @event load
* Fires when the node has been successfuly loaded.
* @param {Object} This TreeLoader object.
* @param {Object} node The {@link Ext.tree.TreeNode} object being loaded.
* @param {Object} response The response object containing the data from the server.
*/
"load",
/**
* @event loadexception
* Fires if the network request failed.
* @param {Object} This TreeLoader object.
* @param {Object} node The {@link Ext.tree.TreeNode} object being loaded.
* @param {Object} response The response object containing the data from the server.
*/
"loadexception"
);
Ext.tree.TreeLoader.superclass.constructor.call(this);
if(Ext.isString(this.paramOrder)){
this.paramOrder = this.paramOrder.split(/[\s,|]/);
}
};
Ext.extend(Ext.tree.TreeLoader, Ext.util.Observable, {
/**
* @cfg {String} dataUrl The URL from which to request a Json string which
* specifies an array of node definition objects representing the child nodes
* to be loaded.
*/
/**
* @cfg {String} requestMethod The HTTP request method for loading data (defaults to the value of {@link Ext.Ajax#method}).
*/
/**
* @cfg {String} url Equivalent to {@link #dataUrl}.
*/
/**
* @cfg {Boolean} preloadChildren If set to true, the loader recursively loads "children" attributes when doing the first load on nodes.
*/
/**
* @cfg {Object} baseParams (optional) An object containing properties which
* specify HTTP parameters to be passed to each request for child nodes.
*/
/**
* @cfg {Object} baseAttrs (optional) An object containing attributes to be added to all nodes
* created by this loader. If the attributes sent by the server have an attribute in this object,
* they take priority.
*/
/**
* @cfg {Object} uiProviders (optional) An object containing properties which
* specify custom {@link Ext.tree.TreeNodeUI} implementations. If the optional
* <i>uiProvider</i> attribute of a returned child node is a string rather
* than a reference to a TreeNodeUI implementation, then that string value
* is used as a property name in the uiProviders object.
*/
uiProviders : {},
/**
* @cfg {Boolean} clearOnLoad (optional) Default to true. Remove previously existing
* child nodes before loading.
*/
clearOnLoad : true,
/**
* @cfg {Array/String} paramOrder Defaults to <tt>undefined</tt>. Only used when using directFn.
* Specifies the params in the order in which they must be passed to the server-side Direct method
* as either (1) an Array of String values, or (2) a String of params delimited by either whitespace,
* comma, or pipe. For example,
* any of the following would be acceptable:<pre><code>
nodeParameter: 'node',
paramOrder: ['param1','param2','param3']
paramOrder: 'node param1 param2 param3'
paramOrder: 'param1,node,param2,param3'
paramOrder: 'param1|param2|param|node'
</code></pre>
*/
paramOrder: undefined,
/**
* @cfg {Boolean} paramsAsHash Only used when using directFn.
* Send parameters as a collection of named arguments (defaults to <tt>false</tt>). Providing a
* <tt>{@link #paramOrder}</tt> nullifies this configuration.
*/
paramsAsHash: false,
/**
* @cfg {String} nodeParameter The name of the parameter sent to the server which contains
* the identifier of the node. Defaults to <tt>'node'</tt>.
*/
nodeParameter: 'node',
/**
* @cfg {Function} directFn
* Function to call when executing a request.
*/
directFn : undefined,
/**
* Load an {@link Ext.tree.TreeNode} from the URL specified in the constructor.
* This is called automatically when a node is expanded, but may be used to reload
* a node (or append new children if the {@link #clearOnLoad} option is false.)
* @param {Ext.tree.TreeNode} node
* @param {Function} callback Function to call after the node has been loaded. The
* function is passed the TreeNode which was requested to be loaded.
* @param {Object} scope The scope (<code>this</code> reference) in which the callback is executed.
* defaults to the loaded TreeNode.
