define("dojo/query", ["./_base/kernel", "./has", "./dom", "./on", "./_base/array", "./_base/lang", "./selector/_loader", "./selector/_loader!default"], function(dojo, has, dom, on, array, lang, loader, defaultEngine){ "use strict"; has.add("array-extensible", function(){ // test to see if we can extend an array (not supported in old IE) return lang.delegate([], {length: 1}).length == 1 && !has("bug-for-in-skips-shadowed"); }); var ap = Array.prototype, aps = ap.slice, apc = ap.concat, forEach = array.forEach; var tnl = function(/*Array*/ a, /*dojo/NodeList?*/ parent, /*Function?*/ NodeListCtor){ // summary: // decorate an array to make it look like a `dojo/NodeList`. // a: // Array of nodes to decorate. // parent: // An optional parent NodeList that generated the current // list of nodes. Used to call _stash() so the parent NodeList // can be accessed via end() later. // NodeListCtor: // An optional constructor function to use for any // new NodeList calls. This allows a certain chain of // NodeList calls to use a different object than dojo/NodeList. var nodeList = new (NodeListCtor || this._NodeListCtor || nl)(a); return parent ? nodeList._stash(parent) : nodeList; }; var loopBody = function(f, a, o){ a = [0].concat(aps.call(a, 0)); o = o || dojo.global; return function(node){ a[0] = node; return f.apply(o, a); }; }; // adapters var adaptAsForEach = function(f, o){ // summary: // adapts a single node function to be used in the forEach-type // actions. The initial object is returned from the specialized // function. // f: Function // a function to adapt // o: Object? // an optional context for f return function(){ this.forEach(loopBody(f, arguments, o)); return this; // Object }; }; var adaptAsMap = function(f, o){ // summary: // adapts a single node function to be used in the map-type // actions. The return is a new array of values, as via `dojo.map` // f: Function // a function to adapt // o: Object? // an optional context for f return function(){ return this.map(loopBody(f, arguments, o)); }; }; var adaptAsFilter = function(f, o){ // summary: // adapts a single node function to be used in the filter-type actions // f: Function // a function to adapt // o: Object? // an optional context for f return function(){ return this.filter(loopBody(f, arguments, o)); }; }; var adaptWithCondition = function(f, g, o){ // summary: // adapts a single node function to be used in the map-type // actions, behaves like forEach() or map() depending on arguments // f: Function // a function to adapt // g: Function // a condition function, if true runs as map(), otherwise runs as forEach() // o: Object? // an optional context for f and g return function(){ var a = arguments, body = loopBody(f, a, o); if(g.call(o || dojo.global, a)){ return this.map(body); // self } this.forEach(body); return this; // self }; }; var NodeList = function(array){ // summary: // Array-like object which adds syntactic // sugar for chaining, common iteration operations, animation, and // node manipulation. NodeLists are most often returned as the // result of dojo.query() calls. // description: // NodeList instances provide many utilities that reflect // core Dojo APIs for Array iteration and manipulation, DOM // manipulation, and event handling. Instead of needing to dig up // functions in the dojo.* namespace, NodeLists generally make the // full power of Dojo available for DOM manipulation tasks in a // simple, chainable way. // example: // create a node list from a node // | new query.NodeList(dojo.byId("foo")); // example: // get a NodeList from a CSS query and iterate on it // | var l = dojo.query(".thinger"); // | l.forEach(function(node, index, nodeList){ // | console.log(index, node.innerHTML); // | }); // example: // use native and Dojo-provided array methods to manipulate a // NodeList without needing to use dojo.* functions explicitly: // | var l = dojo.query(".thinger"); // | // since NodeLists are real arrays, they have a length // | // property that is both readable and writable and // | // push/pop/shift/unshift methods // | console.log(l.length); // | l.push(dojo.create("span")); // | // | // dojo's normalized array methods work too: // | console.log( l.indexOf(dojo.byId("foo")) ); // | // ...including the special "function as string" shorthand // | console.log( l.every("item.nodeType == 1") ); // | // | // NodeLists can be [..] indexed, or you can use the at() // | // function to get specific items wrapped in a new NodeList: // | var node = l[3]; // the 4th element // | var newList = l.at(1, 3); // the 2nd and 4th elements // example: // the style functions you expect are all there too: // | // style() as a getter... // | var borders = dojo.query(".thinger").style("border"); // | // ...and as a setter: // | dojo.query(".thinger").style("border", "1px solid black"); // | // class manipulation // | dojo.query("li:nth-child(even)").addClass("even"); // | // even getting the coordinates of all the items // | var coords = dojo.query(".thinger").coords(); // example: // DOM manipulation functions from the dojo.