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dom.js
1832 lines | 68.1 KiB | application/javascript | JavascriptLexer
/*
Copyright (c) 2009, Yahoo! Inc. All rights reserved.
Code licensed under the BSD License:
http://developer.yahoo.net/yui/license.txt
version: 2.8.0r4
*/
/**
* The dom module provides helper methods for manipulating Dom elements.
* @module dom
*
*/
(function() {
// for use with generateId (global to save state if Dom is overwritten)
YAHOO.env._id_counter = YAHOO.env._id_counter || 0;
// internal shorthand
var Y = YAHOO.util,
lang = YAHOO.lang,
UA = YAHOO.env.ua,
trim = YAHOO.lang.trim,
propertyCache = {}, // for faster hyphen converts
reCache = {}, // cache className regexes
RE_TABLE = /^t(?:able|d|h)$/i, // for _calcBorders
RE_COLOR = /color$/i,
// DOM aliases
document = window.document,
documentElement = document.documentElement,
// string constants
OWNER_DOCUMENT = 'ownerDocument',
DEFAULT_VIEW = 'defaultView',
DOCUMENT_ELEMENT = 'documentElement',
COMPAT_MODE = 'compatMode',
OFFSET_LEFT = 'offsetLeft',
OFFSET_TOP = 'offsetTop',
OFFSET_PARENT = 'offsetParent',
PARENT_NODE = 'parentNode',
NODE_TYPE = 'nodeType',
TAG_NAME = 'tagName',
SCROLL_LEFT = 'scrollLeft',
SCROLL_TOP = 'scrollTop',
GET_BOUNDING_CLIENT_RECT = 'getBoundingClientRect',
GET_COMPUTED_STYLE = 'getComputedStyle',
CURRENT_STYLE = 'currentStyle',
CSS1_COMPAT = 'CSS1Compat',
_BACK_COMPAT = 'BackCompat',
_CLASS = 'class', // underscore due to reserved word
CLASS_NAME = 'className',
EMPTY = '',
SPACE = ' ',
C_START = '(?:^|\\s)',
C_END = '(?= |$)',
G = 'g',
POSITION = 'position',
FIXED = 'fixed',
RELATIVE = 'relative',
LEFT = 'left',
TOP = 'top',
MEDIUM = 'medium',
BORDER_LEFT_WIDTH = 'borderLeftWidth',
BORDER_TOP_WIDTH = 'borderTopWidth',
// brower detection
isOpera = UA.opera,
isSafari = UA.webkit,
isGecko = UA.gecko,
isIE = UA.ie;
/**
* Provides helper methods for DOM elements.
* @namespace YAHOO.util
* @class Dom
* @requires yahoo, event
*/
Y.Dom = {
CUSTOM_ATTRIBUTES: (!documentElement.hasAttribute) ? { // IE < 8
'for': 'htmlFor',
'class': CLASS_NAME
} : { // w3c
'htmlFor': 'for',
'className': _CLASS
},
DOT_ATTRIBUTES: {},
/**
* Returns an HTMLElement reference.
* @method get
* @param {String | HTMLElement |Array} el Accepts a string to use as an ID for getting a DOM reference, an actual DOM reference, or an Array of IDs and/or HTMLElements.
* @return {HTMLElement | Array} A DOM reference to an HTML element or an array of HTMLElements.
*/
get: function(el) {
var id, nodes, c, i, len, attr;
if (el) {
if (el[NODE_TYPE] || el.item) { // Node, or NodeList
return el;
}
if (typeof el === 'string') { // id
id = el;
el = document.getElementById(el);
attr = (el) ? el.attributes : null;
if (el && attr && attr.id && attr.id.value === id) { // IE: avoid false match on "name" attribute
return el;
} else if (el && document.all) { // filter by name
el = null;
nodes = document.all[id];
for (i = 0, len = nodes.length; i < len; ++i) {
if (nodes[i].id === id) {
return nodes[i];
}
}
}
return el;
}
if (YAHOO.util.Element && el instanceof YAHOO.util.Element) {
el = el.get('element');
}
if ('length' in el) { // array-like
c = [];
for (i = 0, len = el.length; i < len; ++i) {
c[c.length] = Y.Dom.get(el[i]);
}
return c;
}
return el; // some other object, just pass it back
}
return null;
},
getComputedStyle: function(el, property) {
if (window[GET_COMPUTED_STYLE]) {
return el[OWNER_DOCUMENT][DEFAULT_VIEW][GET_COMPUTED_STYLE](el, null)[property];
} else if (el[CURRENT_STYLE]) {
return Y.Dom.IE_ComputedStyle.get(el, property);
}
},
/**
* Normalizes currentStyle and ComputedStyle.
* @method getStyle
* @param {String | HTMLElement |Array} el Accepts a string to use as an ID, an actual DOM reference, or an Array of IDs and/or HTMLElements.
* @param {String} property The style property whose value is returned.
* @return {String | Array} The current value of the style property for the element(s).
