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tt-rss/lib/dijit/Tree.js.uncompressed.js

1911 lines
59 KiB
JavaScript

require({cache:{
'url:dijit/templates/TreeNode.html':"<div class=\"dijitTreeNode\" role=\"presentation\"\n\t><div data-dojo-attach-point=\"rowNode\" class=\"dijitTreeRow dijitInline\" role=\"presentation\"\n\t\t><div data-dojo-attach-point=\"indentNode\" class=\"dijitInline\"></div\n\t\t><img src=\"${_blankGif}\" alt=\"\" data-dojo-attach-point=\"expandoNode\" class=\"dijitTreeExpando\" role=\"presentation\"\n\t\t/><span data-dojo-attach-point=\"expandoNodeText\" class=\"dijitExpandoText\" role=\"presentation\"\n\t\t></span\n\t\t><span data-dojo-attach-point=\"contentNode\"\n\t\t\tclass=\"dijitTreeContent\" role=\"presentation\">\n\t\t\t<img src=\"${_blankGif}\" alt=\"\" data-dojo-attach-point=\"iconNode\" class=\"dijitIcon dijitTreeIcon\" role=\"presentation\"\n\t\t\t/><span data-dojo-attach-point=\"labelNode\" class=\"dijitTreeLabel\" role=\"treeitem\" tabindex=\"-1\" aria-selected=\"false\"></span>\n\t\t</span\n\t></div>\n\t<div data-dojo-attach-point=\"containerNode\" class=\"dijitTreeContainer\" role=\"presentation\" style=\"display: none;\"></div>\n</div>\n",
'url:dijit/templates/Tree.html':"<div class=\"dijitTree dijitTreeContainer\" role=\"tree\">\n\t<div class=\"dijitInline dijitTreeIndent\" style=\"position: absolute; top: -9999px\" data-dojo-attach-point=\"indentDetector\"></div>\n</div>\n"}});
define("dijit/Tree", [
"dojo/_base/array", // array.filter array.forEach array.map
"dojo/_base/connect", // connect.isCopyKey()
"dojo/cookie", // cookie
"dojo/_base/declare", // declare
"dojo/Deferred", // Deferred
"dojo/DeferredList", // DeferredList
"dojo/dom", // dom.isDescendant
"dojo/dom-class", // domClass.add domClass.remove domClass.replace domClass.toggle
"dojo/dom-geometry", // domGeometry.setMarginBox domGeometry.position
"dojo/dom-style",// domStyle.set
"dojo/_base/event", // event.stop
"dojo/errors/create", // createError
"dojo/fx", // fxUtils.wipeIn fxUtils.wipeOut
"dojo/_base/kernel", // kernel.deprecated
"dojo/keys", // arrows etc.
"dojo/_base/lang", // lang.getObject lang.mixin lang.hitch
"dojo/on", // on(), on.selector()
"dojo/topic",
"dojo/touch",
"dojo/when",
"./focus",
"./registry", // registry.byNode(), registry.getEnclosingWidget()
"./_base/manager", // manager.defaultDuration
"./_Widget",
"./_TemplatedMixin",
"./_Container",
"./_Contained",
"./_CssStateMixin",
"dojo/text!./templates/TreeNode.html",
"dojo/text!./templates/Tree.html",
"./tree/TreeStoreModel",
"./tree/ForestStoreModel",
"./tree/_dndSelector"
], function(array, connect, cookie, declare, Deferred, DeferredList,
dom, domClass, domGeometry, domStyle, event, createError, fxUtils, kernel, keys, lang, on, topic, touch, when,
focus, registry, manager, _Widget, _TemplatedMixin, _Container, _Contained, _CssStateMixin,
treeNodeTemplate, treeTemplate, TreeStoreModel, ForestStoreModel, _dndSelector){
// module:
// dijit/Tree
// Back-compat shim
Deferred = declare(Deferred, {
addCallback: function(callback){ this.then(callback); },
addErrback: function(errback){ this.then(null, errback); }
});
var TreeNode = declare(
"dijit._TreeNode",
[_Widget, _TemplatedMixin, _Container, _Contained, _CssStateMixin],
{
// summary:
// Single node within a tree. This class is used internally
// by Tree and should not be accessed directly.
// tags:
// private
// item: [const] Item
// the dojo.data entry this tree represents
item: null,
// isTreeNode: [protected] Boolean
// Indicates that this is a TreeNode. Used by `dijit.Tree` only,
// should not be accessed directly.
isTreeNode: true,
// label: String
// Text of this tree node
label: "",
_setLabelAttr: {node: "labelNode", type: "innerText"},
// isExpandable: [private] Boolean
// This node has children, so show the expando node (+ sign)
isExpandable: null,
// isExpanded: [readonly] Boolean
// This node is currently expanded (ie, opened)
isExpanded: false,
// state: [private] String
// Dynamic loading-related stuff.
// When an empty folder node appears, it is "UNCHECKED" first,
// then after dojo.data query it becomes "LOADING" and, finally "LOADED"
state: "UNCHECKED",
templateString: treeNodeTemplate,
baseClass: "dijitTreeNode",
// For hover effect for tree node, and focus effect for label
cssStateNodes: {
rowNode: "dijitTreeRow"
},
// Tooltip is defined in _WidgetBase but we need to handle the mapping to DOM here
_setTooltipAttr: {node: "rowNode", type: "attribute", attribute: "title"},
buildRendering: function(){
this.inherited(arguments);
// set expand icon for leaf
this._setExpando();
// set icon and label class based on item
this._updateItemClasses(this.item);
if(this.isExpandable){
this.labelNode.setAttribute("aria-expanded", this.isExpanded);
}
//aria-selected should be false on all selectable elements.
this.setSelected(false);
},
_setIndentAttr: function(indent){
// summary:
// Tell this node how many levels it should be indented
// description:
// 0 for top level nodes, 1 for their children, 2 for their
// grandchildren, etc.
// Math.max() is to prevent negative padding on hidden root node (when indent == -1)
var pixels = (Math.max(indent, 0) * this.tree._nodePixelIndent) + "px";
domStyle.set(this.domNode, "backgroundPosition", pixels + " 0px"); // TODOC: what is this for???
domStyle.set(this.indentNode, this.isLeftToRight() ? "paddingLeft" : "paddingRight", pixels);
array.forEach(this.getChildren(), function(child){
child.set("indent", indent+1);
});
this._set("indent", indent);
},
markProcessing: function(){
// summary:
// Visually denote that tree is loading data, etc.
// tags:
// private
this.state = "LOADING";
this._setExpando(true);
},
unmarkProcessing: function(){
// summary:
// Clear markup from markProcessing() call
// tags:
// private
this._setExpando(false);
},
_updateItemClasses: function(item){
// summary:
// Set appropriate CSS classes for icon and label dom node
// (used to allow for item updates to change respective CSS)
// tags:
// private
var tree = this.tree, model = tree.model;
if(tree._v10Compat && item === model.root){
// For back-compat with 1.0, need to use null to specify root item (TODO: remove in 2.0)
item = null;
}
this._applyClassAndStyle(item, "icon", "Icon");
this._applyClassAndStyle(item, "label", "Label");
this._applyClassAndStyle(item, "row", "Row");
this.tree._startPaint(true); // signifies paint started and finished (synchronously)
},
_applyClassAndStyle: function(item, lower, upper){
// summary:
// Set the appropriate CSS classes and styles for labels, icons and rows.
