/*! * * jquery.fancytree.clones.js * Support faster lookup of nodes by key and shared ref-ids. * (Extension module for jquery.fancytree.js: https://github.com/mar10/fancytree/) * * Copyright (c) 2014, Martin Wendt (http://wwWendt.de) * * Released under the MIT license * https://github.com/mar10/fancytree/wiki/LicenseInfo * * @version 2.3.0 * @date 2014-08-17T10:39 */ ;(function($, window, document, undefined) { "use strict"; /******************************************************************************* * Private functions and variables */ function _assert(cond, msg){ // TODO: see qunit.js extractStacktrace() if(!cond){ msg = msg ? ": " + msg : ""; $.error("Assertion failed" + msg); } } /* Return first occurrence of member from array. */ function _removeArrayMember(arr, elem) { // TODO: use Array.indexOf for IE >= 9 var i; for (i = arr.length - 1; i >= 0; i--) { if (arr[i] === elem) { arr.splice(i, 1); return true; } } return false; } // /** // * Calculate a 32 bit FNV-1a hash // * Found here: https://gist.github.com/vaiorabbit/5657561 // * Ref.: http://isthe.com/chongo/tech/comp/fnv/ // * // * @param {string} str the input value // * @param {boolean} [asString=false] set to true to return the hash value as // * 8-digit hex string instead of an integer // * @param {integer} [seed] optionally pass the hash of the previous chunk // * @returns {integer | string} // */ // function hashFnv32a(str, asString, seed) { // /*jshint bitwise:false */ // var i, l, // hval = (seed === undefined) ? 0x811c9dc5 : seed; // for (i = 0, l = str.length; i < l; i++) { // hval ^= str.charCodeAt(i); // hval += (hval << 1) + (hval << 4) + (hval << 7) + (hval << 8) + (hval << 24); // } // if( asString ){ // // Convert to 8 digit hex string // return ("0000000" + (hval >>> 0).toString(16)).substr(-8); // } // return hval >>> 0; // } /** * JS Implementation of MurmurHash3 (r136) (as of May 20, 2011) * * @author Gary Court * @see http://github.com/garycourt/murmurhash-js * @author Austin Appleby * @see http://sites.google.com/site/murmurhash/ * * @param {string} key ASCII only * @param {boolean} [asString=false] * @param {number} seed Positive integer only * @return {number} 32-bit positive integer hash */ function hashMurmur3(key, asString, seed) { /*jshint bitwise:false */ var h1b, k1, remainder = key.length & 3, bytes = key.length - remainder, h1 = seed, c1 = 0xcc9e2d51, c2 = 0x1b873593, i = 0; while (i < bytes) { k1 = ((key.charCodeAt(i) & 0xff)) | ((key.charCodeAt(++i) & 0xff) << 8) | ((key.charCodeAt(++i) & 0xff) << 16) | ((key.charCodeAt(++i) & 0xff) << 24); ++i; k1 = ((((k1 & 0xffff) * c1) + ((((k1 >>> 16) * c1) & 0xffff) << 16))) & 0xffffffff; k1 = (k1 << 15) | (k1 >>> 17); k1 = ((((k1 & 0xffff) * c2) + ((((k1 >>> 16) * c2) & 0xffff) << 16))) & 0xffffffff; h1 ^= k1; h1 = (h1 << 13) | (h1 >>> 19); h1b = ((((h1 & 0xffff) * 5) + ((((h1 >>> 16) * 5) & 0xffff) << 16))) & 0xffffffff; h1 = (((h1b & 0xffff) + 0x6b64) + ((((h1b >>> 16) + 0xe654) & 0xffff) << 16)); } k1 = 0; switch (remainder) { /*jshint -W086:true */ case 3: k1 ^= (key.charCodeAt(i + 2) & 0xff) << 16; case 2: k1 ^= (key.charCodeAt(i + 1) & 0xff) << 8; case 1: k1 ^= (key.charCodeAt(i) & 0xff); k1 = (((k1 & 0xffff) * c1) + ((((k1 >>> 16) * c1) & 0xffff) << 16)) & 0xffffffff; k1 = (k1 << 15) | (k1 >>> 17); k1 = (((k1 & 0xffff) * c2) + ((((k1 >>> 16) * c2) & 0xffff) << 16)) & 0xffffffff; h1 ^= k1; } h1 ^= key.length; h1 ^= h1 >>> 16; h1 = (((h1 & 0xffff) * 0x85ebca6b) + ((((h1 >>> 16) * 0x85ebca6b) & 0xffff) << 16)) & 0xffffffff; h1 ^= h1 >>> 13; h1 = ((((h1 & 0xffff) * 0xc2b2ae35) + ((((h1 >>> 16) * 0xc2b2ae35) & 0xffff) << 16))) & 0xffffffff; h1 ^= h1 >>> 16; if( asString ){ // Convert to 8 digit hex string return ("0000000" + (h1 >>> 0).toString(16)).substr(-8); } return h1 >>> 