/*!
 * Ext JS Library 3.3.1
 * Copyright(c) 2006-2010 Sencha Inc.
 * [email protected]
 * http://www.sencha.com/license
 */
/** * @class Ext.DomHelper *

The DomHelper class provides a layer of abstraction from DOM and transparently supports creating * elements via DOM or using HTML fragments. It also has the ability to create HTML fragment templates * from your DOM building code.

* *

DomHelper element specification object

*

A specification object is used when creating elements. Attributes of this object * are assumed to be element attributes, except for 4 special attributes: *

* *

Insertion methods

*

Commonly used insertion methods: *

* *

Example

*

This is an example, where an unordered list with 3 children items is appended to an existing * element with id 'my-div':


var dh = Ext.DomHelper; // create shorthand alias
// specification object
var spec = {
    id: 'my-ul',
    tag: 'ul',
    cls: 'my-list',
    // append children after creating
    children: [     // may also specify 'cn' instead of 'children'
        {tag: 'li', id: 'item0', html: 'List Item 0'},
        {tag: 'li', id: 'item1', html: 'List Item 1'},
        {tag: 'li', id: 'item2', html: 'List Item 2'}
    ]
};
var list = dh.append(
    'my-div', // the context element 'my-div' can either be the id or the actual node
    spec      // the specification object
);
 

*

Element creation specification parameters in this class may also be passed as an Array of * specification objects. This can be used to insert multiple sibling nodes into an existing * container very efficiently. For example, to add more list items to the example above:


dh.append('my-ul', [
    {tag: 'li', id: 'item3', html: 'List Item 3'},
    {tag: 'li', id: 'item4', html: 'List Item 4'}
]);
 * 

* *

Templating

*

The real power is in the built-in templating. Instead of creating or appending any elements, * {@link #createTemplate} returns a Template object which can be used over and over to * insert new elements. Revisiting the example above, we could utilize templating this time: *


// create the node
var list = dh.append('my-div', {tag: 'ul', cls: 'my-list'});
// get template
var tpl = dh.createTemplate({tag: 'li', id: 'item{0}', html: 'List Item {0}'});

for(var i = 0; i < 5, i++){
    tpl.append(list, [i]); // use template to append to the actual node
}
 * 

*

An example using a template:


var html = '{2}';

var tpl = new Ext.DomHelper.createTemplate(html);
tpl.append('blog-roll', ['link1', 'http://www.jackslocum.com/', "Jack's Site"]);
tpl.append('blog-roll', ['link2', 'http://www.dustindiaz.com/', "Dustin's Site"]);
 * 

* *

The same example using named parameters:


var html = '{text}';

var tpl = new Ext.DomHelper.createTemplate(html);
tpl.append('blog-roll', {
    id: 'link1',
    url: 'http://www.jackslocum.com/',
    text: "Jack's Site"
});
tpl.append('blog-roll', {
    id: 'link2',
    url: 'http://www.dustindiaz.com/',
    text: "Dustin's Site"
});
 * 

* *

Compiling Templates

*

Templates are applied using regular expressions. The performance is great, but if * you are adding a bunch of DOM elements using the same template, you can increase * performance even further by {@link Ext.Template#compile "compiling"} the template. * The way "{@link Ext.Template#compile compile()}" works is the template is parsed and * broken up at the different variable points and a dynamic function is created and eval'ed. * The generated function performs string concatenation of these parts and the passed * variables instead of using regular expressions. *


var html = '{text}';

var tpl = new Ext.DomHelper.createTemplate(html);
tpl.compile();

//... use template like normal
 * 

* *

Performance Boost

*

DomHelper will transparently create HTML fragments when it can. Using HTML fragments instead * of DOM can significantly boost performance.

