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tt-rss/lib/dojo/NodeList-traverse.js.uncomp...

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JavaScript

define("dojo/NodeList-traverse", ["./query", "./_base/lang", "./_base/array"], function(dquery, lang, array){
// module:
// dojo/NodeList-traverse
/*=====
return function(){
// summary:
// Adds chainable methods to dojo.query() / NodeList instances for traversing the DOM
};
=====*/
var NodeList = dquery.NodeList;
lang.extend(NodeList, {
_buildArrayFromCallback: function(/*Function*/ callback){
// summary:
// builds a new array of possibly differing size based on the input list.
// Since the returned array is likely of different size than the input array,
// the array's map function cannot be used.
var ary = [];
for(var i = 0; i < this.length; i++){
var items = callback.call(this[i], this[i], ary);
if(items){
ary = ary.concat(items);
}
}
return ary; //Array
},
_getUniqueAsNodeList: function(/*Array*/ nodes){
// summary:
// given a list of nodes, make sure only unique
// elements are returned as our NodeList object.
// Does not call _stash().
var ary = [];
//Using for loop for better speed.
for(var i = 0, node; node = nodes[i]; i++){
//Should be a faster way to do this. dojo.query has a private
//_zip function that may be inspirational, but there are pathways
//in query that force nozip?
if(node.nodeType == 1 && array.indexOf(ary, node) == -1){
ary.push(node);
}
}
return this._wrap(ary, null, this._NodeListCtor); // dojo/NodeList
},
_getUniqueNodeListWithParent: function(/*Array*/ nodes, /*String*/ query){
// summary:
// gets unique element nodes, filters them further
// with an optional query and then calls _stash to track parent NodeList.
var ary = this._getUniqueAsNodeList(nodes);
ary = (query ? dquery._filterResult(ary, query) : ary);
return ary._stash(this); // dojo/NodeList
},
_getRelatedUniqueNodes: function(/*String?*/ query, /*Function*/ callback){
// summary:
// cycles over all the nodes and calls a callback
// to collect nodes for a possible inclusion in a result.
// The callback will get two args: callback(node, ary),
// where ary is the array being used to collect the nodes.
return this._getUniqueNodeListWithParent(this._buildArrayFromCallback(callback), query); // dojo/NodeList
},
children: function(/*String?*/ query){
// summary:
// Returns all immediate child elements for nodes in this dojo/NodeList.
// Optionally takes a query to filter the child elements.
// description:
// .end() can be used on the returned dojo/NodeList to get back to the
// original dojo/NodeList.
// query:
// a CSS selector.
// returns:
// all immediate child elements for the nodes in this dojo/NodeList.
// example:
// assume a DOM created by this markup:
// | <div class="container">
// | <div class="red">Red One</div>
// | Some Text
// | <div class="blue">Blue One</div>
// | <div class="red">Red Two</div>
// | <div class="blue">Blue Two</div>
// | </div>
// Running this code:
// | dojo.query(".container").children();
// returns the four divs that are children of the container div.
// Running this code:
// | dojo.query(".container").children(".red");
// returns the two divs that have the class "red".
return this._getRelatedUniqueNodes(query, function(node, ary){
return lang._toArray(node.childNodes);
}); // dojo/NodeList
},
closest: function(/*String*/ query, /*String|DOMNode?*/ root){
// summary:
// Returns closest parent that matches query, including current node in this
// dojo/NodeList if it matches the query.
// description:
// .end() can be used on the returned dojo/NodeList to get back to the
// original dojo/NodeList.
// query:
// a CSS selector.
// root:
// If specified, query is relative to "root" rather than document body.
// returns:
// the closest parent that matches the query, including the current
// node in this dojo/NodeList if it matches the query.