//
// item:
// The data item.
//
// lower:
// The lower case attribute to use, e.g. 'icon', 'label' or 'row'.
//
// upper:
// The upper case attribute to use, e.g. 'Icon', 'Label' or 'Row'.
//
// tags:
// private
var clsName = "_" + lower + "Class";
var nodeName = lower + "Node";
var oldCls = this[clsName];
this[clsName] = this.tree["get" + upper + "Class"](item, this.isExpanded);
domClass.replace(this[nodeName], this[clsName] || "", oldCls || "");
domStyle.set(this[nodeName], this.tree["get" + upper + "Style"](item, this.isExpanded) || {});
},
_updateLayout: function(){
// summary:
// Set appropriate CSS classes for this.domNode
// tags:
// private
var parent = this.getParent();
if(!parent || !parent.rowNode || parent.rowNode.style.display == "none"){
/* if we are hiding the root node then make every first level child look like a root node */
domClass.add(this.domNode, "dijitTreeIsRoot");
}else{
domClass.toggle(this.domNode, "dijitTreeIsLast", !this.getNextSibling());
}
},
_setExpando: function(/*Boolean*/ processing){
// summary:
// Set the right image for the expando node
// tags:
// private
var styles = ["dijitTreeExpandoLoading", "dijitTreeExpandoOpened",
"dijitTreeExpandoClosed", "dijitTreeExpandoLeaf"],
_a11yStates = ["*","-","+","*"],
idx = processing ? 0 : (this.isExpandable ? (this.isExpanded ? 1 : 2) : 3);
// apply the appropriate class to the expando node
domClass.replace(this.expandoNode, styles[idx], styles);
// provide a non-image based indicator for images-off mode
this.expandoNodeText.innerHTML = _a11yStates[idx];
},
expand: function(){
// summary:
// Show my children
// returns:
// Deferred that fires when expansion is complete
// If there's already an expand in progress or we are already expanded, just return
if(this._expandDeferred){
return this._expandDeferred; // dojo/_base/Deferred
}
// cancel in progress collapse operation
if(this._collapseDeferred){
this._collapseDeferred.cancel();
delete this._collapseDeferred;
}
// All the state information for when a node is expanded, maybe this should be
// set when the animation completes instead
this.isExpanded = true;
this.labelNode.setAttribute("aria-expanded", "true");
if(this.tree.showRoot || this !== this.tree.rootNode){
this.containerNode.setAttribute("role", "group");
}
domClass.add(this.contentNode,'dijitTreeContentExpanded');
this._setExpando();
this._updateItemClasses(this.item);
if(this == this.tree.rootNode && this.tree.showRoot){
this.tree.domNode.setAttribute("aria-expanded", "true");
}
var def,
wipeIn = fxUtils.wipeIn({
node: this.containerNode,
duration: manager.defaultDuration,
onEnd: function(){
def.resolve(true);
}
});
// Deferred that fires when expand is complete
def = (this._expandDeferred = new Deferred(function(){
// Canceller
wipeIn.stop();
}));
wipeIn.play();
return def; // dojo/_base/Deferred
},
collapse: function(){
// summary:
// Collapse this node (if it's expanded)
if(this._collapseDeferred){
// Node is already collapsed, or there's a collapse in progress, just return that Deferred
return this._collapseDeferred;
}
// cancel in progress expand operation
if(this._expandDeferred){
this._expandDeferred.cancel();
delete this._expandDeferred;
}
this.isExpanded = false;
this.labelNode.setAttribute("aria-expanded", "false");
if(this == this.tree.rootNode && this.tree.showRoot){
this.tree.domNode.setAttribute("aria-expanded", "false");
}
domClass.remove(this.contentNode,'dijitTreeContentExpanded');
this._setExpando();
this._updateItemClasses(this.item);
var def,
wipeOut = fxUtils.wipeOut({
node: this.containerNode,
duration: manager.defaultDuration,
onEnd: function(){
def.resolve(true);
}
});
// Deferred that fires when expand is complete
def = (this._collapseDeferred = new Deferred(function(){
// Canceller
wipeOut.stop();
}));
wipeOut.play();
return def; // dojo/_base/Deferred
},
// indent: Integer
// Levels from this node to the root node
indent: 0,
setChildItems: function(/* Object[] */ items){
// summary:
// Sets the child items of this node, removing/adding nodes
// from current children to match specified items[] array.
// Also, if this.persist == true, expands any children that were previously
// opened.
// returns:
// Deferred object that fires after all previously opened children
// have been expanded again (or fires instantly if there are no such children).
var tree = this.tree,
model = tree.model,
defs = []; // list of deferreds that need to fire before I am complete
// Orphan all my existing children.
// If items contains some of the same items as before then we will reattach them.
// Don't call this.removeChild() because that will collapse the tree etc.
var oldChildren = this.getChildren();
array.forEach(oldChildren, function(child){
_Container.prototype.removeChild.call(this, child);
}, this);
// All the old children of this TreeNode are subject for destruction if
// 1) they aren't listed in the new children array (items)
// 2) they aren't immediately adopted by another node (DnD)
this.defer(function(){
array.forEach(oldChildren, function(node){
if(!node._destroyed && !node.getParent()){
// If node is in selection then remove it.