*/
getStyle: function(el, property) {
return Y.Dom.batch(el, Y.Dom._getStyle, property);
},
// branching at load instead of runtime
_getStyle: function() {
if (window[GET_COMPUTED_STYLE]) { // W3C DOM method
return function(el, property) {
property = (property === 'float') ? property = 'cssFloat' :
Y.Dom._toCamel(property);
var value = el.style[property],
computed;
if (!value) {
computed = el[OWNER_DOCUMENT][DEFAULT_VIEW][GET_COMPUTED_STYLE](el, null);
if (computed) { // test computed before touching for safari
value = computed[property];
}
}
return value;
};
} else if (documentElement[CURRENT_STYLE]) {
return function(el, property) {
var value;
switch(property) {
case 'opacity' :// IE opacity uses filter
value = 100;
try { // will error if no DXImageTransform
value = el.filters['DXImageTransform.Microsoft.Alpha'].opacity;
} catch(e) {
try { // make sure its in the document
value = el.filters('alpha').opacity;
} catch(err) {
}
}
return value / 100;
case 'float': // fix reserved word
property = 'styleFloat'; // fall through
default:
property = Y.Dom._toCamel(property);
value = el[CURRENT_STYLE] ? el[CURRENT_STYLE][property] : null;
return ( el.style[property] || value );
}
};
}
}(),
/**
* Wrapper for setting style properties of HTMLElements. Normalizes "opacity" across modern browsers.
* @method setStyle
* @param {String | HTMLElement | Array} el Accepts a string to use as an ID, an actual DOM reference, or an Array of IDs and/or HTMLElements.
* @param {String} property The style property to be set.
* @param {String} val The value to apply to the given property.
*/
setStyle: function(el, property, val) {
Y.Dom.batch(el, Y.Dom._setStyle, { prop: property, val: val });
},
_setStyle: function() {
if (isIE) {
return function(el, args) {
var property = Y.Dom._toCamel(args.prop),
val = args.val;
if (el) {
switch (property) {
case 'opacity':
if ( lang.isString(el.style.filter) ) { // in case not appended
el.style.filter = 'alpha(opacity=' + val * 100 + ')';
if (!el[CURRENT_STYLE] || !el[CURRENT_STYLE].hasLayout) {
el.style.zoom = 1; // when no layout or cant tell
}
}
break;
case 'float':
property = 'styleFloat';
default:
el.style[property] = val;
}
} else {
}
};
} else {
return function(el, args) {
var property = Y.Dom._toCamel(args.prop),
val = args.val;
if (el) {
if (property == 'float') {
property = 'cssFloat';
}
el.style[property] = val;
} else {
}
};
}
}(),
/**
* Gets the current position of an element based on page coordinates.
* Element must be part of the DOM tree to have page coordinates (display:none or elements not appended return false).
* @method getXY
* @param {String | HTMLElement | Array} el Accepts a string to use as an ID, an actual DOM
* reference, or an Array of IDs and/or HTMLElements
* @return {Array} The XY position of the element(s)
*/
getXY: function(el) {
return Y.Dom.batch(el, Y.Dom._getXY);
},
_canPosition: function(el) {
return ( Y.Dom._getStyle(el, 'display') !== 'none' && Y.Dom._inDoc(el) );
},
_getXY: function() {
if (document[DOCUMENT_ELEMENT][GET_BOUNDING_CLIENT_RECT]) {
return function(node) {
var scrollLeft, scrollTop, box, doc,
off1, off2, mode, bLeft, bTop,
floor = Math.floor, // TODO: round?
xy = false;
if (Y.Dom._canPosition(node)) {
box = node[GET_BOUNDING_CLIENT_RECT]();
doc = node[OWNER_DOCUMENT];
scrollLeft = Y.Dom.getDocumentScrollLeft(doc);
scrollTop = Y.Dom.getDocumentScrollTop(doc);
xy = [floor(box[LEFT]), floor(box[TOP])];
if (isIE && UA.ie < 8) { // IE < 8: viewport off by 2
off1 = 2;
off2 = 2;
mode = doc[COMPAT_MODE];
if (UA.ie === 6) {
if (mode !== _BACK_COMPAT) {
off1 = 0;
off2 = 0;
}
}
if ((mode === _BACK_COMPAT)) {
bLeft = _getComputedStyle(doc[DOCUMENT_ELEMENT], BORDER_LEFT_WIDTH);
bTop = _getComputedStyle(doc[DOCUMENT_ELEMENT], BORDER_TOP_WIDTH);
if (bLeft !== MEDIUM) {
off1 = parseInt(bLeft, 10);
}
if (bTop !== MEDIUM) {
off2 = parseInt(bTop, 10);
}
}
xy[0] -= off1;
xy[1] -= off2;
}
if ((scrollTop || scrollLeft)) {
xy[0] += scrollLeft;
xy[1] += scrollTop;
}
// gecko may return sub-pixel (non-int) values
xy[0] = floor(xy[0]);
xy[1] = floor(xy[1]);
} else {
}
return xy;
};
} else {
return function(node) { // ff2, safari: manually calculate by crawling up offsetParents
var docScrollLeft, docScrollTop,
scrollTop, scrollLeft,
bCheck,
xy = false,
parentNode = node;
if (Y.Dom._canPosition(node) ) {
xy = [node[OFFSET_LEFT], node[OFFSET_TOP]];
docScrollLeft = Y.Dom.getDocumentScrollLeft(node[OWNER_DOCUMENT]);
docScrollTop = Y.Dom.getDocumentScrollTop(node[OWNER_DOCUMENT]);
// TODO: refactor with !! or just falsey
bCheck = ((isGecko || UA.webkit > 519) ? true : false);
// TODO: worth refactoring for TOP/LEFT only?