*/
load : function(node, callback, scope){
if(this.clearOnLoad){
while(node.firstChild){
node.removeChild(node.firstChild);
}
}
if(this.doPreload(node)){ // preloaded json children
this.runCallback(callback, scope || node, [node]);
}else if(this.directFn || this.dataUrl || this.url){
this.requestData(node, callback, scope || node);
}
},
doPreload : function(node){
if(node.attributes.children){
if(node.childNodes.length < 1){ // preloaded?
var cs = node.attributes.children;
node.beginUpdate();
for(var i = 0, len = cs.length; i < len; i++){
var cn = node.appendChild(this.createNode(cs[i]));
if(this.preloadChildren){
this.doPreload(cn);
}
}
node.endUpdate();
}
return true;
}
return false;
},
getParams: function(node){
var bp = Ext.apply({}, this.baseParams),
np = this.nodeParameter,
po = this.paramOrder;
np && (bp[ np ] = node.id);
if(this.directFn){
var buf = [node.id];
if(po){
// reset 'buf' if the nodeParameter was included in paramOrder
if(np && po.indexOf(np) > -1){
buf = [];
}
for(var i = 0, len = po.length; i < len; i++){
buf.push(bp[ po[i] ]);
}
}else if(this.paramsAsHash){
buf = [bp];
}
return buf;
}else{
return bp;
}
},
requestData : function(node, callback, scope){
if(this.fireEvent("beforeload", this, node, callback) !== false){
if(this.directFn){
var args = this.getParams(node);
args.push(this.processDirectResponse.createDelegate(this, [{callback: callback, node: node, scope: scope}], true));
this.directFn.apply(window, args);
}else{
this.transId = Ext.Ajax.request({
method:this.requestMethod,
url: this.dataUrl||this.url,
success: this.handleResponse,
failure: this.handleFailure,
scope: this,
argument: {callback: callback, node: node, scope: scope},
params: this.getParams(node)
});
}
}else{
// if the load is cancelled, make sure we notify
// the node that we are done
this.runCallback(callback, scope || node, []);
}
},
processDirectResponse: function(result, response, args){
if(response.status){
this.handleResponse({
responseData: Ext.isArray(result) ? result : null,
responseText: result,
argument: args
});
}else{
this.handleFailure({
argument: args
});
}
},
// private
runCallback: function(cb, scope, args){
if(Ext.isFunction(cb)){
cb.apply(scope, args);
}
},
isLoading : function(){
return !!this.transId;
},
abort : function(){
if(this.isLoading()){
Ext.Ajax.abort(this.transId);
}
},
/**
* <p>Override this function for custom TreeNode node implementation, or to
* modify the attributes at creation time.</p>
* Example:<pre><code>
new Ext.tree.TreePanel({
...
loader: new Ext.tree.TreeLoader({
url: 'dataUrl',
createNode: function(attr) {
// Allow consolidation consignments to have
// consignments dropped into them.
if (attr.isConsolidation) {
attr.iconCls = 'x-consol',
attr.allowDrop = true;
}
return Ext.tree.TreeLoader.prototype.createNode.call(this, attr);
}
}),
...
});
</code></pre>
* @param attr {Object} The attributes from which to create the new node.
*/
createNode : function(attr){
// apply baseAttrs, nice idea Corey!
if(this.baseAttrs){
Ext.applyIf(attr, this.baseAttrs);
}
if(this.applyLoader !== false && !attr.loader){
attr.loader = this;
}
if(Ext.isString(attr.uiProvider)){
attr.uiProvider = this.uiProviders[attr.uiProvider] || eval(attr.uiProvider);
}
if(attr.nodeType){
return new Ext.tree.TreePanel.nodeTypes[attr.nodeType](attr);
}else{
return attr.leaf ?