* namespace area also available: // | // remove all of the elements in the list from their // | // parents (akin to "deleting" them from the document) // | dojo.query(".thinger").orphan(); // | // place all elements in the list at the front of #foo // | dojo.query(".thinger").place("foo", "first"); // example: // Event handling couldn't be easier. `dojo.connect` is mapped in, // and shortcut handlers are provided for most DOM events: // | // like dojo.connect(), but with implicit scope // | dojo.query("li").connect("onclick", console, "log"); // | // | // many common event handlers are already available directly: // | dojo.query("li").onclick(console, "log"); // | var toggleHovered = dojo.hitch(dojo, "toggleClass", "hovered"); // | dojo.query("p") // | .onmouseenter(toggleHovered) // | .onmouseleave(toggleHovered); // example: // chainability is a key advantage of NodeLists: // | dojo.query(".thinger") // | .onclick(function(e){ /* ... */ }) // | .at(1, 3, 8) // get a subset // | .style("padding", "5px") // | .forEach(console.log); var isNew = this instanceof nl && has("array-extensible"); if(typeof array == "number"){ array = Array(array); } var nodeArray = (array && "length" in array) ? array : arguments; if(isNew || !nodeArray.sort){ // make sure it's a real array before we pass it on to be wrapped var target = isNew ? this : [], l = target.length = nodeArray.length; for(var i = 0; i < l; i++){ target[i] = nodeArray[i]; } if(isNew){ // called with new operator, this means we are going to use this instance and push // the nodes on to it. This is usually much faster since the NodeList properties // don't need to be copied (unless the list of nodes is extremely large). return target; } nodeArray = target; } // called without new operator, use a real array and copy prototype properties, // this is slower and exists for back-compat. Should be removed in 2.0. lang._mixin(nodeArray, nlp); nodeArray._NodeListCtor = function(array){ // call without new operator to preserve back-compat behavior return nl(array); }; return nodeArray; }; var nl = NodeList, nlp = nl.prototype = has("array-extensible") ? [] : {};// extend an array if it is extensible // expose adapters and the wrapper as private functions nl._wrap = nlp._wrap = tnl; nl._adaptAsMap = adaptAsMap; nl._adaptAsForEach = adaptAsForEach; nl._adaptAsFilter = adaptAsFilter; nl._adaptWithCondition = adaptWithCondition; // mass assignment // add array redirectors forEach(["slice", "splice"], function(name){ var f = ap[name]; //Use a copy of the this array via this.slice() to allow .end() to work right in the splice case. // CANNOT apply ._stash()/end() to splice since it currently modifies // the existing this array -- it would break backward compatibility if we copy the array before // the splice so that we can use .end(). So only doing the stash option to this._wrap for slice. nlp[name] = function(){ return this._wrap(f.apply(this, arguments), name == "slice" ? this : null); }; }); // concat should be here but some browsers with native NodeList have problems with it // add array.js redirectors forEach(["indexOf", "lastIndexOf", "every", "some"], function(name){ var f = array[name]; nlp[name] = function(){ return f.apply(dojo, [this].concat(aps.call(arguments, 0))); }; }); lang.extend(NodeList, { // copy the constructors constructor: nl, _NodeListCtor: nl, toString: function(){ // Array.prototype.toString can't be applied to objects, so we use join return this.join(","); }, _stash: function(parent){ // summary: // private function to hold to a parent NodeList. end() to return the parent NodeList. // // example: // How to make a `dojo/NodeList` method that only returns the third node in // the dojo/NodeList but allows access to the original NodeList by using this._stash: // | dojo.extend(NodeList, { // | third: function(){ // | var newNodeList = NodeList(this[2]); // | return newNodeList._stash(this); // | } // | }); // | // then see how _stash applies a sub-list, to be .end()'ed out of // | dojo.query(".foo") // | .third() // | .addClass("thirdFoo") // | .end() // | // access to the orig .foo list // | .removeClass("foo") // | // this._parent = parent; return this; // dojo/NodeList }, on: function(eventName, listener){ // summary: // Listen for events on the nodes in the NodeList. Basic usage is: // | query(".my-class").on("click", listener); // This supports event delegation by using selectors as the first argument with the event names as // pseudo selectors. For example: // | dojo.query("#my-list").on("li:click", listener); // This will listen for click events within `