while ((parentNode = parentNode[OFFSET_PARENT])) {
xy[0] += parentNode[OFFSET_LEFT];
xy[1] += parentNode[OFFSET_TOP];
if (bCheck) {
xy = Y.Dom._calcBorders(parentNode, xy);
}
}
// account for any scrolled ancestors
if (Y.Dom._getStyle(node, POSITION) !== FIXED) {
parentNode = node;
while ((parentNode = parentNode[PARENT_NODE]) && parentNode[TAG_NAME]) {
scrollTop = parentNode[SCROLL_TOP];
scrollLeft = parentNode[SCROLL_LEFT];
//Firefox does something funky with borders when overflow is not visible.
if (isGecko && (Y.Dom._getStyle(parentNode, 'overflow') !== 'visible')) {
xy = Y.Dom._calcBorders(parentNode, xy);
}
if (scrollTop || scrollLeft) {
xy[0] -= scrollLeft;
xy[1] -= scrollTop;
}
}
xy[0] += docScrollLeft;
xy[1] += docScrollTop;
} else {
//Fix FIXED position -- add scrollbars
if (isOpera) {
xy[0] -= docScrollLeft;
xy[1] -= docScrollTop;
} else if (isSafari || isGecko) {
xy[0] += docScrollLeft;
xy[1] += docScrollTop;
}
}
//Round the numbers so we get sane data back
xy[0] = Math.floor(xy[0]);
xy[1] = Math.floor(xy[1]);
} else {
}
return xy;
};
}
}(), // NOTE: Executing for loadtime branching
/**
* Gets the current X position of an element based on page coordinates. The element must be part of the DOM tree to have page coordinates (display:none or elements not appended return false).
* @method getX
* @param {String | HTMLElement | Array} el Accepts a string to use as an ID, an actual DOM reference, or an Array of IDs and/or HTMLElements
* @return {Number | Array} The X position of the element(s)
*/
getX: function(el) {
var f = function(el) {
return Y.Dom.getXY(el)[0];
};
return Y.Dom.batch(el, f, Y.Dom, true);
},
/**
* Gets the current Y position of an element based on page coordinates. Element must be part of the DOM tree to have page coordinates (display:none or elements not appended return false).
* @method getY
* @param {String | HTMLElement | Array} el Accepts a string to use as an ID, an actual DOM reference, or an Array of IDs and/or HTMLElements
* @return {Number | Array} The Y position of the element(s)
*/
getY: function(el) {
var f = function(el) {
return Y.Dom.getXY(el)[1];
};
return Y.Dom.batch(el, f, Y.Dom, true);
},
/**
* Set the position of an html element in page coordinates, regardless of how the element is positioned.
* The element(s) must be part of the DOM tree to have page coordinates (display:none or elements not appended return false).
* @method setXY
* @param {String | HTMLElement | Array} el Accepts a string to use as an ID, an actual DOM reference, or an Array of IDs and/or HTMLElements
* @param {Array} pos Contains X & Y values for new position (coordinates are page-based)
* @param {Boolean} noRetry By default we try and set the position a second time if the first fails
*/
setXY: function(el, pos, noRetry) {
Y.Dom.batch(el, Y.Dom._setXY, { pos: pos, noRetry: noRetry });
},
_setXY: function(node, args) {
var pos = Y.Dom._getStyle(node, POSITION),
setStyle = Y.Dom.setStyle,
xy = args.pos,
noRetry = args.noRetry,
delta = [ // assuming pixels; if not we will have to retry
parseInt( Y.Dom.getComputedStyle(node, LEFT), 10 ),
parseInt( Y.Dom.getComputedStyle(node, TOP), 10 )
],
currentXY,
newXY;
if (pos == 'static') { // default to relative
pos = RELATIVE;
setStyle(node, POSITION, pos);
}
currentXY = Y.Dom._getXY(node);
if (!xy || currentXY === false) { // has to be part of doc to have xy
return false;
}
if ( isNaN(delta[0]) ) {// in case of 'auto'
delta[0] = (pos == RELATIVE) ? 0 : node[OFFSET_LEFT];
}
if ( isNaN(delta[1]) ) { // in case of 'auto'
delta[1] = (pos == RELATIVE) ? 0 : node[OFFSET_TOP];
}
if (xy[0] !== null) { // from setX
setStyle(node, LEFT, xy[0] - currentXY[0] + delta[0] + 'px');
}
if (xy[1] !== null) { // from setY
setStyle(node, TOP, xy[1] - currentXY[1] + delta[1] + 'px');
}
if (!noRetry) {
newXY = Y.Dom._getXY(node);
// if retry is true, try one more time if we miss
if ( (xy[0] !== null && newXY[0] != xy[0]) ||
(xy[1] !== null && newXY[1] != xy[1]) ) {
Y.Dom._setXY(node, { pos: xy, noRetry: true });
}
}
},
/**
* Set the X position of an html element in page coordinates, regardless of how the element is positioned.