tree.dndController.removeTreeNode(node);
// Deregister mapping from item id --> this node
var id = model.getIdentity(node.item),
ary = tree._itemNodesMap[id];
if(ary.length == 1){
delete tree._itemNodesMap[id];
}else{
var index = array.indexOf(ary, node);
if(index != -1){
ary.splice(index, 1);
}
}
// And finally we can destroy the node
node.destroyRecursive();
}
});
});
this.state = "LOADED";
if(items && items.length > 0){
this.isExpandable = true;
// Create _TreeNode widget for each specified tree node, unless one already
// exists and isn't being used (presumably it's from a DnD move and was recently
// released
array.forEach(items, function(item){ // MARKER: REUSE NODE
var id = model.getIdentity(item),
existingNodes = tree._itemNodesMap[id],
node;
if(existingNodes){
for(var i=0;i<existingNodes.length;i++){
if(existingNodes[i] && !existingNodes[i].getParent()){
node = existingNodes[i];
node.set('indent', this.indent+1);
break;
}
}
}
if(!node){
node = this.tree._createTreeNode({
item: item,
tree: tree,
isExpandable: model.mayHaveChildren(item),
label: tree.getLabel(item),
tooltip: tree.getTooltip(item),
ownerDocument: tree.ownerDocument,
dir: tree.dir,
lang: tree.lang,
textDir: tree.textDir,
indent: this.indent + 1
});
if(existingNodes){
existingNodes.push(node);
}else{
tree._itemNodesMap[id] = [node];
}
}
this.addChild(node);
// If node was previously opened then open it again now (this may trigger
// more data store accesses, recursively)
if(this.tree.autoExpand || this.tree._state(node)){
defs.push(tree._expandNode(node));
}
}, this);
// note that updateLayout() needs to be called on each child after
// _all_ the children exist
array.forEach(this.getChildren(), function(child){
child._updateLayout();
});
}else{
this.isExpandable=false;
}
if(this._setExpando){
// change expando to/from dot or + icon, as appropriate
this._setExpando(false);
}
// Set leaf icon or folder icon, as appropriate
this._updateItemClasses(this.item);
// On initial tree show, make the selected TreeNode as either the root node of the tree,
// or the first child, if the root node is hidden
if(this == tree.rootNode){
var fc = this.tree.showRoot ? this : this.getChildren()[0];
if(fc){
fc.setFocusable(true);
tree.lastFocused = fc;
}else{
// fallback: no nodes in tree so focus on Tree <div> itself
tree.domNode.setAttribute("tabIndex", "0");
}
}
var def = new DeferredList(defs);
this.tree._startPaint(def); // to reset TreeNode widths after an item is added/removed from the Tree
return def; // dojo/_base/Deferred
},
getTreePath: function(){
var node = this;
var path = [];
while(node && node !== this.tree.rootNode){
path.unshift(node.item);
node = node.getParent();
}
path.unshift(this.tree.rootNode.item);
return path;
},
getIdentity: function(){
return this.tree.model.getIdentity(this.item);
},
removeChild: function(/* treeNode */ node){
this.inherited(arguments);
var children = this.getChildren();
if(children.length == 0){
this.isExpandable = false;
this.collapse();
}
array.forEach(children, function(child){
child._updateLayout();
});
},
makeExpandable: function(){
// summary:
// if this node wasn't already showing the expando node,
// turn it into one and call _setExpando()
// TODO: hmm this isn't called from anywhere, maybe should remove it for 2.0
this.isExpandable = true;
this._setExpando(false);
},
setSelected: function(/*Boolean*/ selected){
// summary:
// A Tree has a (single) currently selected node.
// Mark that this node is/isn't that currently selected node.
// description:
// In particular, setting a node as selected involves setting tabIndex
// so that when user tabs to the tree, focus will go to that node (only).
this.labelNode.setAttribute("aria-selected", selected ? "true" : "false");
domClass.toggle(this.rowNode, "dijitTreeRowSelected", selected);
},
setFocusable: function(/*Boolean*/ selected){
// summary:
// A Tree has a (single) node that's focusable.
// Mark that this node is/isn't that currently focsuable node.
// description:
// In particular, setting a node as selected involves setting tabIndex
// so that when user tabs to the tree, focus will go to that node (only).
this.labelNode.setAttribute("tabIndex", selected ? "0" : "-1");
},
_setTextDirAttr: function(textDir){
if(textDir &&((this.textDir != textDir) || !this._created)){
this._set("textDir", textDir);
this.applyTextDir(this.labelNode, this.labelNode.innerText || this.labelNode.textContent || "");
array.forEach(this.getChildren(), function(childNode){
childNode.set("textDir", textDir);
}, this);
}
}
});
var Tree = declare("dijit.Tree", [_Widget, _TemplatedMixin], {
// summary:
// This widget displays hierarchical data from a store.
// store: [deprecated] String|dojo/data/Store
// Deprecated. Use "model" parameter instead.
// The store to get data to display in the tree.
store: null,
// model: dijit/tree/model
// Interface to read tree data, get notifications of changes to tree data,
// and for handling drop operations (i.e drag and drop onto the tree)
model: null,
// query: [deprecated] anything
// Deprecated. User should specify query to the model directly instead.
// Specifies datastore query to return the root item or top items for the tree.
query: null,
// label: [deprecated] String
// Deprecated. Use dijit/tree/ForestStoreModel directly instead.
// Used in conjunction with query parameter.
// If a query is specified (rather than a root node id), and a label is also specified,
// then a fake root node is created and displayed, with this label.
label: "",
// showRoot: [const] Boolean
// Should the root node be displayed, or hidden?
showRoot: true,
// childrenAttr: [deprecated] String[]
// Deprecated. This information should be specified in the model.
// One ore more attributes that holds children of a tree node
childrenAttr: ["children"],
// paths: String[][] or Item[][]
// Full paths from rootNode to selected nodes expressed as array of items or array of ids.
// Since setting the paths may be asynchronous (because of waiting on dojo.data), set("paths", ...)
// returns a Deferred to indicate when the set is complete.
paths: [],
// path: String[] or Item[]
// Backward compatible singular variant of paths.
path: [],
// selectedItems: [readonly] Item[]
// The currently selected items in this tree.
// This property can only be set (via set('selectedItems', ...)) when that item is already
// visible in the tree. (I.e. the tree has already been expanded to show that node.)
// Should generally use `paths` attribute to set the selected items instead.
selectedItems: null,
// selectedItem: [readonly] Item
// Backward compatible singular variant of selectedItems.
selectedItem: null,
// openOnClick: Boolean
// If true, clicking a folder node's label will open it, rather than calling onClick()
openOnClick: false,
// openOnDblClick: Boolean
// If true, double-clicking a folder node's label will open it, rather than calling onDblClick()
openOnDblClick: false,
templateString: treeTemplate,
// persist: Boolean
// Enables/disables use of cookies for state saving.
persist: true,
// autoExpand: Boolean
// Fully expand the tree on load. Overrides `persist`.
autoExpand: false,
// dndController: [protected] Function|String
// Class to use as as the dnd controller. Specifying this class enables DnD.
// Generally you should specify this as dijit/tree/dndSource.
// Setting of dijit/tree/_dndSelector handles selection only (no actual DnD).
dndController: _dndSelector,
// parameters to pull off of the tree and pass on to the dndController as its params
dndParams: ["onDndDrop","itemCreator","onDndCancel","checkAcceptance", "checkItemAcceptance", "dragThreshold", "betweenThreshold"],
//declare the above items so they can be pulled from the tree's markup
// onDndDrop: [protected] Function
// Parameter to dndController, see `dijit/tree/dndSource.onDndDrop()`.
// Generally this doesn't need to be set.
onDndDrop: null,
itemCreator: null,
/*=====
itemCreator: function(nodes, target, source){
// summary:
// Returns objects passed to `Tree.model.newItem()` based on DnD nodes
// dropped onto the tree. Developer must override this method to enable
// dropping from external sources onto this Tree, unless the Tree.model's items
// happen to look like {id: 123, name: "Apple" } with no other attributes.
//
// For each node in nodes[], which came from source, create a hash of name/value
// pairs to be passed to Tree.model.newItem(). Returns array of those hashes.
// nodes: DomNode[]
// The DOMNodes dragged from the source container
// target: DomNode
// The target TreeNode.rowNode
// source: dojo/dnd/Source
// The source container the nodes were dragged from, perhaps another Tree or a plain dojo/dnd/Source
// returns: Object[]
// Array of name/value hashes for each new item to be added to the Tree, like:
// | [
// | { id: 123, label: "apple", foo: "bar" },
// | { id: 456, label: "pear", zaz: "bam" }
// | ]
// tags:
// extension
return [{}];
},
=====*/
// onDndCancel: [protected] Function
// Parameter to dndController, see `dijit/tree/dndSource.onDndCancel()`.