*

Element creation specification parameters may also be strings. If {@link #useDom} is false, * then the string is used as innerHTML. If {@link #useDom} is true, a string specification * results in the creation of a text node. Usage:

*

Ext.DomHelper.useDom = true; // force it to use DOM; reduces performance
 * 
* @singleton */ Ext.DomHelper = function(){ var tempTableEl = null, emptyTags = /^(?:br|frame|hr|img|input|link|meta|range|spacer|wbr|area|param|col)$/i, tableRe = /^table|tbody|tr|td$/i, confRe = /tag|children|cn|html$/i, tableElRe = /td|tr|tbody/i, cssRe = /([a-z0-9-]+)\s*:\s*([^;\s]+(?:\s*[^;\s]+)*);?/gi, endRe = /end/i, pub, // kill repeat to save bytes afterbegin = 'afterbegin', afterend = 'afterend', beforebegin = 'beforebegin', beforeend = 'beforeend', ts = '', te = '
', tbs = ts+'', tbe = ''+te, trs = tbs + '', tre = ''+tbe; // private function doInsert(el, o, returnElement, pos, sibling, append){ var newNode = pub.insertHtml(pos, Ext.getDom(el), createHtml(o)); return returnElement ? Ext.get(newNode, true) : newNode; } // build as innerHTML where available function createHtml(o){ var b = '', attr, val, key, cn; if(typeof o == "string"){ b = o; } else if (Ext.isArray(o)) { for (var i=0; i < o.length; i++) { if(o[i]) { b += createHtml(o[i]); } }; } else { b += '<' + (o.tag = o.tag || 'div'); for (attr in o) { val = o[attr]; if(!confRe.test(attr)){ if (typeof val == "object") { b += ' ' + attr + '="'; for (key in val) { b += key + ':' + val[key] + ';'; }; b += '"'; }else{ b += ' ' + ({cls : 'class', htmlFor : 'for'}[attr] || attr) + '="' + val + '"'; } } }; // Now either just close the tag or try to add children and close the tag. if (emptyTags.test(o.tag)) { b += '/>'; } else { b += '>'; if ((cn = o.children || o.cn)) { b += createHtml(cn); } else if(o.html){ b += o.html; } b += ''; } } return b; } function ieTable(depth, s, h, e){ tempTableEl.innerHTML = [s, h, e].join(''); var i = -1, el = tempTableEl, ns; while(++i < depth){ el = el.firstChild; } // If the result is multiple siblings, then encapsulate them into one fragment. if(ns = el.nextSibling){ var df = document.createDocumentFragment(); while(el){ ns = el.nextSibling; df.appendChild(el); el = ns; } el = df; } return el; } /** * @ignore * Nasty code for IE's broken table implementation */ function insertIntoTable(tag, where, el, html) { var node, before; tempTableEl = tempTableEl || document.createElement('div'); if(tag == 'td' && (where == afterbegin || where == beforeend) || !tableElRe.test(tag) && (where == beforebegin || where == afterend)) { return; } before = where == beforebegin ? el : where == afterend ? el.nextSibling : where == afterbegin ? el.firstChild : null; if (where == beforebegin || where == afterend) { el = el.parentNode; } if (tag == 'td' || (tag == 'tr' && (where == beforeend || where == afterbegin))) { node = ieTable(4, trs, html, tre); } else if ((tag == 'tbody' && (where == beforeend || where == afterbegin)) || (tag == 'tr' && (where == beforebegin || where == afterend))) { node = ieTable(3, tbs, html, tbe); } else { node = ieTable(2, ts, html, te); } el.insertBefore(node, before); return node; } pub = {
/** * Returns the markup for the passed Element(s) config. * @param {Object} o The DOM object spec (and children) * @return {String} */ markup : function(o){ return createHtml(o); },
/** * Applies a style specification to an element. * @param {String/HTMLElement} el The element to apply styles to * @param {String/Object/Function} styles A style specification string e.g. 'width:100px', or object in the form {width:'100px'}, or * a function which returns such a specification. */ applyStyles : function(el, styles){ if (styles) { var matches; el = Ext.fly(el); if (typeof styles == "function") { styles = styles.call(); } if (typeof styles == "string") {
/** * Since we're using the g flag on the regex, we need to set the lastIndex. * This automatically happens on some implementations, but not others, see: * http://stackoverflow.com/questions/2645273/javascript-regular-expression-literal-persists-between-function-calls * http://blog.stevenlevithan.com/archives/fixing-javascript-regexp */ cssRe.lastIndex = 0; while ((matches = cssRe.exec(styles))) { el.setStyle(matches[1], matches[2]); } } else if (typeof styles == "object") { el.setStyle(styles); } } },