* The element must be part of the DOM tree to have page coordinates (display:none or elements not appended return false).
* @method setX
* @param {String | HTMLElement | Array} el Accepts a string to use as an ID, an actual DOM reference, or an Array of IDs and/or HTMLElements.
* @param {Int} x The value to use as the X coordinate for the element(s).
*/
setX: function(el, x) {
Y.Dom.setXY(el, [x, null]);
},
/**
* Set the Y position of an html element in page coordinates, regardless of how the element is positioned.
* The element must be part of the DOM tree to have page coordinates (display:none or elements not appended return false).
* @method setY
* @param {String | HTMLElement | Array} el Accepts a string to use as an ID, an actual DOM reference, or an Array of IDs and/or HTMLElements.
* @param {Int} x To use as the Y coordinate for the element(s).
*/
setY: function(el, y) {
Y.Dom.setXY(el, [null, y]);
},
/**
* Returns the region position of the given element.
* The element must be part of the DOM tree to have a region (display:none or elements not appended return false).
* @method getRegion
* @param {String | HTMLElement | Array} el Accepts a string to use as an ID, an actual DOM reference, or an Array of IDs and/or HTMLElements.
* @return {Region | Array} A Region or array of Region instances containing "top, left, bottom, right" member data.
*/
getRegion: function(el) {
var f = function(el) {
var region = false;
if ( Y.Dom._canPosition(el) ) {
region = Y.Region.getRegion(el);
} else {
}
return region;
};
return Y.Dom.batch(el, f, Y.Dom, true);
},
/**
* Returns the width of the client (viewport).
* @method getClientWidth
* @deprecated Now using getViewportWidth. This interface left intact for back compat.
* @return {Int} The width of the viewable area of the page.
*/
getClientWidth: function() {
return Y.Dom.getViewportWidth();
},
/**
* Returns the height of the client (viewport).
* @method getClientHeight
* @deprecated Now using getViewportHeight. This interface left intact for back compat.
* @return {Int} The height of the viewable area of the page.
*/
getClientHeight: function() {
return Y.Dom.getViewportHeight();
},
/**
* Returns an array of HTMLElements with the given class.
* For optimized performance, include a tag and/or root node when possible.
* Note: This method operates against a live collection, so modifying the
* collection in the callback (removing/appending nodes, etc.) will have
* side effects. Instead you should iterate the returned nodes array,
* as you would with the native "getElementsByTagName" method.
* @method getElementsByClassName
* @param {String} className The class name to match against
* @param {String} tag (optional) The tag name of the elements being collected
* @param {String | HTMLElement} root (optional) The HTMLElement or an ID to use as the starting point.
* This element is not included in the className scan.
* @param {Function} apply (optional) A function to apply to each element when found
* @param {Any} o (optional) An optional arg that is passed to the supplied method
* @param {Boolean} overrides (optional) Whether or not to override the scope of "method" with "o"
* @return {Array} An array of elements that have the given class name
*/
getElementsByClassName: function(className, tag, root, apply, o, overrides) {
tag = tag || '*';
root = (root) ? Y.Dom.get(root) : null || document;
if (!root) {
return [];
}
var nodes = [],
elements = root.getElementsByTagName(tag),
hasClass = Y.Dom.hasClass;
for (var i = 0, len = elements.length; i < len; ++i) {
if ( hasClass(elements[i], className) ) {
nodes[nodes.length] = elements[i];
}
}
if (apply) {
Y.Dom.batch(nodes, apply, o, overrides);
}
return nodes;
},
/**
* Determines whether an HTMLElement has the given className.
* @method hasClass
* @param {String | HTMLElement | Array} el The element or collection to test
* @param {String} className the class name to search for
* @return {Boolean | Array} A boolean value or array of boolean values
*/
hasClass: function(el, className) {
return Y.Dom.batch(el, Y.Dom._hasClass, className);
},
_hasClass: function(el, className) {
var ret = false,
current;
if (el && className) {
current = Y.Dom._getAttribute(el, CLASS_NAME) || EMPTY;
if (className.exec) {
ret = className.test(current);
} else {
ret = className && (SPACE + current + SPACE).
indexOf(SPACE + className + SPACE) > -1;
}
} else {
}
return ret;
},
/**
* Adds a class name to a given element or collection of elements.