// example:
// assume a DOM created by this markup:
// | <div class="container">
// | <div class="red">Red One</div>
// | Some Text
// | <div class="blue">Blue One</div>
// | <div class="red">Red Two</div>
// | <div class="blue">Blue Two</div>
// | </div>
// Running this code:
// | dojo.query(".red").closest(".container");
// returns the div with class "container".
return this._getRelatedUniqueNodes(null, function(node, ary){
do{
if(dquery._filterResult([node], query, root).length){
return node;
}
}while(node != root && (node = node.parentNode) && node.nodeType == 1);
return null; //To make rhino strict checking happy.
}); // dojo/NodeList
},
parent: function(/*String?*/ query){
// summary:
// Returns immediate parent elements for nodes in this dojo/NodeList.
// Optionally takes a query to filter the parent elements.
// description:
// .end() can be used on the returned dojo/NodeList to get back to the
// original dojo/NodeList.
// query:
// a CSS selector.
// returns:
// immediate parent elements for nodes in this dojo/NodeList.
// example:
// assume a DOM created by this markup:
// | <div class="container">
// | <div class="red">Red One</div>
// | <div class="blue first"><span class="text">Blue One</span></div>
// | <div class="red">Red Two</div>
// | <div class="blue"><span class="text">Blue Two</span></div>
// | </div>
// Running this code:
// | dojo.query(".text").parent();
// returns the two divs with class "blue".
// Running this code:
// | dojo.query(".text").parent(".first");
// returns the one div with class "blue" and "first".
return this._getRelatedUniqueNodes(query, function(node, ary){
return node.parentNode;
}); // dojo/NodeList
},
parents: function(/*String?*/ query){
// summary:
// Returns all parent elements for nodes in this dojo/NodeList.
// Optionally takes a query to filter the child elements.
// description:
// .end() can be used on the returned dojo/NodeList to get back to the
// original dojo/NodeList.
// query:
// a CSS selector.
// returns:
// all parent elements for nodes in this dojo/NodeList.
// example:
// assume a DOM created by this markup:
// | <div class="container">
// | <div class="red">Red One</div>
// | <div class="blue first"><span class="text">Blue One</span></div>
// | <div class="red">Red Two</div>
// | <div class="blue"><span class="text">Blue Two</span></div>
// | </div>
// Running this code:
// | dojo.query(".text").parents();
// returns the two divs with class "blue", the div with class "container",
// | the body element and the html element.
// Running this code:
// | dojo.query(".text").parents(".container");
// returns the one div with class "container".
return this._getRelatedUniqueNodes(query, function(node, ary){
var pary = [];
while(node.parentNode){
node = node.parentNode;
pary.push(node);
}
return pary;
}); // dojo/NodeList
},
siblings: function(/*String?*/ query){
// summary:
// Returns all sibling elements for nodes in this dojo/NodeList.
// Optionally takes a query to filter the sibling elements.
// description:
// .end() can be used on the returned dojo/NodeList to get back to the
// original dojo/NodeList.
// query:
// a CSS selector.
// returns:
// all sibling elements for nodes in this dojo/NodeList.
// example:
// assume a DOM created by this markup:
// | <div class="container">
// | <div class="red">Red One</div>
// | Some Text
// | <div class="blue first">Blue One</div>
// | <div class="red">Red Two</div>
// | <div class="blue">Blue Two</div>
// | </div>
// Running this code:
// | dojo.query(".first").siblings();
// returns the two divs with class "red" and the other div
// | with class "blue" that does not have "first".
// Running this code:
// | dojo.query(".first").siblings(".red");
// returns the two div with class "red".
return this._getRelatedUniqueNodes(query, function(node, ary){
var pary = [];
var nodes = (node.parentNode && node.parentNode.childNodes);
for(var i = 0; i < nodes.length; i++){
if(nodes[i] != node){
pary.push(nodes[i]);
}
}
return pary;
}); // dojo/NodeList
},
next: function(/*String?*/ query){
// summary:
// Returns the next element for nodes in this dojo/NodeList.
// Optionally takes a query to filter the next elements.
// description:
// .end() can be used on the returned dojo/NodeList to get back to the
// original dojo/NodeList.