// Generally this doesn't need to be set.
onDndCancel: null,
/*=====
checkAcceptance: function(source, nodes){
// summary:
// Checks if the Tree itself can accept nodes from this source
// source: dijit/tree/dndSource
// The source which provides items
// nodes: DOMNode[]
// Array of DOM nodes corresponding to nodes being dropped, dijitTreeRow nodes if
// source is a dijit/Tree.
// tags:
// extension
return true; // Boolean
},
=====*/
checkAcceptance: null,
/*=====
checkItemAcceptance: function(target, source, position){
// summary:
// Stub function to be overridden if one wants to check for the ability to drop at the node/item level
// description:
// In the base case, this is called to check if target can become a child of source.
// When betweenThreshold is set, position="before" or "after" means that we
// are asking if the source node can be dropped before/after the target node.
// target: DOMNode
// The dijitTreeRoot DOM node inside of the TreeNode that we are dropping on to
// Use registry.getEnclosingWidget(target) to get the TreeNode.
// source: dijit/tree/dndSource
// The (set of) nodes we are dropping
// position: String
// "over", "before", or "after"
// tags:
// extension
return true; // Boolean
},
=====*/
checkItemAcceptance: null,
// dragThreshold: Integer
// Number of pixels mouse moves before it's considered the start of a drag operation
dragThreshold: 5,
// betweenThreshold: Integer
// Set to a positive value to allow drag and drop "between" nodes.
//
// If during DnD mouse is over a (target) node but less than betweenThreshold
// pixels from the bottom edge, dropping the the dragged node will make it
// the next sibling of the target node, rather than the child.
//
// Similarly, if mouse is over a target node but less that betweenThreshold
// pixels from the top edge, dropping the dragged node will make it
// the target node's previous sibling rather than the target node's child.
betweenThreshold: 0,
// _nodePixelIndent: Integer
// Number of pixels to indent tree nodes (relative to parent node).
// Default is 19 but can be overridden by setting CSS class dijitTreeIndent
// and calling resize() or startup() on tree after it's in the DOM.
_nodePixelIndent: 19,
_publish: function(/*String*/ topicName, /*Object*/ message){
// summary:
// Publish a message for this widget/topic
topic.publish(this.id, lang.mixin({tree: this, event: topicName}, message || {})); // publish
},
postMixInProperties: function(){
this.tree = this;
if(this.autoExpand){
// There's little point in saving opened/closed state of nodes for a Tree
// that initially opens all it's nodes.
this.persist = false;
}
this._itemNodesMap = {};
if(!this.cookieName && this.id){
this.cookieName = this.id + "SaveStateCookie";
}
// Deferred that fires when all the children have loaded.
this.expandChildrenDeferred = new Deferred();
// Deferred that fires when all pending operations complete.
this.pendingCommandsDeferred = this.expandChildrenDeferred;
this.inherited(arguments);
},
postCreate: function(){
this._initState();
// Catch events on TreeNodes
var self = this;
this.own(
on(this.domNode, on.selector(".dijitTreeNode", touch.enter), function(evt){
self._onNodeMouseEnter(registry.byNode(this), evt);
}),
on(this.domNode, on.selector(".dijitTreeNode", touch.leave), function(evt){
self._onNodeMouseLeave(registry.byNode(this), evt);
}),
on(this.domNode, on.selector(".dijitTreeNode", "click"), function(evt){
self._onClick(registry.byNode(this), evt);
}),
on(this.domNode, on.selector(".dijitTreeNode", "dblclick"), function(evt){
self._onDblClick(registry.byNode(this), evt);
}),
on(this.domNode, on.selector(".dijitTreeNode", "keypress"), function(evt){
self._onKeyPress(registry.byNode(this), evt);
}),
on(this.domNode, on.selector(".dijitTreeNode", "keydown"), function(evt){
self._onKeyDown(registry.byNode(this), evt);
}),
on(this.domNode, on.selector(".dijitTreeRow", "focusin"), function(evt){
self._onNodeFocus(registry.getEnclosingWidget(this), evt);
})
);
// Create glue between store and Tree, if not specified directly by user
if(!this.model){
this._store2model();
}
// monitor changes to items
this.connect(this.model, "onChange", "_onItemChange");
this.connect(this.model, "onChildrenChange", "_onItemChildrenChange");
this.connect(this.model, "onDelete", "_onItemDelete");
this.inherited(arguments);
if(this.dndController){
if(lang.isString(this.dndController)){
this.dndController = lang.getObject(this.dndController);
}
var params={};
for(var i=0; i<this.dndParams.length;i++){
if(this[this.dndParams[i]]){
params[this.dndParams[i]] = this[this.dndParams[i]];
}
}
this.dndController = new this.dndController(this, params);
}
this._load();
// If no path was specified to the constructor, use path saved in cookie
if(!this.params.path && !this.params.paths && this.persist){
this.set("paths", this.dndController._getSavedPaths());
}
// onLoadDeferred should fire when all commands that are part of initialization have completed.
// It will include all the set("paths", ...) commands that happen during initialization.
this.onLoadDeferred = this.pendingCommandsDeferred;
this.onLoadDeferred.then(lang.hitch(this, "onLoad"));
},
_store2model: function(){
// summary:
// User specified a store&query rather than model, so create model from store/query
this._v10Compat = true;
kernel.deprecated("Tree: from version 2.0, should specify a model object rather than a store/query");
var modelParams = {
id: this.id + "_ForestStoreModel",
store: this.store,
query: this.query,
childrenAttrs: this.childrenAttr
};
// Only override the model's mayHaveChildren() method if the user has specified an override
if(this.params.mayHaveChildren){
modelParams.mayHaveChildren = lang.hitch(this, "mayHaveChildren");
}
if(this.params.getItemChildren){
modelParams.getChildren = lang.hitch(this, function(item, onComplete, onError){
this.getItemChildren((this._v10Compat && item === this.model.root) ? null : item, onComplete, onError);
});
}
this.model = new ForestStoreModel(modelParams);
// For backwards compatibility, the visibility of the root node is controlled by
// whether or not the user has specified a label
this.showRoot = Boolean(this.label);
},
onLoad: function(){
// summary:
// Called when tree finishes loading and expanding.
// description:
// If persist == true the loading may encompass many levels of fetches
// from the data store, each asynchronous. Waits for all to finish.
// tags:
// callback
},
_load: function(){
// summary:
// Initial load of the tree.