new Ext.tree.TreeNode(attr) :
new Ext.tree.AsyncTreeNode(attr);
}
},
processResponse : function(response, node, callback, scope){
var json = response.responseText;
try {
var o = response.responseData || Ext.decode(json);
node.beginUpdate();
for(var i = 0, len = o.length; i < len; i++){
var n = this.createNode(o[i]);
if(n){
node.appendChild(n);
}
}
node.endUpdate();
this.runCallback(callback, scope || node, [node]);
}catch(e){
this.handleFailure(response);
}
},
handleResponse : function(response){
this.transId = false;
var a = response.argument;
this.processResponse(response, a.node, a.callback, a.scope);
this.fireEvent("load", this, a.node, response);
},
handleFailure : function(response){
this.transId = false;
var a = response.argument;
this.fireEvent("loadexception", this, a.node, response);
this.runCallback(a.callback, a.scope || a.node, [a.node]);
},
destroy : function(){
this.abort();
this.purgeListeners();
}
});/**
* @class Ext.tree.TreeFilter
* Note this class is experimental and doesn't update the indent (lines) or expand collapse icons of the nodes
* @param {TreePanel} tree
* @param {Object} config (optional)
*/
Ext.tree.TreeFilter = function(tree, config){
this.tree = tree;
this.filtered = {};
Ext.apply(this, config);
};
Ext.tree.TreeFilter.prototype = {
clearBlank:false,
reverse:false,
autoClear:false,
remove:false,
/**
* Filter the data by a specific attribute.
* @param {String/RegExp} value Either string that the attribute value
* should start with or a RegExp to test against the attribute
* @param {String} attr (optional) The attribute passed in your node's attributes collection. Defaults to "text".
* @param {TreeNode} startNode (optional) The node to start the filter at.
*/
filter : function(value, attr, startNode){
attr = attr || "text";
var f;
if(typeof value == "string"){
var vlen = value.length;
// auto clear empty filter
if(vlen == 0 && this.clearBlank){
this.clear();
return;
}
value = value.toLowerCase();
f = function(n){
return n.attributes[attr].substr(0, vlen).toLowerCase() == value;
};
}else if(value.exec){ // regex?
f = function(n){
return value.test(n.attributes[attr]);
};
}else{
throw 'Illegal filter type, must be string or regex';
}
this.filterBy(f, null, startNode);
},
/**
* Filter by a function. The passed function will be called with each
* node in the tree (or from the startNode). If the function returns true, the node is kept
* otherwise it is filtered. If a node is filtered, its children are also filtered.
* @param {Function} fn The filter function
* @param {Object} scope (optional) The scope (<code>this</code> reference) in which the function is executed. Defaults to the current Node.
*/
filterBy : function(fn, scope, startNode){
startNode = startNode || this.tree.root;
if(this.autoClear){
this.clear();
}
var af = this.filtered, rv = this.reverse;
var f = function(n){
if(n == startNode){
return true;
}
if(af[n.id]){
return false;
}
var m = fn.call(scope || n, n);
if(!m || rv){
af[n.id] = n;
n.ui.hide();
return false;
}
return true;
};
startNode.cascade(f);
if(this.remove){
for(var id in af){
if(typeof id != "function"){
var n = af[id];
if(n && n.parentNode){
n.parentNode.removeChild(n);
}
}
}
}
},
/**
* Clears the current filter. Note: with the "remove" option
* set a filter cannot be cleared.
*/
clear : function(){
var t = this.tree;
var af = this.filtered;
for(var id in af){
if(typeof id != "function"){
var n = af[id];
if(n){
n.ui.show();
}
}
}
this.filtered = {};
}
};
/**
* @class Ext.tree.TreeSorter
* Provides sorting of nodes in a {@link Ext.tree.TreePanel}. The TreeSorter automatically monitors events on the
* associated TreePanel that might affect the tree's sort order (beforechildrenrendered, append, insert and textchange).