* @method addClass
* @param {String | HTMLElement | Array} el The element or collection to add the class to
* @param {String} className the class name to add to the class attribute
* @return {Boolean | Array} A pass/fail boolean or array of booleans
*/
addClass: function(el, className) {
return Y.Dom.batch(el, Y.Dom._addClass, className);
},
_addClass: function(el, className) {
var ret = false,
current;
if (el && className) {
current = Y.Dom._getAttribute(el, CLASS_NAME) || EMPTY;
if ( !Y.Dom._hasClass(el, className) ) {
Y.Dom.setAttribute(el, CLASS_NAME, trim(current + SPACE + className));
ret = true;
}
} else {
}
return ret;
},
/**
* Removes a class name from a given element or collection of elements.
* @method removeClass
* @param {String | HTMLElement | Array} el The element or collection to remove the class from
* @param {String} className the class name to remove from the class attribute
* @return {Boolean | Array} A pass/fail boolean or array of booleans
*/
removeClass: function(el, className) {
return Y.Dom.batch(el, Y.Dom._removeClass, className);
},
_removeClass: function(el, className) {
var ret = false,
current,
newClass,
attr;
if (el && className) {
current = Y.Dom._getAttribute(el, CLASS_NAME) || EMPTY;
Y.Dom.setAttribute(el, CLASS_NAME, current.replace(Y.Dom._getClassRegex(className), EMPTY));
newClass = Y.Dom._getAttribute(el, CLASS_NAME);
if (current !== newClass) { // else nothing changed
Y.Dom.setAttribute(el, CLASS_NAME, trim(newClass)); // trim after comparing to current class
ret = true;
if (Y.Dom._getAttribute(el, CLASS_NAME) === '') { // remove class attribute if empty
attr = (el.hasAttribute && el.hasAttribute(_CLASS)) ? _CLASS : CLASS_NAME;
el.removeAttribute(attr);
}
}
} else {
}
return ret;
},
/**
* Replace a class with another class for a given element or collection of elements.
* If no oldClassName is present, the newClassName is simply added.
* @method replaceClass
* @param {String | HTMLElement | Array} el The element or collection to remove the class from
* @param {String} oldClassName the class name to be replaced
* @param {String} newClassName the class name that will be replacing the old class name
* @return {Boolean | Array} A pass/fail boolean or array of booleans
*/
replaceClass: function(el, oldClassName, newClassName) {
return Y.Dom.batch(el, Y.Dom._replaceClass, { from: oldClassName, to: newClassName });
},
_replaceClass: function(el, classObj) {
var className,
from,
to,
ret = false,
current;
if (el && classObj) {
from = classObj.from;
to = classObj.to;
if (!to) {
ret = false;
} else if (!from) { // just add if no "from"
ret = Y.Dom._addClass(el, classObj.to);
} else if (from !== to) { // else nothing to replace
// May need to lead with DBLSPACE?
current = Y.Dom._getAttribute(el, CLASS_NAME) || EMPTY;
className = (SPACE + current.replace(Y.Dom._getClassRegex(from), SPACE + to)).
split(Y.Dom._getClassRegex(to));
// insert to into what would have been the first occurrence slot
className.splice(1, 0, SPACE + to);
Y.Dom.setAttribute(el, CLASS_NAME, trim(className.join(EMPTY)));
ret = true;
}
} else {
}
return ret;
},
/**
* Returns an ID and applies it to the element "el", if provided.
* @method generateId
* @param {String | HTMLElement | Array} el (optional) An optional element array of elements to add an ID to (no ID is added if one is already present).
* @param {String} prefix (optional) an optional prefix to use (defaults to "yui-gen").
* @return {String | Array} The generated ID, or array of generated IDs (or original ID if already present on an element)
*/
generateId: function(el, prefix) {
prefix = prefix || 'yui-gen';
var f = function(el) {
if (el && el.id) { // do not override existing ID
return el.id;
}
var id = prefix + YAHOO.env._id_counter++;
if (el) {
if (el[OWNER_DOCUMENT] && el[OWNER_DOCUMENT].getElementById(id)) { // in case one already exists
// use failed id plus prefix to help ensure uniqueness
return Y.Dom.generateId(el, id + prefix);
}
el.id = id;
}
return id;
};
// batch fails when no element, so just generate and return single ID
return Y.Dom.batch(el, f, Y.Dom, true) || f.apply(Y.Dom, arguments);
},
/**
* Determines whether an HTMLElement is an ancestor of another HTML element in the DOM hierarchy.