// Load root node (possibly hidden) and it's children.
this.model.getRoot(
lang.hitch(this, function(item){
var rn = (this.rootNode = this.tree._createTreeNode({
item: item,
tree: this,
isExpandable: true,
label: this.label || this.getLabel(item),
textDir: this.textDir,
indent: this.showRoot ? 0 : -1
}));
if(!this.showRoot){
rn.rowNode.style.display="none";
// if root is not visible, move tree role to the invisible
// root node's containerNode, see #12135
this.domNode.setAttribute("role", "presentation");
this.domNode.removeAttribute("aria-expanded");
this.domNode.removeAttribute("aria-multiselectable");
rn.labelNode.setAttribute("role", "presentation");
rn.containerNode.setAttribute("role", "tree");
rn.containerNode.setAttribute("aria-expanded","true");
rn.containerNode.setAttribute("aria-multiselectable", !this.dndController.singular);
}else{
this.domNode.setAttribute("aria-multiselectable", !this.dndController.singular);
}
this.domNode.appendChild(rn.domNode);
var identity = this.model.getIdentity(item);
if(this._itemNodesMap[identity]){
this._itemNodesMap[identity].push(rn);
}else{
this._itemNodesMap[identity] = [rn];
}
rn._updateLayout(); // sets "dijitTreeIsRoot" CSS classname
// Load top level children, and if persist==true, all nodes that were previously opened
this._expandNode(rn).then(lang.hitch(this, function(){
// Then, select the nodes that were selected last time, or
// the ones specified by params.paths[].
this.expandChildrenDeferred.resolve(true);
}));
}),
lang.hitch(this, function(err){
console.error(this, ": error loading root: ", err);
})
);
},
getNodesByItem: function(/*Item or id*/ item){
// summary:
// Returns all tree nodes that refer to an item
// returns:
// Array of tree nodes that refer to passed item
if(!item){ return []; }
var identity = lang.isString(item) ? item : this.model.getIdentity(item);
// return a copy so widget don't get messed up by changes to returned array
return [].concat(this._itemNodesMap[identity]);
},
_setSelectedItemAttr: function(/*Item or id*/ item){
this.set('selectedItems', [item]);
},
_setSelectedItemsAttr: function(/*Items or ids*/ items){
// summary:
// Select tree nodes related to passed items.
// WARNING: if model use multi-parented items or desired tree node isn't already loaded
// behavior is undefined. Use set('paths', ...) instead.
var tree = this;
return this.pendingCommandsDeferred = this.pendingCommandsDeferred.then( lang.hitch(this, function(){
var identities = array.map(items, function(item){
return (!item || lang.isString(item)) ? item : tree.model.getIdentity(item);
});
var nodes = [];
array.forEach(identities, function(id){
nodes = nodes.concat(tree._itemNodesMap[id] || []);
});
this.set('selectedNodes', nodes);
}));
},
_setPathAttr: function(/*Item[]|String[]*/ path){
// summary:
// Singular variant of _setPathsAttr
if(path.length){
return this.set("paths", [path]);
}else{
// Empty list is interpreted as "select nothing"
return this.set("paths", []);
}
},
_setPathsAttr: function(/*Item[][]|String[][]*/ paths){
// summary:
// Select the tree nodes identified by passed paths.
// paths:
// Array of arrays of items or item id's
// returns:
// Deferred to indicate when the set is complete
var tree = this;
// Let any previous set("path", ...) commands complete before this one starts.
return this.pendingCommandsDeferred = this.pendingCommandsDeferred.then(function(){
// We may need to wait for some nodes to expand, so setting
// each path will involve a Deferred. We bring those deferreds
// together with a DeferredList.
return new DeferredList(array.map(paths, function(path){
var d = new Deferred();
// normalize path to use identity
path = array.map(path, function(item){
return lang.isString(item) ? item : tree.model.getIdentity(item);
});
if(path.length){
// Wait for the tree to load, if it hasn't already.
selectPath(path, [tree.rootNode], d);
}else{
d.reject(new Tree.PathError("Empty path"));
}
return d;
}));
}).then(setNodes);
function selectPath(path, nodes, def){
// Traverse path; the next path component should be among "nodes".
var nextPath = path.shift();
var nextNode = array.filter(nodes, function(node){
return node.getIdentity() == nextPath;
})[0];
if(!!nextNode){
if(path.length){
tree._expandNode(nextNode).then(function(){ selectPath(path, nextNode.getChildren(), def); });
}else{
// Successfully reached the end of this path
def.resolve(nextNode);
}
}else{
def.reject(new Tree.PathError("Could not expand path at " + nextPath));
}
}
function setNodes(newNodes){
// After all expansion is finished, set the selection to
// the set of nodes successfully found.
tree.set("selectedNodes", array.map(
array.filter(newNodes,function(x){return x[0];}),
function(x){return x[1];}));
}
},
_setSelectedNodeAttr: function(node){
this.set('selectedNodes', [node]);
},
_setSelectedNodesAttr: function(nodes){
// summary:
// Marks the specified TreeNodes as selected.
// nodes: TreeNode[]
// TreeNodes to mark.
this.dndController.setSelection(nodes);
},
expandAll: function(){
// summary:
// Expand all nodes in the tree
// returns:
// Deferred that fires when all nodes have expanded
var _this = this;
function expand(node){
var def = new dojo.Deferred();
// Expand the node
_this._expandNode(node).then(function(){
// When node has expanded, call expand() recursively on each non-leaf child
var childBranches = array.filter(node.getChildren() || [], function(node){
return node.isExpandable;
}),
defs = array.map(childBranches, expand);
// And when all those recursive calls finish, signal that I'm finished
new dojo.DeferredList(defs).then(function(){
def.resolve(true);
});
});
return def;
}
return expand(this.rootNode);
},
collapseAll: function(){
// summary:
// Collapse all nodes in the tree
// returns:
// Deferred that fires when all nodes have collapsed
var _this = this;
function collapse(node){
var def = new dojo.Deferred();
def.label = "collapseAllDeferred";
// Collapse children first
var childBranches = array.filter(node.getChildren() || [], function(node){
return node.isExpandable;
}),
defs = array.map(childBranches, collapse);
// And when all those recursive calls finish, collapse myself, unless I'm the invisible root node,
// in which case collapseAll() is finished
new dojo.DeferredList(defs).then(function(){
if(!node.isExpanded || (node == _this.rootNode && !_this.showRoot)){
def.resolve(true);
}else{
_this._collapseNode(node).then(function(){
// When node has collapsed, signal that call is finished
def.resolve(true);
});
}
});
return def;
}
return collapse(this.rootNode);
},
////////////// Data store related functions //////////////////////
// These just get passed to the model; they are here for back-compat
mayHaveChildren: function(/*dojo/data/Item*/ /*===== item =====*/){
// summary:
// Deprecated. This should be specified on the model itself.
//
// Overridable function to tell if an item has or may have children.
// Controls whether or not +/- expando icon is shown.
// (For efficiency reasons we may not want to check if an element actually
// has children until user clicks the expando node)
// tags:
// deprecated
},
getItemChildren: function(/*===== parentItem, onComplete =====*/){
// summary:
// Deprecated. This should be specified on the model itself.