* Example usage:<br />
* <pre><code>
new Ext.tree.TreeSorter(myTree, {
folderSort: true,
dir: "desc",
sortType: function(node) {
// sort by a custom, typed attribute:
return parseInt(node.id, 10);
}
});
</code></pre>
* @constructor
* @param {TreePanel} tree
* @param {Object} config
*/
Ext.tree.TreeSorter = function(tree, config){
/**
* @cfg {Boolean} folderSort True to sort leaf nodes under non-leaf nodes (defaults to false)
*/
/**
* @cfg {String} property The named attribute on the node to sort by (defaults to "text"). Note that this
* property is only used if no {@link #sortType} function is specified, otherwise it is ignored.
*/
/**
* @cfg {String} dir The direction to sort ("asc" or "desc," case-insensitive, defaults to "asc")
*/
/**
* @cfg {String} leafAttr The attribute used to determine leaf nodes when {@link #folderSort} = true (defaults to "leaf")
*/
/**
* @cfg {Boolean} caseSensitive true for case-sensitive sort (defaults to false)
*/
/**
* @cfg {Function} sortType A custom "casting" function used to convert node values before sorting. The function
* will be called with a single parameter (the {@link Ext.tree.TreeNode} being evaluated) and is expected to return
* the node's sort value cast to the specific data type required for sorting. This could be used, for example, when
* a node's text (or other attribute) should be sorted as a date or numeric value. See the class description for
* example usage. Note that if a sortType is specified, any {@link #property} config will be ignored.
*/
Ext.apply(this, config);
tree.on("beforechildrenrendered", this.doSort, this);
tree.on("append", this.updateSort, this);
tree.on("insert", this.updateSort, this);
tree.on("textchange", this.updateSortParent, this);
var dsc = this.dir && this.dir.toLowerCase() == "desc";
var p = this.property || "text";
var sortType = this.sortType;
var fs = this.folderSort;
var cs = this.caseSensitive === true;
var leafAttr = this.leafAttr || 'leaf';
this.sortFn = function(n1, n2){
if(fs){
if(n1.attributes[leafAttr] && !n2.attributes[leafAttr]){
return 1;
}
if(!n1.attributes[leafAttr] && n2.attributes[leafAttr]){
return -1;
}
}
var v1 = sortType ? sortType(n1) : (cs ? n1.attributes[p] : n1.attributes[p].toUpperCase());
var v2 = sortType ? sortType(n2) : (cs ? n2.attributes[p] : n2.attributes[p].toUpperCase());
if(v1 < v2){
return dsc ? +1 : -1;
}else if(v1 > v2){
return dsc ? -1 : +1;
}else{
return 0;
}
};
};
Ext.tree.TreeSorter.prototype = {
doSort : function(node){
node.sort(this.sortFn);
},
compareNodes : function(n1, n2){
return (n1.text.toUpperCase() > n2.text.toUpperCase() ? 1 : -1);
},
updateSort : function(tree, node){
if(node.childrenRendered){
this.doSort.defer(1, this, [node]);
}
},
updateSortParent : function(node){
var p = node.parentNode;
if(p && p.childrenRendered){
this.doSort.defer(1, this, [p]);
}
}
};/**
* @class Ext.tree.TreeDropZone
* @extends Ext.dd.DropZone
* @constructor
* @param {String/HTMLElement/Element} tree The {@link Ext.tree.TreePanel} for which to enable dropping
* @param {Object} config
*/
if(Ext.dd.DropZone){
Ext.tree.TreeDropZone = function(tree, config){
/**
* @cfg {Boolean} allowParentInsert
* Allow inserting a dragged node between an expanded parent node and its first child that will become a
* sibling of the parent when dropped (defaults to false)
*/
this.allowParentInsert = config.allowParentInsert || false;
/**
* @cfg {String} allowContainerDrop
* True if drops on the tree container (outside of a specific tree node) are allowed (defaults to false)
*/
this.allowContainerDrop = config.allowContainerDrop || false;
/**
* @cfg {String} appendOnly
* True if the tree should only allow append drops (use for trees which are sorted, defaults to false)
*/
this.appendOnly = config.appendOnly || false;
Ext.tree.TreeDropZone.superclass.constructor.call(this, tree.getTreeEl(), config);
/**
* The TreePanel for this drop zone
* @type Ext.tree.TreePanel
* @property
*/
this.tree = tree;
/**
* Arbitrary data that can be associated with this tree and will be included in the event object that gets
* passed to any nodedragover event handler (defaults to {})
* @type Ext.tree.TreePanel
* @property
*/
this.dragOverData = {};
// private
this.lastInsertClass = "x-tree-no-status";
};
Ext.extend(Ext.tree.TreeDropZone, Ext.dd.DropZone, {
/**
* @cfg {String} ddGroup
* A named drag drop group to which this object belongs. If a group is specified, then this object will only
* interact with other drag drop objects in the same group (defaults to 'TreeDD').