0; } // console.info(hashMurmur3("costarring")); // console.info(hashMurmur3("costarring", true)); // console.info(hashMurmur3("liquid")); // console.info(hashMurmur3("liquid", true)); /* * Return a unique key for node by calculationg the hash of the parents refKey-list */ function calcUniqueKey(node) { var key, path = $.map(node.getParentList(false, true), function(e){ return e.refKey || e.key; }); path = path.join("/"); key = "id_" + hashMurmur3(path, true); node.debug(path + " -> " + key); return key; } /** * [ext-clones] Return a list of clone-nodes or null. * @param {boolean} [includeSelf=false] * @returns {FancytreeNode[] | null} * * @alias FancytreeNode#getCloneList * @requires jquery.fancytree.clones.js */ $.ui.fancytree._FancytreeNodeClass.prototype.getCloneList = function(includeSelf){ var key, tree = this.tree, refList = tree.refMap[this.refKey] || null, keyMap = tree.keyMap; if( refList ) { key = this.key; // Convert key list to node list if( includeSelf ) { refList = $.map(refList, function(val){ return keyMap[val]; }); } else { refList = $.map(refList, function(val){ return val === key ? null : keyMap[val]; }); if( refList.length < 1 ) { refList = null; } } } return refList; }; /** * [ext-clones] Return true if this node has at least another clone with same refKey. * @returns {boolean} * * @alias FancytreeNode#isClone * @requires jquery.fancytree.clones.js */ $.ui.fancytree._FancytreeNodeClass.prototype.isClone = function(){ var refKey = this.refKey || null, refList = refKey && this.tree.refMap[refKey] || null; return !!(refList && refList.length > 1); }; /** * [ext-clones] Update key and/or refKey for an existing node. * @param {string} key * @param {string} refKey * @returns {boolean} * * @alias FancytreeNode#reRegister * @requires jquery.fancytree.clones.js */ $.ui.fancytree._FancytreeNodeClass.prototype.reRegister = function(key, refKey){ key = (key == null) ? null : "" + key; refKey = (refKey == null) ? null : "" + refKey; this.debug("reRegister", key, refKey); var tree = this.tree, prevKey = this.key, prevRefKey = this.refKey, keyMap = tree.keyMap, refMap = tree.refMap, refList = refMap[prevRefKey] || null, // curCloneKeys = refList ? node.getCloneList(true), modified = false; // Key has changed: update all references if( key != null && key !== this.key ) { if( keyMap[key] ) { $.error("[ext-clones] reRegister(" + key + "): already exists."); } // Update keyMap delete keyMap[prevKey]; keyMap[key] = this; // Update refMap if( refList ) { refMap[prevRefKey] = $.map(refList, function(e){ return e === prevKey ? key : e; }); } this.key = key; modified = true; } // refKey has changed if( refKey != null && refKey !== this.refKey ) { // Remove previous refKeys if( refList ){ if( refList.length === 1 ){ delete refMap[prevRefKey]; }else{ refMap[prevRefKey] = $.map(refList, function(e){ return e === prevKey ? null : e; }); } } // Add refKey if( refMap[refKey] ) { refMap[refKey].append(key); }else{ refMap[refKey] = [ this.key ]; } this.refKey = refKey; modified = true; } return modified; }; /** * [ext-clones] Return all nodes with a given refKey (null if not found). * @param {string} refKey * @param {FancytreeNode} [rootNode] optionally restrict results to descendants of this node * @returns {FancytreeNode[] | null} * @alias Fancytree#getNodesByRef * @requires jquery.fancytree.clones.js */ $.ui.fancytree._FancytreeClass.prototype.getNodesByRef = function(refKey, rootNode){ var keyMap = this.keyMap, refList = this.refMap[refKey] || null; if( refList ) { // Convert key list to node list if( rootNode ) { refList = $.map(refList, function(val){ var node = keyMap[val]; return node.isDescendantOf(rootNode) ? node : null; }); }else{ refList = $.map(refList, function(val){ return keyMap[val]; }); } if( refList.length < 1 ) { refList = null; } } return refList; }; /** * [ext-clones] Replace a