//
// Overridable function that return array of child items of given parent item,
// or if parentItem==null then return top items in tree
// tags:
// deprecated
},
///////////////////////////////////////////////////////
// Functions for converting an item to a TreeNode
getLabel: function(/*dojo/data/Item*/ item){
// summary:
// Overridable function to get the label for a tree node (given the item)
// tags:
// extension
return this.model.getLabel(item); // String
},
getIconClass: function(/*dojo/data/Item*/ item, /*Boolean*/ opened){
// summary:
// Overridable function to return CSS class name to display icon
// tags:
// extension
return (!item || this.model.mayHaveChildren(item)) ? (opened ? "dijitFolderOpened" : "dijitFolderClosed") : "dijitLeaf"
},
getLabelClass: function(/*===== item, opened =====*/){
// summary:
// Overridable function to return CSS class name to display label
// item: dojo/data/Item
// opened: Boolean
// returns: String
// CSS class name
// tags:
// extension
},
getRowClass: function(/*===== item, opened =====*/){
// summary:
// Overridable function to return CSS class name to display row
// item: dojo/data/Item
// opened: Boolean
// returns: String
// CSS class name
// tags:
// extension
},
getIconStyle: function(/*===== item, opened =====*/){
// summary:
// Overridable function to return CSS styles to display icon
// item: dojo/data/Item
// opened: Boolean
// returns: Object
// Object suitable for input to dojo.style() like {backgroundImage: "url(...)"}
// tags:
// extension
},
getLabelStyle: function(/*===== item, opened =====*/){
// summary:
// Overridable function to return CSS styles to display label
// item: dojo/data/Item
// opened: Boolean
// returns:
// Object suitable for input to dojo.style() like {color: "red", background: "green"}
// tags:
// extension
},
getRowStyle: function(/*===== item, opened =====*/){
// summary:
// Overridable function to return CSS styles to display row
// item: dojo/data/Item
// opened: Boolean
// returns:
// Object suitable for input to dojo.style() like {background-color: "#bbb"}
// tags:
// extension
},
getTooltip: function(/*dojo/data/Item*/ /*===== item =====*/){
// summary:
// Overridable function to get the tooltip for a tree node (given the item)
// tags:
// extension
return ""; // String
},
/////////// Keyboard and Mouse handlers ////////////////////
_onKeyPress: function(/*TreeNode*/ treeNode, /*Event*/ e){
// summary:
// Handles keystrokes for printable keys, doing search navigation
if(e.charCode <= 32){
// Avoid duplicate events on firefox (this is an arrow key that will be handled by keydown handler)
return;
}
if(!e.altKey && !e.ctrlKey && !e.shiftKey && !e.metaKey){
var c = String.fromCharCode(e.charCode);
this._onLetterKeyNav( { node: treeNode, key: c.toLowerCase() } );
event.stop(e);
}
},
_onKeyDown: function(/*TreeNode*/ treeNode, /*Event*/ e){
// summary:
// Handles arrow, space, and enter keys
var key = e.keyCode;
var map = this._keyHandlerMap;
if(!map){
// Setup table mapping keys to events.
// On WebKit based browsers, the combination ctrl-enter does not get passed through. To allow accessible
// multi-select on those browsers, the space key is also used for selection.
// Therefore, also allow space key for keyboard "click" operation.
map = {};
map[keys.ENTER] = map[keys.SPACE] = map[" "] = "_onEnterKey";
map[this.isLeftToRight() ? keys.LEFT_ARROW : keys.RIGHT_ARROW] = "_onLeftArrow";
map[this.isLeftToRight() ? keys.RIGHT_ARROW : keys.LEFT_ARROW] = "_onRightArrow";
map[keys.UP_ARROW] = "_onUpArrow";
map[keys.DOWN_ARROW] = "_onDownArrow";
map[keys.HOME] = "_onHomeKey";
map[keys.END] = "_onEndKey";
this._keyHandlerMap = map;
}
if(this._keyHandlerMap[key]){
// clear record of recent printables (being saved for multi-char letter navigation),
// because "a", down-arrow, "b" shouldn't search for "ab"
if(this._curSearch){
this._curSearch.timer.remove();
delete this._curSearch;
}
this[this._keyHandlerMap[key]]( { node: treeNode, item: treeNode.item, evt: e } );
event.stop(e);
}
},
_onEnterKey: function(/*Object*/ message){
this._publish("execute", { item: message.item, node: message.node } );
this.dndController.userSelect(message.node, connect.isCopyKey( message.evt ), message.evt.shiftKey);
this.onClick(message.item, message.node, message.evt);
},
_onDownArrow: function(/*Object*/ message){
// summary:
// down arrow pressed; get next visible node, set focus there
var node = this._getNextNode(message.node);
if(node && node.isTreeNode){
this.focusNode(node);
}
},
_onUpArrow: function(/*Object*/ message){
// summary:
// Up arrow pressed; move to previous visible node
var node = message.node;
// if younger siblings
var previousSibling = node.getPreviousSibling();
if(previousSibling){
node = previousSibling;
// if the previous node is expanded, dive in deep
while(node.isExpandable && node.isExpanded && node.hasChildren()){
// move to the last child
var children = node.getChildren();
node = children[children.length-1];
}
}else{
// if this is the first child, return the parent
// unless the parent is the root of a tree with a hidden root
var parent = node.getParent();
if(!(!this.showRoot && parent === this.rootNode)){
node = parent;
}
}
if(node && node.isTreeNode){
this.focusNode(node);
}
},
_onRightArrow: function(/*Object*/ message){
// summary:
// Right arrow pressed; go to child node
var node = message.node;
// if not expanded, expand, else move to 1st child
if(node.isExpandable && !node.isExpanded){
this._expandNode(node);
}else if(node.hasChildren()){
node = node.getChildren()[0];
if(node && node.isTreeNode){
this.focusNode(node);
}
}
},
_onLeftArrow: function(/*Object*/ message){
// summary:
// Left arrow pressed.
// If not collapsed, collapse, else move to parent.
var node = message.node;
if(node.isExpandable && node.isExpanded){
this._collapseNode(node);
}else{
var parent = node.getParent();
if(parent && parent.isTreeNode && !(!this.showRoot && parent === this.rootNode)){
this.focusNode(parent);
}
}
},
_onHomeKey: function(){
// summary:
// Home key pressed; get first visible node, and set focus there
var node = this._getRootOrFirstNode();
if(node){
this.focusNode(node);
}
},
_onEndKey: function(){
// summary:
// End key pressed; go to last visible node.
var node = this.rootNode;
while(node.isExpanded){
var c = node.getChildren();
node = c[c.length - 1];
}
if(node && node.isTreeNode){
this.focusNode(node);
}
},
// multiCharSearchDuration: Number
// If multiple characters are typed where each keystroke happens within
// multiCharSearchDuration of the previous keystroke,
// search for nodes matching all the keystrokes.
//
// For example, typing "ab" will search for entries starting with
// "ab" unless the delay between "a" and "b" is greater than multiCharSearchDuration.
multiCharSearchDuration: 250,
_onLetterKeyNav: function(message){
// summary:
// Called when user presses a prinatable key; search for node starting with recently typed letters.
// message: Object
// Like { node: TreeNode, key: 'a' } where key is the key the user pressed.