*/
ddGroup : "TreeDD",
/**
* @cfg {String} expandDelay
* The delay in milliseconds to wait before expanding a target tree node while dragging a droppable node
* over the target (defaults to 1000)
*/
expandDelay : 1000,
// private
expandNode : function(node){
if(node.hasChildNodes() && !node.isExpanded()){
node.expand(false, null, this.triggerCacheRefresh.createDelegate(this));
}
},
// private
queueExpand : function(node){
this.expandProcId = this.expandNode.defer(this.expandDelay, this, [node]);
},
// private
cancelExpand : function(){
if(this.expandProcId){
clearTimeout(this.expandProcId);
this.expandProcId = false;
}
},
// private
isValidDropPoint : function(n, pt, dd, e, data){
if(!n || !data){ return false; }
var targetNode = n.node;
var dropNode = data.node;
// default drop rules
if(!(targetNode && targetNode.isTarget && pt)){
return false;
}
if(pt == "append" && targetNode.allowChildren === false){
return false;
}
if((pt == "above" || pt == "below") && (targetNode.parentNode && targetNode.parentNode.allowChildren === false)){
return false;
}
if(dropNode && (targetNode == dropNode || dropNode.contains(targetNode))){
return false;
}
// reuse the object
var overEvent = this.dragOverData;
overEvent.tree = this.tree;
overEvent.target = targetNode;
overEvent.data = data;
overEvent.point = pt;
overEvent.source = dd;
overEvent.rawEvent = e;
overEvent.dropNode = dropNode;
overEvent.cancel = false;
var result = this.tree.fireEvent("nodedragover", overEvent);
return overEvent.cancel === false && result !== false;
},
// private
getDropPoint : function(e, n, dd){
var tn = n.node;
if(tn.isRoot){
return tn.allowChildren !== false ? "append" : false; // always append for root
}
var dragEl = n.ddel;
var t = Ext.lib.Dom.getY(dragEl), b = t + dragEl.offsetHeight;
var y = Ext.lib.Event.getPageY(e);
var noAppend = tn.allowChildren === false || tn.isLeaf();
if(this.appendOnly || tn.parentNode.allowChildren === false){
return noAppend ? false : "append";
}
var noBelow = false;
if(!this.allowParentInsert){
noBelow = tn.hasChildNodes() && tn.isExpanded();
}
var q = (b - t) / (noAppend ? 2 : 3);
if(y >= t && y < (t + q)){
return "above";
}else if(!noBelow && (noAppend || y >= b-q && y <= b)){
return "below";
}else{
return "append";
}
},
// private
onNodeEnter : function(n, dd, e, data){
this.cancelExpand();
},
onContainerOver : function(dd, e, data) {
if (this.allowContainerDrop && this.isValidDropPoint({ ddel: this.tree.getRootNode().ui.elNode, node: this.tree.getRootNode() }, "append", dd, e, data)) {
return this.dropAllowed;
}
return this.dropNotAllowed;
},
// private
onNodeOver : function(n, dd, e, data){
var pt = this.getDropPoint(e, n, dd);
var node = n.node;
// auto node expand check
if(!this.expandProcId && pt == "append" && node.hasChildNodes() && !n.node.isExpanded()){
this.queueExpand(node);
}else if(pt != "append"){
this.cancelExpand();
}
// set the insert point style on the target node
var returnCls = this.dropNotAllowed;
if(this.isValidDropPoint(n, pt, dd, e, data)){
if(pt){
var el = n.ddel;
var cls;
if(pt == "above"){