/** * Inserts an HTML fragment into the DOM. * @param {String} where Where to insert the html in relation to el - beforeBegin, afterBegin, beforeEnd, afterEnd. * @param {HTMLElement} el The context element * @param {String} html The HTML fragment * @return {HTMLElement} The new node */ insertHtml : function(where, el, html){ var hash = {}, hashVal, setStart, range, frag, rangeEl, rs; where = where.toLowerCase(); // add these here because they are used in both branches of the condition. hash[beforebegin] = ['BeforeBegin', 'previousSibling']; hash[afterend] = ['AfterEnd', 'nextSibling']; if (el.insertAdjacentHTML) { if(tableRe.test(el.tagName) && (rs = insertIntoTable(el.tagName.toLowerCase(), where, el, html))){ return rs; } // add these two to the hash. hash[afterbegin] = ['AfterBegin', 'firstChild']; hash[beforeend] = ['BeforeEnd', 'lastChild']; if ((hashVal = hash[where])) { el.insertAdjacentHTML(hashVal[0], html); return el[hashVal[1]]; } } else { range = el.ownerDocument.createRange(); setStart = 'setStart' + (endRe.test(where) ? 'After' : 'Before'); if (hash[where]) { range[setStart](el); frag = range.createContextualFragment(html); el.parentNode.insertBefore(frag, where == beforebegin ? el : el.nextSibling); return el[(where == beforebegin ? 'previous' : 'next') + 'Sibling']; } else { rangeEl = (where == afterbegin ? 'first' : 'last') + 'Child'; if (el.firstChild) { range[setStart](el[rangeEl]); frag = range.createContextualFragment(html); if(where == afterbegin){ el.insertBefore(frag, el.firstChild); }else{ el.appendChild(frag); } } else { el.innerHTML = html; } return el[rangeEl]; } } throw 'Illegal insertion point -> "' + where + '"'; },
/** * Creates new DOM element(s) and inserts them before el. * @param {Mixed} el The context element * @param {Object/String} o The DOM object spec (and children) or raw HTML blob * @param {Boolean} returnElement (optional) true to return a Ext.Element * @return {HTMLElement/Ext.Element} The new node */ insertBefore : function(el, o, returnElement){ return doInsert(el, o, returnElement, beforebegin); },
/** * Creates new DOM element(s) and inserts them after el. * @param {Mixed} el The context element * @param {Object} o The DOM object spec (and children) * @param {Boolean} returnElement (optional) true to return a Ext.Element * @return {HTMLElement/Ext.Element} The new node */ insertAfter : function(el, o, returnElement){ return doInsert(el, o, returnElement, afterend, 'nextSibling'); },
/** * Creates new DOM element(s) and inserts them as the first child of el. * @param {Mixed} el The context element * @param {Object/String} o The DOM object spec (and children) or raw HTML blob * @param {Boolean} returnElement (optional) true to return a Ext.Element * @return {HTMLElement/Ext.Element} The new node */ insertFirst : function(el, o, returnElement){ return doInsert(el, o, returnElement, afterbegin, 'firstChild'); },
/** * Creates new DOM element(s) and appends them to el. * @param {Mixed} el The context element * @param {Object/String} o The DOM object spec (and children) or raw HTML blob * @param {Boolean} returnElement (optional) true to return a Ext.Element * @return {HTMLElement/Ext.Element} The new node */ append : function(el, o, returnElement){ return doInsert(el, o, returnElement, beforeend, '', true); },
/** * Creates new DOM element(s) and overwrites the contents of el with them. * @param {Mixed} el The context element * @param {Object/String} o The DOM object spec (and children) or raw HTML blob * @param {Boolean} returnElement (optional) true to return a Ext.Element * @return {HTMLElement/Ext.Element} The new node */ overwrite : function(el, o, returnElement){ el = Ext.getDom(el); el.innerHTML = createHtml(o); return returnElement ? Ext.get(el.firstChild) : el.firstChild; }, createHtml : createHtml }; return pub; }();