// Branch depending on whether this key starts a new search, or modifies an existing search
var cs = this._curSearch;
if(cs){
// We are continuing a search. Ex: user has pressed 'a', and now has pressed
// 'b', so we want to search for nodes starting w/"ab".
cs.pattern = cs.pattern + message.key;
cs.timer.remove();
}else{
// We are starting a new search
cs = this._curSearch = {
pattern: message.key,
startNode: message.node
};
}
// set/reset timer to forget recent keystrokes
cs.timer = this.defer(function(){
delete this._curSearch;
}, this.multiCharSearchDuration);
// Navigate to TreeNode matching keystrokes [entered so far].
var node = cs.startNode;
do{
node = this._getNextNode(node);
//check for last node, jump to first node if necessary
if(!node){
node = this._getRootOrFirstNode();
}
}while(node !== cs.startNode && (node.label.toLowerCase().substr(0, cs.pattern.length) != cs.pattern));
if(node && node.isTreeNode){
// no need to set focus if back where we started
if(node !== cs.startNode){
this.focusNode(node);
}
}
},
isExpandoNode: function(node, widget){
// summary:
// check whether a dom node is the expandoNode for a particular TreeNode widget
return dom.isDescendant(node, widget.expandoNode) || dom.isDescendant(node, widget.expandoNodeText);
},
_onClick: function(/*TreeNode*/ nodeWidget, /*Event*/ e){
// summary:
// Translates click events into commands for the controller to process
var domElement = e.target,
isExpandoClick = this.isExpandoNode(domElement, nodeWidget);
if( (this.openOnClick && nodeWidget.isExpandable) || isExpandoClick ){
// expando node was clicked, or label of a folder node was clicked; open it
if(nodeWidget.isExpandable){
this._onExpandoClick({node:nodeWidget});
}
}else{
this._publish("execute", { item: nodeWidget.item, node: nodeWidget, evt: e } );
this.onClick(nodeWidget.item, nodeWidget, e);
this.focusNode(nodeWidget);
}
event.stop(e);
},
_onDblClick: function(/*TreeNode*/ nodeWidget, /*Event*/ e){
// summary:
// Translates double-click events into commands for the controller to process
var domElement = e.target,
isExpandoClick = (domElement == nodeWidget.expandoNode || domElement == nodeWidget.expandoNodeText);
if( (this.openOnDblClick && nodeWidget.isExpandable) ||isExpandoClick ){
// expando node was clicked, or label of a folder node was clicked; open it
if(nodeWidget.isExpandable){
this._onExpandoClick({node:nodeWidget});
}
}else{
this._publish("execute", { item: nodeWidget.item, node: nodeWidget, evt: e } );
this.onDblClick(nodeWidget.item, nodeWidget, e);
this.focusNode(nodeWidget);
}
event.stop(e);
},
_onExpandoClick: function(/*Object*/ message){
// summary:
// User clicked the +/- icon; expand or collapse my children.
var node = message.node;
// If we are collapsing, we might be hiding the currently focused node.
// Also, clicking the expando node might have erased focus from the current node.
// For simplicity's sake just focus on the node with the expando.
this.focusNode(node);
if(node.isExpanded){
this._collapseNode(node);
}else{
this._expandNode(node);
}
},
onClick: function(/*===== item, node, evt =====*/){
// summary:
// Callback when a tree node is clicked
// item: Object
// Object from the dojo/store corresponding to this TreeNode
// node: TreeNode
// The TreeNode itself
// evt: Event
// The event
// tags:
// callback
},
onDblClick: function(/*===== item, node, evt =====*/){
// summary:
// Callback when a tree node is double-clicked
// item: Object
// Object from the dojo/store corresponding to this TreeNode
// node: TreeNode
// The TreeNode itself
// evt: Event
// The event
// tags:
// callback
},
onOpen: function(/*===== item, node =====*/){
// summary:
// Callback when a node is opened
// item: dojo/data/Item
// node: TreeNode
// tags:
// callback
},
onClose: function(/*===== item, node =====*/){
// summary:
// Callback when a node is closed
// item: Object
// Object from the dojo/store corresponding to this TreeNode
// node: TreeNode
// The TreeNode itself
// tags:
// callback
},
_getNextNode: function(node){
// summary:
// Get next visible node
if(node.isExpandable && node.isExpanded && node.hasChildren()){
// if this is an expanded node, get the first child
return node.getChildren()[0]; // TreeNode
}else{
// find a parent node with a sibling
while(node && node.isTreeNode){
var returnNode = node.getNextSibling();
if(returnNode){
return returnNode; // TreeNode
}
node = node.getParent();
}
return null;
}
},
_getRootOrFirstNode: function(){
// summary:
// Get first visible node
return this.showRoot ? this.rootNode : this.rootNode.getChildren()[0];
},
_collapseNode: function(/*TreeNode*/ node){
// summary:
// Called when the user has requested to collapse the node
// returns:
// Deferred that fires when the node is closed
if(node._expandNodeDeferred){
delete node._expandNodeDeferred;
}
if(node.state == "LOADING"){
// ignore clicks while we are in the process of loading data
return;
}
if(node.isExpanded){
var ret = node.collapse();
this.onClose(node.item, node);
this._state(node, false);
this._startPaint(ret); // after this finishes, need to reset widths of TreeNodes
return ret;
}
},
_expandNode: function(/*TreeNode*/ node){
// summary:
// Called when the user has requested to expand the node
// returns:
// Deferred that fires when the node is loaded and opened and (if persist=true) all it's descendants
// that were previously opened too
// Signal that this call is complete
var def = new Deferred();
if(node._expandNodeDeferred){
// there's already an expand in progress, or completed, so just return
return node._expandNodeDeferred; // dojo/_base/Deferred
}
var model = this.model,
item = node.item,
_this = this;
// Load data if it's not already loaded
if(!node._loadDeferred){
// need to load all the children before expanding
node.markProcessing();
// Setup deferred to signal when the load and expand are finished.
// Save that deferred in this._expandDeferred as a flag that operation is in progress.
node._loadDeferred = new Deferred();
// Get the children
model.getChildren(
item,
function(items){
node.unmarkProcessing();
// Display the children and also start expanding any children that were previously expanded
// (if this.persist == true). The returned Deferred will fire when those expansions finish.
node.setChildItems(items).then(function(){
node._loadDeferred.resolve(items);
});
},
function(err){
console.error(_this, ": error loading " + node.label + " children: ", err);
node._loadDeferred.reject(err);
}
);
}
// Expand the node after data has loaded
node._loadDeferred.then(lang.hitch(this, function(){
node.expand().then(function(){
def.resolve(true); // signal that this _expandNode() call is complete
});
// seems like these should be inside of then(), but left here for back-compat about
// when this.isOpen flag gets set (ie, at the beginning of the animation)
this.onOpen(node.item, node);
this._state(node, true);
}));
this._startPaint(def); // after this finishes, need to reset widths of TreeNodes
return def; // dojo/_base/Deferred
},
////////////////// Miscellaneous functions ////////////////
focusNode: function(/* _tree.Node */ node){
// summary:
// Focus on the specified node (which must be visible)
// tags:
// protected
// set focus so that the label will be voiced using screen readers
focus.focus(node.labelNode);
},
_onNodeFocus: function(/*dijit/_WidgetBase*/ node){
// summary:
// Called when a TreeNode gets focus, either by user clicking
// it, or programatically by arrow key handling code.