returnCls = n.node.isFirst() ? "x-tree-drop-ok-above" : "x-tree-drop-ok-between";
cls = "x-tree-drag-insert-above";
}else if(pt == "below"){
returnCls = n.node.isLast() ? "x-tree-drop-ok-below" : "x-tree-drop-ok-between";
cls = "x-tree-drag-insert-below";
}else{
returnCls = "x-tree-drop-ok-append";
cls = "x-tree-drag-append";
}
if(this.lastInsertClass != cls){
Ext.fly(el).replaceClass(this.lastInsertClass, cls);
this.lastInsertClass = cls;
}
}
}
return returnCls;
},
// private
onNodeOut : function(n, dd, e, data){
this.cancelExpand();
this.removeDropIndicators(n);
},
// private
onNodeDrop : function(n, dd, e, data){
var point = this.getDropPoint(e, n, dd);
var targetNode = n.node;
targetNode.ui.startDrop();
if(!this.isValidDropPoint(n, point, dd, e, data)){
targetNode.ui.endDrop();
return false;
}
// first try to find the drop node
var dropNode = data.node || (dd.getTreeNode ? dd.getTreeNode(data, targetNode, point, e) : null);
return this.processDrop(targetNode, data, point, dd, e, dropNode);
},
onContainerDrop : function(dd, e, data){
if (this.allowContainerDrop && this.isValidDropPoint({ ddel: this.tree.getRootNode().ui.elNode, node: this.tree.getRootNode() }, "append", dd, e, data)) {
var targetNode = this.tree.getRootNode();
targetNode.ui.startDrop();
var dropNode = data.node || (dd.getTreeNode ? dd.getTreeNode(data, targetNode, 'append', e) : null);
return this.processDrop(targetNode, data, 'append', dd, e, dropNode);
}
return false;
},
// private
processDrop: function(target, data, point, dd, e, dropNode){
var dropEvent = {
tree : this.tree,
target: target,
data: data,
point: point,
source: dd,
rawEvent: e,
dropNode: dropNode,
cancel: !dropNode,
dropStatus: false
};
var retval = this.tree.fireEvent("beforenodedrop", dropEvent);
if(retval === false || dropEvent.cancel === true || !dropEvent.dropNode){
target.ui.endDrop();
return dropEvent.dropStatus;
}
target = dropEvent.target;
if(point == 'append' && !target.isExpanded()){
target.expand(false, null, function(){
this.completeDrop(dropEvent);
}.createDelegate(this));
}else{
this.completeDrop(dropEvent);
}
return true;
},
// private
completeDrop : function(de){
var ns = de.dropNode, p = de.point, t = de.target;
if(!Ext.isArray(ns)){
ns = [ns];
}
var n;
for(var i = 0, len = ns.length; i < len; i++){
n = ns[i];
if(p == "above"){
t.parentNode.insertBefore(n, t);
}else if(p == "below"){
t.parentNode.insertBefore(n, t.nextSibling);
}else{
t.appendChild(n);
}
}
n.ui.focus();
if(Ext.enableFx && this.tree.hlDrop){
n.ui.highlight();
}
t.ui.endDrop();
this.tree.fireEvent("nodedrop", de);
},
// private
afterNodeMoved : function(dd, data, e, targetNode, dropNode){
if(Ext.enableFx && this.tree.hlDrop){
dropNode.ui.focus();
dropNode.ui.highlight();
}
this.tree.fireEvent("nodedrop", this.tree, targetNode, data, dd, e);
},
// private
getTree : function(){
return this.tree;
},
// private
removeDropIndicators : function(n){
if(n && n.ddel){
var el = n.ddel;
Ext.fly(el).removeClass([
"x-tree-drag-insert-above",
"x-tree-drag-insert-below",
"x-tree-drag-append"]);
this.lastInsertClass = "_noclass";
}
},
// private