  • ` elements that are inside the `#my-list` element. // Because on supports CSS selector syntax, we can use comma-delimited events as well: // | dojo.query("#my-list").on("li button:mouseover, li:click", listener); var handles = this.map(function(node){ return on(node, eventName, listener); // TODO: apply to the NodeList so the same selector engine is used for matches }); handles.remove = function(){ for(var i = 0; i < handles.length; i++){ handles[i].remove(); } }; return handles; }, end: function(){ // summary: // Ends use of the current `NodeList` by returning the previous NodeList // that generated the current NodeList. // description: // Returns the `NodeList` that generated the current `NodeList`. If there // is no parent NodeList, an empty NodeList is returned. // example: // | dojo.query("a") // | .filter(".disabled") // | // operate on the anchors that only have a disabled class // | .style("color", "grey") // | .end() // | // jump back to the list of anchors // | .style(...) // if(this._parent){ return this._parent; }else{ //Just return empty list. return new this._NodeListCtor(0); } }, // http://developer.mozilla.org/en/docs/Core_JavaScript_1.5_Reference:Global_Objects:Array#Methods // FIXME: handle return values for #3244 // http://trac.dojotoolkit.org/ticket/3244 // FIXME: // need to wrap or implement: // join (perhaps w/ innerHTML/outerHTML overload for toString() of items?) // reduce // reduceRight /*===== slice: function(begin, end){ // summary: // Returns a new NodeList, maintaining this one in place // description: // This method behaves exactly like the Array.slice method // with the caveat that it returns a dojo/NodeList and not a // raw Array. For more details, see Mozilla's [slice // documentation](https://developer.mozilla.org/en/JavaScript/Reference/Global_Objects/Array/slice) // begin: Integer // Can be a positive or negative integer, with positive // integers noting the offset to begin at, and negative // integers denoting an offset from the end (i.e., to the left // of the end) // end: Integer? // Optional parameter to describe what position relative to // the NodeList's zero index to end the slice at. Like begin, // can be positive or negative. return this._wrap(a.slice.apply(this, arguments)); }, splice: function(index, howmany, item){ // summary: // Returns a new NodeList, manipulating this NodeList based on // the arguments passed, potentially splicing in new elements // at an offset, optionally deleting elements // description: // This method behaves exactly like the Array.splice method // with the caveat that it returns a dojo/NodeList and not a // raw Array. For more details, see Mozilla's [splice // documentation](https://developer.mozilla.org/en/JavaScript/Reference/Global_Objects/Array/splice) // For backwards compatibility, calling .end() on the spliced NodeList // does not return the original NodeList -- splice alters the NodeList in place. // index: Integer // begin can be a positive or negative integer, with positive // integers noting the offset to begin at, and negative // integers denoting an offset from the end (i.e., to the left // of the end) // howmany: Integer? // Optional parameter to describe what position relative to // the NodeList's zero index to end the slice at. Like begin, // can be positive or negative. // item: Object...? // Any number of optional parameters may be passed in to be // spliced into the NodeList return this._wrap(a.splice.apply(this, arguments)); // dojo/NodeList }, indexOf: function(value, fromIndex){ // summary: // see dojo.indexOf(). The primary difference is that the acted-on // array is implicitly this NodeList // value: Object // The value to search for. // fromIndex: Integer? // The location to start searching from. Optional. Defaults to 0. // description: // For more details on the behavior of indexOf, see Mozilla's // [indexOf // docs](https://developer.mozilla.org/en/JavaScript/Reference/Global_Objects/Array/indexOf) // returns: // Positive Integer or 0 for a match, -1 of not found. return d.indexOf(this, value, fromIndex); // Integer }, lastIndexOf: function(value, fromIndex){ // summary: // see dojo.lastIndexOf(). The primary difference is that the // acted-on array is implicitly this NodeList // description: // For more details on the behavior of lastIndexOf, see // Mozilla's [lastIndexOf // docs](https://developer.mozilla.org/en/JavaScript/Reference/Global_Objects/Array/lastIndexOf) // value: Object // The value to search for. // fromIndex: Integer? // The location to start searching from. Optional. Defaults to 0. // returns: // Positive Integer or 0 for a match, -1 of not found. return d.lastIndexOf(this, value, fromIndex); // Integer }, every: function(callback, thisObject){ // summary: // see `dojo.every()` and the [Array.every // docs](https://developer.mozilla.org/en/JavaScript/Reference/Global_Objects/Array/every). // Takes the same structure of arguments and returns as // dojo.every() with the caveat that the passed array is // implicitly this NodeList // callback: Function // the callback // thisObject: Object? // the context return d.every(this, callback, thisObject); // Boolean }, some: function(callback, thisObject){ // summary: // Takes the same structure of arguments and returns as // `dojo.some()` with the caveat that the passed array is // implicitly this NodeList. See `dojo.some()` and Mozilla's // [Array.some // documentation](https://developer.mozilla.org/en/JavaScript/Reference/Global_Objects/Array/some). // callback: Function // the callback // thisObject: Object? // the context return d.some(this, callback, thisObject); // Boolean }, =====*/ concat: function(item){ // summary: // Returns a new NodeList comprised of items in this NodeList // as well as items passed in as parameters // description: // This method behaves exactly like the Array.concat method // with the caveat that it returns a `NodeList` and not a // raw Array. For more details, see the [Array.concat // docs](https://developer.mozilla.org/en/JavaScript/Reference/Global_Objects/Array/concat) // item: Object? // Any number of optional parameters may be passed in to be // spliced into the NodeList //return this._wrap(apc.apply(this, arguments)); // the line above won't work for the native NodeList, or for Dojo NodeLists either :-( // implementation notes: // Array.concat() doesn't recognize native NodeLists or Dojo NodeLists // as arrays, and so does not inline them into a unioned array, but // appends them as single entities. Both the original NodeList and the // items passed in as parameters must be converted to raw Arrays // and then the concatenation result may be re-_wrap()ed as a Dojo NodeList. var t = aps.call(this, 0), m = array.map(arguments, function(a){ return aps.call(a, 0); }); return this._wrap(apc.apply(t, m), this); // dojo/NodeList }, map: function(/*Function*/ func, /*Function?*/ obj){ // summary: // see dojo.map(). The primary difference is that the acted-on // array is implicitly this NodeList and the return is a // NodeList (a subclass of Array) return this._wrap(array.map(this, func, obj), this); // dojo/NodeList }, forEach: function(callback, thisObj){ // summary: // see `dojo.forEach()`. The primary difference is that the acted-on // array is implicitly this NodeList. If you want the option to break out // of the forEach loop, use every() or some() instead. forEach(this, callback, thisObj); // non-standard return to allow easier chaining return this; // dojo/NodeList }, filter: function(/*String|Function*/ filter){ // summary: // "masks" the built-in javascript filter() method (supported // in Dojo via `dojo.filter`) to support passing a simple // string filter in addition to supporting filtering function // objects. // filter: // If a string, a CSS rule like ".thinger" or "div > span". // example: // "regular" JS filter syntax as exposed in dojo.filter: // | dojo.query("*").filter(function(item){ // | // highlight every paragraph // | return (item.nodeName == "p"); // | }).style("backgroundColor", "yellow"); // example: // the same filtering using a CSS selector // | dojo.query("*").filter("p").styles("backgroundColor", "yellow"); var a = arguments, items = this, start = 0; if(typeof filter == "string"){ // inline'd type check items = query._filterResult(this, a[0]); if(a.length == 1){ // if we only got a string query, pass back the filtered results return items._stash(this); // dojo/NodeList } // if we got a callback, run it over the filtered items start = 1; } return this._wrap(array.filter(items, a[start], a[start + 1]), this); // dojo/NodeList }, instantiate: function(/*String|Object*/ declaredClass, /*Object?*/ properties){ // summary: // Create a new instance of a specified class, using the // specified properties and each node in the NodeList as a // srcNodeRef. // example: // Grabs all buttons in the page and converts them to dijit/form/Button's. // | var buttons = query("button").instantiate(Button, {showLabel: true}); var c = lang.isFunction(declaredClass) ? declaredClass : lang.getObject(declaredClass); properties = properties || {}; return this.forEach(function(node){ new c(properties, node); }); // dojo/NodeList }, at: function(/*===== index =====*/){ // summary: // Returns a new NodeList comprised of items in this NodeList // at the given index or indices. // // index: Integer... // One or more 0-based indices of items in the current // NodeList. A negative index will start at the end of the // list and go backwards. // // example: // Shorten the list to the first, second, and third elements // | query("a").at(0, 1, 2).forEach(fn); // // example: // Retrieve the first and last elements of a unordered list: // | query("ul > li").at(0, -1).forEach(cb); // // example: // Do something for the first element only, but end() out back to // the original list and continue chaining: // | query("a").at(0).onclick(fn).end().forEach(function(n){ // | console.log(n); // all anchors on the page. // | }) var t = new this._NodeListCtor(0); forEach(arguments, function(i){ if(i < 0){ i = this.length + i; } if(this[i]){ t.push(this[i]); } }, this); return t._stash(this); // dojo/NodeList } }); function queryForEngine(engine, NodeList){ var query = function(/*String*/ query, /*String|DOMNode?