// query:
// a CSS selector.
// returns:
// the next element for nodes in this dojo/NodeList.
// example:
// assume a DOM created by this markup:
// | <div class="container">
// | <div class="red">Red One</div>
// | Some Text
// | <div class="blue first">Blue One</div>
// | <div class="red">Red Two</div>
// | <div class="blue last">Blue Two</div>
// | </div>
// Running this code:
// | dojo.query(".first").next();
// returns the div with class "red" and has innerHTML of "Red Two".
// Running this code:
// | dojo.query(".last").next(".red");
// does not return any elements.
return this._getRelatedUniqueNodes(query, function(node, ary){
var next = node.nextSibling;
while(next && next.nodeType != 1){
next = next.nextSibling;
}
return next;
}); // dojo/NodeList
},
nextAll: function(/*String?*/ query){
// summary:
// Returns all sibling elements that come after the nodes in this dojo/NodeList.
// Optionally takes a query to filter the sibling elements.
// description:
// .end() can be used on the returned dojo/NodeList to get back to the
// original dojo/NodeList.
// query:
// a CSS selector.
// returns:
// all sibling elements that come after the nodes in this dojo/NodeList.
// example:
// assume a DOM created by this markup:
// | <div class="container">
// | <div class="red">Red One</div>
// | Some Text
// | <div class="blue first">Blue One</div>
// | <div class="red next">Red Two</div>
// | <div class="blue next">Blue Two</div>
// | </div>
// Running this code:
// | dojo.query(".first").nextAll();
// returns the two divs with class of "next".
// Running this code:
// | dojo.query(".first").nextAll(".red");
// returns the one div with class "red" and innerHTML "Red Two".
return this._getRelatedUniqueNodes(query, function(node, ary){
var pary = [];
var next = node;
while((next = next.nextSibling)){
if(next.nodeType == 1){
pary.push(next);
}
}
return pary;
}); // dojo/NodeList
},
prev: function(/*String?*/ query){
// summary:
// Returns the previous element for nodes in this dojo/NodeList.
// Optionally takes a query to filter the previous elements.
// description:
// .end() can be used on the returned dojo/NodeList to get back to the
// original dojo/NodeList.
// query:
// a CSS selector.
// returns:
// the previous element for nodes in this dojo/NodeList.
// example:
// assume a DOM created by this markup:
// | <div class="container">
// | <div class="red">Red One</div>
// | Some Text
// | <div class="blue first">Blue One</div>
// | <div class="red">Red Two</div>
// | <div class="blue">Blue Two</div>
// | </div>
// Running this code:
// | dojo.query(".first").prev();
// returns the div with class "red" and has innerHTML of "Red One".
// Running this code:
// | dojo.query(".first").prev(".blue");
// does not return any elements.
return this._getRelatedUniqueNodes(query, function(node, ary){
var prev = node.previousSibling;
while(prev && prev.nodeType != 1){
prev = prev.previousSibling;
}
return prev;
}); // dojo/NodeList
},
prevAll: function(/*String?*/ query){
// summary:
// Returns all sibling elements that come before the nodes in this dojo/NodeList.
// Optionally takes a query to filter the sibling elements.
// description:
// The returned nodes will be in reverse DOM order -- the first node in the list will
// be the node closest to the original node/NodeList.
// .end() can be used on the returned dojo/NodeList to get back to the
// original dojo/NodeList.
// query:
// a CSS selector.
// returns:
// all sibling elements that come before the nodes in this dojo/NodeList.
// example:
// assume a DOM created by this markup:
// | <div class="container">
// | <div class="red prev">Red One</div>
// | Some Text
// | <div class="blue prev">Blue One</div>
// | <div class="red second">Red Two</div>
// | <div class="blue">Blue Two</div>
// | </div>
// Running this code:
// | dojo.query(".second").prevAll();
// returns the two divs with class of "prev".