beforeDragDrop : function(target, e, id){
this.cancelExpand();
return true;
},
// private
afterRepair : function(data){
if(data && Ext.enableFx){
data.node.ui.highlight();
}
this.hideProxy();
}
});
}/**
* @class Ext.tree.TreeDragZone
* @extends Ext.dd.DragZone
* @constructor
* @param {String/HTMLElement/Element} tree The {@link Ext.tree.TreePanel} for which to enable dragging
* @param {Object} config
*/
if(Ext.dd.DragZone){
Ext.tree.TreeDragZone = function(tree, config){
Ext.tree.TreeDragZone.superclass.constructor.call(this, tree.innerCt, config);
/**
* The TreePanel for this drag zone
* @type Ext.tree.TreePanel
* @property
*/
this.tree = tree;
};
Ext.extend(Ext.tree.TreeDragZone, Ext.dd.DragZone, {
/**
* @cfg {String} ddGroup
* A named drag drop group to which this object belongs. If a group is specified, then this object will only
* interact with other drag drop objects in the same group (defaults to 'TreeDD').
*/
ddGroup : "TreeDD",
// private
onBeforeDrag : function(data, e){
var n = data.node;
return n && n.draggable && !n.disabled;
},
// private
onInitDrag : function(e){
var data = this.dragData;
this.tree.getSelectionModel().select(data.node);
this.tree.eventModel.disable();
this.proxy.update("");
data.node.ui.appendDDGhost(this.proxy.ghost.dom);
this.tree.fireEvent("startdrag", this.tree, data.node, e);
},
// private
getRepairXY : function(e, data){
return data.node.ui.getDDRepairXY();
},
// private
onEndDrag : function(data, e){
this.tree.eventModel.enable.defer(100, this.tree.eventModel);
this.tree.fireEvent("enddrag", this.tree, data.node, e);
},
// private
onValidDrop : function(dd, e, id){
this.tree.fireEvent("dragdrop", this.tree, this.dragData.node, dd, e);
this.hideProxy();
},
// private
beforeInvalidDrop : function(e, id){
// this scrolls the original position back into view
var sm = this.tree.getSelectionModel();
sm.clearSelections();
sm.select(this.dragData.node);
},
// private
afterRepair : function(){
if (Ext.enableFx && this.tree.hlDrop) {
Ext.Element.fly(this.dragData.ddel).highlight(this.hlColor || "c3daf9");
}
this.dragging = false;
}
});
}/**
* @class Ext.tree.TreeEditor
* @extends Ext.Editor
* Provides editor functionality for inline tree node editing. Any valid {@link Ext.form.Field} subclass can be used
* as the editor field.
* @constructor
* @param {TreePanel} tree
* @param {Object} fieldConfig (optional) Either a prebuilt {@link Ext.form.Field} instance or a Field config object
* that will be applied to the default field instance (defaults to a {@link Ext.form.TextField}).
* @param {Object} config (optional) A TreeEditor config object
*/
Ext.tree.TreeEditor = function(tree, fc, config){
fc = fc || {};
var field = fc.events ? fc : new Ext.form.TextField(fc);
Ext.tree.TreeEditor.superclass.constructor.call(this, field, config);
this.tree = tree;
if(!tree.rendered){
tree.on('render', this.initEditor, this);
}else{
this.initEditor(tree);
}
};
Ext.extend(Ext.tree.TreeEditor, Ext.Editor, {
/**
* @cfg {String} alignment
* The position to align to (see {@link Ext.Element#alignTo} for more details, defaults to "l-l").