* @method isAncestor
* @param {String | HTMLElement} haystack The possible ancestor
* @param {String | HTMLElement} needle The possible descendent
* @return {Boolean} Whether or not the haystack is an ancestor of needle
*/
isAncestor: function(haystack, needle) {
haystack = Y.Dom.get(haystack);
needle = Y.Dom.get(needle);
var ret = false;
if ( (haystack && needle) && (haystack[NODE_TYPE] && needle[NODE_TYPE]) ) {
if (haystack.contains && haystack !== needle) { // contains returns true when equal
ret = haystack.contains(needle);
}
else if (haystack.compareDocumentPosition) { // gecko
ret = !!(haystack.compareDocumentPosition(needle) & 16);
}
} else {
}
return ret;
},
/**
* Determines whether an HTMLElement is present in the current document.
* @method inDocument
* @param {String | HTMLElement} el The element to search for
* @param {Object} doc An optional document to search, defaults to element's owner document
* @return {Boolean} Whether or not the element is present in the current document
*/
inDocument: function(el, doc) {
return Y.Dom._inDoc(Y.Dom.get(el), doc);
},
_inDoc: function(el, doc) {
var ret = false;
if (el && el[TAG_NAME]) {
doc = doc || el[OWNER_DOCUMENT];
ret = Y.Dom.isAncestor(doc[DOCUMENT_ELEMENT], el);
} else {
}
return ret;
},
/**
* Returns an array of HTMLElements that pass the test applied by supplied boolean method.
* For optimized performance, include a tag and/or root node when possible.
* Note: This method operates against a live collection, so modifying the
* collection in the callback (removing/appending nodes, etc.) will have
* side effects. Instead you should iterate the returned nodes array,
* as you would with the native "getElementsByTagName" method.
* @method getElementsBy
* @param {Function} method - A boolean method for testing elements which receives the element as its only argument.
* @param {String} tag (optional) The tag name of the elements being collected
* @param {String | HTMLElement} root (optional) The HTMLElement or an ID to use as the starting point
* @param {Function} apply (optional) A function to apply to each element when found
* @param {Any} o (optional) An optional arg that is passed to the supplied method
* @param {Boolean} overrides (optional) Whether or not to override the scope of "method" with "o"
* @return {Array} Array of HTMLElements
*/
getElementsBy: function(method, tag, root, apply, o, overrides, firstOnly) {
tag = tag || '*';
root = (root) ? Y.Dom.get(root) : null || document;
if (!root) {
return [];
}
var nodes = [],
elements = root.getElementsByTagName(tag);
for (var i = 0, len = elements.length; i < len; ++i) {
if ( method(elements[i]) ) {
if (firstOnly) {
nodes = elements[i];
break;
} else {
nodes[nodes.length] = elements[i];
}
}
}
if (apply) {
Y.Dom.batch(nodes, apply, o, overrides);
}
return nodes;
},
/**
* Returns the first HTMLElement that passes the test applied by the supplied boolean method.
* @method getElementBy
* @param {Function} method - A boolean method for testing elements which receives the element as its only argument.
* @param {String} tag (optional) The tag name of the elements being collected
* @param {String | HTMLElement} root (optional) The HTMLElement or an ID to use as the starting point
* @return {HTMLElement}
*/
getElementBy: function(method, tag, root) {
return Y.Dom.getElementsBy(method, tag, root, null, null, null, true);
},
/**
* Runs the supplied method against each item in the Collection/Array.
* The method is called with the element(s) as the first arg, and the optional param as the second ( method(el, o) ).
* @method batch
* @param {String | HTMLElement | Array} el (optional) An element or array of elements to apply the method to
* @param {Function} method The method to apply to the element(s)
* @param {Any} o (optional) An optional arg that is passed to the supplied method
* @param {Boolean} overrides (optional) Whether or not to override the scope of "method" with "o"
* @return {Any | Array} The return value(s) from the supplied method
*/
batch: function(el, method, o, overrides) {
var collection = [],
scope = (overrides) ? o : window;
el = (el && (el[TAG_NAME] || el.item)) ? el : Y.Dom.get(el); // skip get() when possible
if (el && method) {
if (el[TAG_NAME] || el.length === undefined) { // element or not array-like
return method.call(scope, el, o);
}
for (var i = 0; i < el.length; ++i) {
collection[collection.length] = method.call(scope, el[i], o);
}
} else {
return false;
}
return collection;
},
/**
* Returns the height of the document.
* @method getDocumentHeight
* @return {Int} The height of the actual document (which includes the body and its margin).
*/
getDocumentHeight: function() {
var scrollHeight = (document[COMPAT_MODE] != CSS1_COMPAT || isSafari) ? document.body.scrollHeight : documentElement.scrollHeight,
h = Math.max(scrollHeight, Y.Dom.getViewportHeight());
return h;
},
/**
* Returns the width of the document.
* @method getDocumentWidth
* @return {Int} The width of the actual document (which includes the body and its margin).
*/
getDocumentWidth: function() {
var scrollWidth = (document[COMPAT_MODE] != CSS1_COMPAT || isSafari) ? document.body.scrollWidth : documentElement.scrollWidth,
w = Math.max(scrollWidth, Y.Dom.getViewportWidth());
return w;
},
/**
* Returns the current height of the viewport.