*/ root){ // summary: // Returns nodes which match the given CSS selector, searching the // entire document by default but optionally taking a node to scope // the search by. Returns an instance of NodeList. if(typeof root == "string"){ root = dom.byId(root); if(!root){ return new NodeList([]); } } var results = typeof query == "string" ? engine(query, root) : query ? query.orphan ? query : [query] : []; if(results.orphan){ // already wrapped return results; } return new NodeList(results); }; query.matches = engine.match || function(node, selector, root){ // summary: // Test to see if a node matches a selector return query.filter([node], selector, root).length > 0; }; // the engine provides a filtering function, use it to for matching query.filter = engine.filter || function(nodes, selector, root){ // summary: // Filters an array of nodes. Note that this does not guarantee to return a NodeList, just an array. return query(selector, root).filter(function(node){ return array.indexOf(nodes, node) > -1; }); }; if(typeof engine != "function"){ var search = engine.search; engine = function(selector, root){ // Slick does it backwards (or everyone else does it backwards, probably the latter) return search(root || document, selector); }; } return query; } var query = queryForEngine(defaultEngine, NodeList); /*===== query = function(selector, context){ // summary: // This modules provides DOM querying functionality. The module export is a function // that can be used to query for DOM nodes by CSS selector and returns a NodeList // representing the matching nodes. // selector: String // A CSS selector to search for. // context: String|DomNode? // An optional context to limit the searching scope. Only nodes under `context` will be // scanned. // example: // add an onclick handler to every submit button in the document // which causes the form to be sent via Ajax instead: // | require(["dojo/query"], function(query){ // | query("input[type='submit']").on("click", function(e){ // | dojo.stopEvent(e); // prevent sending the form // | var btn = e.target; // | dojo.xhrPost({ // | form: btn.form, // | load: function(data){ // | // replace the form with the response // | var div = dojo.doc.createElement("div"); // | dojo.place(div, btn.form, "after"); // | div.innerHTML = data; // | dojo.style(btn.form, "display", "none"); // | } // | }); // | }); // | }); // // description: // dojo/query is responsible for loading the appropriate query engine and wrapping // its results with a `NodeList`. You can use dojo/query with a specific selector engine // by using it as a plugin. For example, if you installed the sizzle package, you could // use it as the selector engine with: // | require(["dojo/query!sizzle"], function(query){ // | query("div")... // // The id after the ! can be a module id of the selector engine or one of the following values: // // - acme: This is the default engine used by Dojo base, and will ensure that the full // Acme engine is always loaded. // // - css2: If the browser has a native selector engine, this will be used, otherwise a // very minimal lightweight selector engine will be loaded that can do simple CSS2 selectors // (by #id, .class, tag, and [name=value] attributes, with standard child or descendant (>) // operators) and nothing more. // // - css2.1: If the browser has a native selector engine, this will be used, otherwise the // full Acme engine will be loaded. // // - css3: If the browser has a native selector engine with support for CSS3 pseudo // selectors (most modern browsers except IE8), this will be used, otherwise the // full Acme engine will be loaded. // // - Or the module id of a selector engine can be used to explicitly choose the selector engine // // For example, if you are using CSS3 pseudo selectors in module, you can specify that // you will need support them with: // | require(["dojo/query!css3"], function(query){ // | query('#t > h3:nth-child(odd)')... // // You can also choose the selector engine/load configuration by setting the query-selector: // For example: // | // return new NodeList(); // dojo/NodeList }; =====*/ // the query that is returned from this module is slightly different than dojo.query, // because dojo.query has to maintain backwards compatibility with returning a // true array which has performance problems. The query returned from the module // does not use true arrays, but rather inherits from Array, making it much faster to // instantiate. dojo.query = queryForEngine(defaultEngine, function(array){ // call it without the new operator to invoke the back-compat behavior that returns a true array return NodeList(array); // dojo/NodeList }); query.load = function(id, parentRequire, loaded){ // summary: // can be used as AMD plugin to conditionally load new query engine // example: // | require(["dojo/query!custom"], function(qsa){ // | // loaded selector/custom.js as engine // | qsa("#foobar").forEach(...); // | }); loader.load(id, parentRequire, function(engine){ loaded(queryForEngine(engine, NodeList)); }); }; dojo._filterQueryResult = query._filterResult = function(nodes, selector, root){ return new NodeList(query.filter(nodes, selector, root)); }; dojo.NodeList = query.NodeList = NodeList; return query; });