// Running this code:
// | dojo.query(".first").prevAll(".red");
// returns the one div with class "red prev" and innerHTML "Red One".
return this._getRelatedUniqueNodes(query, function(node, ary){
var pary = [];
var prev = node;
while((prev = prev.previousSibling)){
if(prev.nodeType == 1){
pary.push(prev);
}
}
return pary;
}); // dojo/NodeList
},
andSelf: function(){
// summary:
// Adds the nodes from the previous dojo/NodeList to the current dojo/NodeList.
// description:
// .end() can be used on the returned dojo/NodeList to get back to the
// original dojo/NodeList.
// example:
// assume a DOM created by this markup:
// | <div class="container">
// | <div class="red prev">Red One</div>
// | Some Text
// | <div class="blue prev">Blue One</div>
// | <div class="red second">Red Two</div>
// | <div class="blue">Blue Two</div>
// | </div>
// Running this code:
// | dojo.query(".second").prevAll().andSelf();
// returns the two divs with class of "prev", as well as the div with class "second".
return this.concat(this._parent); // dojo/NodeList
},
//Alternate methods for the :first/:last/:even/:odd pseudos.
first: function(){
// summary:
// Returns the first node in this dojo/NodeList as a dojo/NodeList.
// description:
// .end() can be used on the returned dojo/NodeList to get back to the
// original dojo/NodeList.
// returns:
// the first node in this dojo/NodeList
// example:
// assume a DOM created by this markup:
// | <div class="container">
// | <div class="red">Red One</div>
// | <div class="blue first">Blue One</div>
// | <div class="red">Red Two</div>
// | <div class="blue last">Blue Two</div>
// | </div>
// Running this code:
// | dojo.query(".blue").first();
// returns the div with class "blue" and "first".
return this._wrap(((this[0] && [this[0]]) || []), this); // dojo/NodeList
},
last: function(){
// summary:
// Returns the last node in this dojo/NodeList as a dojo/NodeList.
// description:
// .end() can be used on the returned dojo/NodeList to get back to the
// original dojo/NodeList.
// returns:
// the last node in this dojo/NodeList
// example:
// assume a DOM created by this markup:
// | <div class="container">
// | <div class="red">Red One</div>
// | <div class="blue first">Blue One</div>
// | <div class="red">Red Two</div>
// | <div class="blue last">Blue Two</div>
// | </div>
// Running this code:
// | dojo.query(".blue").last();
// returns the last div with class "blue",
return this._wrap((this.length ? [this[this.length - 1]] : []), this); // dojo/NodeList
},
even: function(){
// summary:
// Returns the even nodes in this dojo/NodeList as a dojo/NodeList.
// description:
// .end() can be used on the returned dojo/NodeList to get back to the
// original dojo/NodeList.
// returns:
// the even nodes in this dojo/NodeList
// example:
// assume a DOM created by this markup:
// | <div class="container">
// | <div class="interior red">Red One</div>
// | <div class="interior blue">Blue One</div>
// | <div class="interior red">Red Two</div>
// | <div class="interior blue">Blue Two</div>
// | </div>
// Running this code:
// | dojo.query(".interior").even();
// returns the two divs with class "blue"
return this.filter(function(item, i){
return i % 2 != 0;
}); // dojo/NodeList
},
odd: function(){
// summary:
// Returns the odd nodes in this dojo/NodeList as a dojo/NodeList.
// description:
// .end() can be used on the returned dojo/NodeList to get back to the
// original dojo/NodeList.
// returns:
// the odd nodes in this dojo/NodeList
// example:
// assume a DOM created by this markup:
// | <div class="container">
// | <div class="interior red">Red One</div>
// | <div class="interior blue">Blue One</div>
// | <div class="interior red">Red Two</div>
// | <div class="interior blue">Blue Two</div>
// | </div>
// Running this code:
// | dojo.query(".interior").odd();
// returns the two divs with class "red"
return this.filter(function(item, i){
return i % 2 == 0;
}); // dojo/NodeList
}
});
return NodeList;
});