* @method getViewportHeight
* @return {Int} The height of the viewable area of the page (excludes scrollbars).
*/
getViewportHeight: function() {
var height = self.innerHeight, // Safari, Opera
mode = document[COMPAT_MODE];
if ( (mode || isIE) && !isOpera ) { // IE, Gecko
height = (mode == CSS1_COMPAT) ?
documentElement.clientHeight : // Standards
document.body.clientHeight; // Quirks
}
return height;
},
/**
* Returns the current width of the viewport.
* @method getViewportWidth
* @return {Int} The width of the viewable area of the page (excludes scrollbars).
*/
getViewportWidth: function() {
var width = self.innerWidth, // Safari
mode = document[COMPAT_MODE];
if (mode || isIE) { // IE, Gecko, Opera
width = (mode == CSS1_COMPAT) ?
documentElement.clientWidth : // Standards
document.body.clientWidth; // Quirks
}
return width;
},
/**
* Returns the nearest ancestor that passes the test applied by supplied boolean method.
* For performance reasons, IDs are not accepted and argument validation omitted.
* @method getAncestorBy
* @param {HTMLElement} node The HTMLElement to use as the starting point
* @param {Function} method - A boolean method for testing elements which receives the element as its only argument.
* @return {Object} HTMLElement or null if not found
*/
getAncestorBy: function(node, method) {
while ( (node = node[PARENT_NODE]) ) { // NOTE: assignment
if ( Y.Dom._testElement(node, method) ) {
return node;
}
}
return null;
},
/**
* Returns the nearest ancestor with the given className.
* @method getAncestorByClassName
* @param {String | HTMLElement} node The HTMLElement or an ID to use as the starting point
* @param {String} className
* @return {Object} HTMLElement
*/
getAncestorByClassName: function(node, className) {
node = Y.Dom.get(node);
if (!node) {
return null;
}
var method = function(el) { return Y.Dom.hasClass(el, className); };
return Y.Dom.getAncestorBy(node, method);
},
/**
* Returns the nearest ancestor with the given tagName.
* @method getAncestorByTagName
* @param {String | HTMLElement} node The HTMLElement or an ID to use as the starting point
* @param {String} tagName
* @return {Object} HTMLElement
*/
getAncestorByTagName: function(node, tagName) {
node = Y.Dom.get(node);
if (!node) {
return null;
}
var method = function(el) {
return el[TAG_NAME] && el[TAG_NAME].toUpperCase() == tagName.toUpperCase();
};
return Y.Dom.getAncestorBy(node, method);
},
/**
* Returns the previous sibling that is an HTMLElement.
* For performance reasons, IDs are not accepted and argument validation omitted.
* Returns the nearest HTMLElement sibling if no method provided.
* @method getPreviousSiblingBy
* @param {HTMLElement} node The HTMLElement to use as the starting point
* @param {Function} method A boolean function used to test siblings
* that receives the sibling node being tested as its only argument
* @return {Object} HTMLElement or null if not found
*/
getPreviousSiblingBy: function(node, method) {
while (node) {
node = node.previousSibling;
if ( Y.Dom._testElement(node, method) ) {
return node;
}
}
return null;
},
/**
* Returns the previous sibling that is an HTMLElement
* @method getPreviousSibling
* @param {String | HTMLElement} node The HTMLElement or an ID to use as the starting point
* @return {Object} HTMLElement or null if not found
*/
getPreviousSibling: function(node) {
node = Y.Dom.get(node);
if (!node) {
return null;
}
return Y.Dom.getPreviousSiblingBy(node);
},
/**
* Returns the next HTMLElement sibling that passes the boolean method.
* For performance reasons, IDs are not accepted and argument validation omitted.
* Returns the nearest HTMLElement sibling if no method provided.
* @method getNextSiblingBy
* @param {HTMLElement} node The HTMLElement to use as the starting point
* @param {Function} method A boolean function used to test siblings
* that receives the sibling node being tested as its only argument
* @return {Object} HTMLElement or null if not found
*/
getNextSiblingBy: function(node, method) {
while (node) {
node = node.nextSibling;
if ( Y.Dom._testElement(node, method) ) {
return node;
}
}
return null;
},
/**
* Returns the next sibling that is an HTMLElement
* @method getNextSibling
* @param {String | HTMLElement} node The HTMLElement or an ID to use as the starting point
* @return {Object} HTMLElement or null if not found
*/
getNextSibling: function(node) {
node = Y.Dom.get(node);
if (!node) {
return null;
}
return Y.Dom.getNextSiblingBy(node);
},
/**
* Returns the first HTMLElement child that passes the test method.