// description:
// It marks that the current node is the selected one, and the previously
// selected node no longer is.
if(node && node != this.lastFocused){
if(this.lastFocused && !this.lastFocused._destroyed){
// mark that the previously focsable node is no longer focusable
this.lastFocused.setFocusable(false);
}
// mark that the new node is the currently selected one
node.setFocusable(true);
this.lastFocused = node;
}
},
_onNodeMouseEnter: function(/*dijit/_WidgetBase*/ /*===== node =====*/){
// summary:
// Called when mouse is over a node (onmouseenter event),
// this is monitored by the DND code
},
_onNodeMouseLeave: function(/*dijit/_WidgetBase*/ /*===== node =====*/){
// summary:
// Called when mouse leaves a node (onmouseleave event),
// this is monitored by the DND code
},
//////////////// Events from the model //////////////////////////
_onItemChange: function(/*Item*/ item){
// summary:
// Processes notification of a change to an item's scalar values like label
var model = this.model,
identity = model.getIdentity(item),
nodes = this._itemNodesMap[identity];
if(nodes){
var label = this.getLabel(item),
tooltip = this.getTooltip(item);
array.forEach(nodes, function(node){
node.set({
item: item, // theoretically could be new JS Object representing same item
label: label,
tooltip: tooltip
});
node._updateItemClasses(item);
});
}
},
_onItemChildrenChange: function(/*dojo/data/Item*/ parent, /*dojo/data/Item[]*/ newChildrenList){
// summary:
// Processes notification of a change to an item's children
var model = this.model,
identity = model.getIdentity(parent),
parentNodes = this._itemNodesMap[identity];
if(parentNodes){
array.forEach(parentNodes,function(parentNode){
parentNode.setChildItems(newChildrenList);
});
}
},
_onItemDelete: function(/*Item*/ item){
// summary:
// Processes notification of a deletion of an item.
// Not called from new dojo.store interface but there's cleanup code in setChildItems() instead.
var model = this.model,
identity = model.getIdentity(item),
nodes = this._itemNodesMap[identity];
if(nodes){
array.forEach(nodes,function(node){
// Remove node from set of selected nodes (if it's selected)
this.dndController.removeTreeNode(node);
var parent = node.getParent();
if(parent){
// if node has not already been orphaned from a _onSetItem(parent, "children", ..) call...
parent.removeChild(node);
}
node.destroyRecursive();
}, this);
delete this._itemNodesMap[identity];
}
},
/////////////// Miscellaneous funcs
_initState: function(){
// summary:
// Load in which nodes should be opened automatically
this._openedNodes = {};
if(this.persist && this.cookieName){
var oreo = cookie(this.cookieName);
if(oreo){
array.forEach(oreo.split(','), function(item){
this._openedNodes[item] = true;
}, this);
}
}
},
_state: function(node, expanded){
// summary:
// Query or set expanded state for an node
if(!this.persist){
return false;
}
var path = array.map(node.getTreePath(), function(item){
return this.model.getIdentity(item);
}, this).join("/");
if(arguments.length === 1){
return this._openedNodes[path];
}else{
if(expanded){
this._openedNodes[path] = true;
}else{
delete this._openedNodes[path];
}
if(this.persist && this.cookieName){
var ary = [];
for(var id in this._openedNodes){
ary.push(id);
}
cookie(this.cookieName, ary.join(","), {expires:365});
}
}
},
destroy: function(){
if(this._curSearch){
this._curSearch.timer.remove();
delete this._curSearch;
}
if(this.rootNode){
this.rootNode.destroyRecursive();
}
if(this.dndController && !lang.isString(this.dndController)){
this.dndController.destroy();
}
this.rootNode = null;
this.inherited(arguments);
},
destroyRecursive: function(){
// A tree is treated as a leaf, not as a node with children (like a grid),
// but defining destroyRecursive for back-compat.
this.destroy();
},
resize: function(changeSize){
if(changeSize){
domGeometry.setMarginBox(this.domNode, changeSize);
}
// The main JS sizing involved w/tree is the indentation, which is specified
// in CSS and read in through this dummy indentDetector node (tree must be
// visible and attached to the DOM to read this).
// If the Tree is hidden domGeometry.position(this.tree.indentDetector).w will return 0, in which case just
// keep the default value.
this._nodePixelIndent = domGeometry.position(this.tree.indentDetector).w || this._nodePixelIndent;
// resize() may be called before this.rootNode is created, so wait until it's available
this.expandChildrenDeferred.then(lang.hitch(this, function(){
// If tree has already loaded, then reset indent for all the nodes
this.rootNode.set('indent', this.showRoot ? 0 : -1);
// Also, adjust widths of all rows to match width of Tree
this._adjustWidths();
}));
},
_outstandingPaintOperations: 0,
_startPaint: function(/*Promise|Boolean*/ p){
// summary:
// Called at the start of an operation that will change what's displayed.
// p:
// Promise that tells when the operation will complete. Alternately, if it's just a Boolean, it signifies
// that the operation was synchronous, and already completed.
this._outstandingPaintOperations++;
if(this._adjustWidthsTimer){
this._adjustWidthsTimer.remove();
delete this._adjustWidthsTimer;
}
var oc = lang.hitch(this, function(){
this._outstandingPaintOperations--;
if(this._outstandingPaintOperations <= 0 && !this._adjustWidthsTimer && this._started){
// Use defer() to avoid a width adjustment when another operation will immediately follow,
// such as a sequence of opening a node, then it's children, then it's grandchildren, etc.
this._adjustWidthsTimer = this.defer("_adjustWidths");
}
});
when(p, oc, oc);
},
_adjustWidths: function(){
// summary:
// Get width of widest TreeNode, or the width of the Tree itself, whichever is greater,
// and then set all TreeNodes to that width, so that selection/hover highlighting
// extends to the edge of the Tree (#13141)
if(this._adjustWidthsTimer){
this._adjustWidthsTimer.remove();
delete this._adjustWidthsTimer;
}
var maxWidth = 0,
nodes = [];
function collect(/*TreeNode*/ parent){
var node = parent.rowNode;
node.style.width = "auto"; // erase setting from previous run
maxWidth = Math.max(maxWidth, node.clientWidth);
nodes.push(node);
if(parent.isExpanded){
array.forEach(parent.getChildren(), collect);
}
}
collect(this.rootNode);
maxWidth = Math.max(maxWidth, domGeometry.getContentBox(this.domNode).w); // do after node.style.width="auto"
array.forEach(nodes, function(node){
node.style.width = maxWidth + "px"; // assumes no horizontal padding, border, or margin on rowNode
});
},
_createTreeNode: function(/*Object*/ args){
// summary:
// creates a TreeNode
// description:
// Developers can override this method to define their own TreeNode class;
// However it will probably be removed in a future release in favor of a way
// of just specifying a widget for the label, rather than one that contains
// the children too.
return new TreeNode(args);
},
_setTextDirAttr: function(textDir){
if(textDir && this.textDir!= textDir){
this._set("textDir",textDir);
this.rootNode.set("textDir", textDir);
}
}
});
Tree.PathError = createError("TreePathError");
Tree._TreeNode = TreeNode; // for monkey patching or creating subclasses of TreeNode
return Tree;
});