refKey with a new one. * @param {string} oldRefKey * @param {string} newRefKey * @alias Fancytree#changeRefKey * @requires jquery.fancytree.clones.js */ $.ui.fancytree._FancytreeClass.prototype.changeRefKey = function(oldRefKey, newRefKey) { var i, node, keyMap = this.keyMap, refList = this.refMap[oldRefKey] || null; if (refList) { for (i = 0; i < refList.length; i++) { node = keyMap[refList[i]]; node.refKey = newRefKey; } delete this.refMap[oldRefKey]; this.refMap[newRefKey] = refList; } }; /******************************************************************************* * Extension code */ $.ui.fancytree.registerExtension({ name: "clones", version: "0.0.3", // Default options for this extension. options: { highlightActiveClones: true, // set 'fancytree-active-clone' on active clones and all peers highlightClones: false // set 'fancytree-clone' class on any node that has at least one clone }, treeCreate: function(ctx){ this._super(ctx); ctx.tree.refMap = {}; ctx.tree.keyMap = {}; }, treeInit: function(ctx){ this.$container.addClass("fancytree-ext-clones"); _assert(ctx.options.defaultKey == null); // Generate unique / reproducible default keys ctx.options.defaultKey = function(node){ return calcUniqueKey(node); }; // The default implementation loads initial data this._super(ctx); }, treeClear: function(ctx){ ctx.tree.refMap = {}; ctx.tree.keyMap = {}; return this._super(ctx); }, treeRegisterNode: function(ctx, add, node) { var refList, len, tree = ctx.tree, keyMap = tree.keyMap, refMap = tree.refMap, key = node.key, refKey = (node && node.refKey != null) ? "" + node.refKey : null; // ctx.tree.debug("clones.treeRegisterNode", add, node); if( key === "_statusNode" ){ return this._super(ctx, add, node); } if( add ) { if( keyMap[node.key] != null ) { $.error("clones.treeRegisterNode: node.key already exists: " + node.key); } keyMap[key] = node; if( refKey ) { refList = refMap[refKey]; if( refList ) { refList.push(key); if( refList.length === 2 && ctx.options.clones.highlightClones ) { // Mark peer node, if it just became a clone (no need to // mark current node, since it will be rendered later anyway) keyMap[refList[0]].renderStatus(); } } else { refMap[refKey] = [key]; } node.debug("clones.treeRegisterNode: add clone =>", refMap[refKey]); } }else { if( keyMap[key] == null ) { $.error("clones.treeRegisterNode: node.key not registered: " + node.key); } delete keyMap[key]; if( refKey ) { refList = refMap[refKey]; node.debug("clones.treeRegisterNode: remove clone BEFORE =>", refMap[refKey]); if( refList ) { len = refList.length; if( len <= 1 ){ _assert(len === 1); _assert(refList[0] === key); delete refMap[refKey]; }else{ _removeArrayMember(refList, key); // Unmark peer node, if this was the only clone if( len === 2 && ctx.options.clones.highlightClones ) { // node.debug("clones.treeRegisterNode: last =>", node.getCloneList()); keyMap[refList[0]].renderStatus(); } } node.debug("clones.treeRegisterNode: remove clone =>", refMap[refKey]); } } } return this._super(ctx, add, node); }, nodeRenderStatus: function(ctx) { var $span, res, node = ctx.node; res = this._super(ctx); if( ctx.options.clones.highlightClones ) { $span = $(node[ctx.tree.statusClassPropName]); // Only if span already exists if( $span.length && node.isClone() ){ // node.debug("clones.nodeRenderStatus: ", ctx.options.clones.highlightClones); $span.addClass("fancytree-clone"); } } return res; }, nodeSetActive: function(ctx, flag) { var res, scpn = ctx.tree.statusClassPropName, node = ctx.node; res = this._super(ctx, flag); if( ctx.options.clones.highlightActiveClones && node.isClone() ) { $.each(node.getCloneList(true), function(idx, n){ n.debug("clones.nodeSetActive: ", flag !== false); $(n[scpn]).toggleClass("fancytree-active-clone", flag !== false); }); } return res; } }); }(jQuery, window, document));