*/
alignment: "l-l",
// inherit
autoSize: false,
/**
* @cfg {Boolean} hideEl
* True to hide the bound element while the editor is displayed (defaults to false)
*/
hideEl : false,
/**
* @cfg {String} cls
* CSS class to apply to the editor (defaults to "x-small-editor x-tree-editor")
*/
cls: "x-small-editor x-tree-editor",
/**
* @cfg {Boolean} shim
* True to shim the editor if selects/iframes could be displayed beneath it (defaults to false)
*/
shim:false,
// inherit
shadow:"frame",
/**
* @cfg {Number} maxWidth
* The maximum width in pixels of the editor field (defaults to 250). Note that if the maxWidth would exceed
* the containing tree element's size, it will be automatically limited for you to the container width, taking
* scroll and client offsets into account prior to each edit.
*/
maxWidth: 250,
/**
* @cfg {Number} editDelay The number of milliseconds between clicks to register a double-click that will trigger
* editing on the current node (defaults to 350). If two clicks occur on the same node within this time span,
* the editor for the node will display, otherwise it will be processed as a regular click.
*/
editDelay : 350,
initEditor : function(tree){
tree.on({
scope : this,
beforeclick: this.beforeNodeClick,
dblclick : this.onNodeDblClick
});
this.on({
scope : this,
complete : this.updateNode,
beforestartedit: this.fitToTree,
specialkey : this.onSpecialKey
});
this.on('startedit', this.bindScroll, this, {delay:10});
},
// private
fitToTree : function(ed, el){
var td = this.tree.getTreeEl().dom, nd = el.dom;
if(td.scrollLeft > nd.offsetLeft){ // ensure the node left point is visible
td.scrollLeft = nd.offsetLeft;
}
var w = Math.min(
this.maxWidth,
(td.clientWidth > 20 ? td.clientWidth : td.offsetWidth) - Math.max(0, nd.offsetLeft-td.scrollLeft) - /*cushion*/5);
this.setSize(w, '');
},
/**
* Edit the text of the passed {@link Ext.tree.TreeNode TreeNode}.
* @param node {Ext.tree.TreeNode} The TreeNode to edit. The TreeNode must be {@link Ext.tree.TreeNode#editable editable}.
*/
triggerEdit : function(node, defer){
this.completeEdit();
if(node.attributes.editable !== false){
/**
* The {@link Ext.tree.TreeNode TreeNode} this editor is bound to. Read-only.
* @type Ext.tree.TreeNode
* @property editNode
*/
this.editNode = node;
if(this.tree.autoScroll){
Ext.fly(node.ui.getEl()).scrollIntoView(this.tree.body);
}
var value = node.text || '';
if (!Ext.isGecko && Ext.isEmpty(node.text)){
node.setText('&#160;');
}
this.autoEditTimer = this.startEdit.defer(this.editDelay, this, [node.ui.textNode, value]);
return false;
}
},
// private
bindScroll : function(){
this.tree.getTreeEl().on('scroll', this.cancelEdit, this);
},
// private
beforeNodeClick : function(node, e){
clearTimeout(this.autoEditTimer);
if(this.tree.getSelectionModel().isSelected(node)){
e.stopEvent();
return this.triggerEdit(node);
}
},
onNodeDblClick : function(node, e){
clearTimeout(this.autoEditTimer);
},
// private
updateNode : function(ed, value){
this.tree.getTreeEl().un('scroll', this.cancelEdit, this);
this.editNode.setText(value);
},
// private
onHide : function(){
Ext.tree.TreeEditor.superclass.onHide.call(this);
if(this.editNode){
this.editNode.ui.focus.defer(50, this.editNode.ui);
}
},
// private
onSpecialKey : function(field, e){
var k = e.getKey();
if(k == e.ESC){
e.stopEvent();
this.cancelEdit();
}else if(k == e.ENTER && !e.hasModifier()){
e.stopEvent();
this.completeEdit();
}
},
onDestroy : function(){
clearTimeout(this.autoEditTimer);
Ext.tree.TreeEditor.superclass.onDestroy.call(this);
var tree = this.tree;
tree.un('beforeclick', this.beforeNodeClick, this);
tree.un('dblclick', this.onNodeDblClick, this);
}
});