* @method getFirstChildBy
* @param {HTMLElement} node The HTMLElement to use as the starting point
* @param {Function} method A boolean function used to test children
* that receives the node being tested as its only argument
* @return {Object} HTMLElement or null if not found
*/
getFirstChildBy: function(node, method) {
var child = ( Y.Dom._testElement(node.firstChild, method) ) ? node.firstChild : null;
return child || Y.Dom.getNextSiblingBy(node.firstChild, method);
},
/**
* Returns the first HTMLElement child.
* @method getFirstChild
* @param {String | HTMLElement} node The HTMLElement or an ID to use as the starting point
* @return {Object} HTMLElement or null if not found
*/
getFirstChild: function(node, method) {
node = Y.Dom.get(node);
if (!node) {
return null;
}
return Y.Dom.getFirstChildBy(node);
},
/**
* Returns the last HTMLElement child that passes the test method.
* @method getLastChildBy
* @param {HTMLElement} node The HTMLElement to use as the starting point
* @param {Function} method A boolean function used to test children
* that receives the node being tested as its only argument
* @return {Object} HTMLElement or null if not found
*/
getLastChildBy: function(node, method) {
if (!node) {
return null;
}
var child = ( Y.Dom._testElement(node.lastChild, method) ) ? node.lastChild : null;
return child || Y.Dom.getPreviousSiblingBy(node.lastChild, method);
},
/**
* Returns the last HTMLElement child.
* @method getLastChild
* @param {String | HTMLElement} node The HTMLElement or an ID to use as the starting point
* @return {Object} HTMLElement or null if not found
*/
getLastChild: function(node) {
node = Y.Dom.get(node);
return Y.Dom.getLastChildBy(node);
},
/**
* Returns an array of HTMLElement childNodes that pass the test method.
* @method getChildrenBy
* @param {HTMLElement} node The HTMLElement to start from
* @param {Function} method A boolean function used to test children
* that receives the node being tested as its only argument
* @return {Array} A static array of HTMLElements
*/
getChildrenBy: function(node, method) {
var child = Y.Dom.getFirstChildBy(node, method),
children = child ? [child] : [];
Y.Dom.getNextSiblingBy(child, function(node) {
if ( !method || method(node) ) {
children[children.length] = node;
}
return false; // fail test to collect all children
});
return children;
},
/**
* Returns an array of HTMLElement childNodes.
* @method getChildren
* @param {String | HTMLElement} node The HTMLElement or an ID to use as the starting point
* @return {Array} A static array of HTMLElements
*/
getChildren: function(node) {
node = Y.Dom.get(node);
if (!node) {
}
return Y.Dom.getChildrenBy(node);
},
/**
* Returns the left scroll value of the document
* @method getDocumentScrollLeft
* @param {HTMLDocument} document (optional) The document to get the scroll value of
* @return {Int} The amount that the document is scrolled to the left
*/
getDocumentScrollLeft: function(doc) {
doc = doc || document;
return Math.max(doc[DOCUMENT_ELEMENT].scrollLeft, doc.body.scrollLeft);
},
/**
* Returns the top scroll value of the document
* @method getDocumentScrollTop
* @param {HTMLDocument} document (optional) The document to get the scroll value of
* @return {Int} The amount that the document is scrolled to the top
*/
getDocumentScrollTop: function(doc) {
doc = doc || document;
return Math.max(doc[DOCUMENT_ELEMENT].scrollTop, doc.body.scrollTop);
},
/**
* Inserts the new node as the previous sibling of the reference node
* @method insertBefore
* @param {String | HTMLElement} newNode The node to be inserted
* @param {String | HTMLElement} referenceNode The node to insert the new node before
* @return {HTMLElement} The node that was inserted (or null if insert fails)
*/
insertBefore: function(newNode, referenceNode) {
newNode = Y.Dom.get(newNode);
referenceNode = Y.Dom.get(referenceNode);
if (!newNode || !referenceNode || !referenceNode[PARENT_NODE]) {
return null;
}
return referenceNode[PARENT_NODE].insertBefore(newNode, referenceNode);
},
/**
* Inserts the new node as the next sibling of the reference node
* @method insertAfter
* @param {String | HTMLElement} newNode The node to be inserted
* @param {String | HTMLElement} referenceNode The node to insert the new node after
* @return {HTMLElement} The node that was inserted (or null if insert fails)
*/
insertAfter: function(newNode, referenceNode) {
newNode = Y.Dom.get(newNode);
referenceNode = Y.Dom.get(referenceNode);
if (!newNode || !referenceNode || !referenceNode[PARENT_NODE]) {
return null;
}
if (referenceNode.nextSibling) {
return referenceNode[PARENT_NODE].insertBefore(newNode, referenceNode.nextSibling);
} else {
return referenceNode[PARENT_NODE].appendChild(newNode);
}
},
/**
* Creates a Region based on the viewport relative to the document.
* @method getClientRegion
* @return {Region} A Region object representing the viewport which accounts for document scroll
*/
getClientRegion: function() {
var t = Y.Dom.getDocumentScrollTop(),
l = Y.Dom.getDocumentScrollLeft(),
r = Y.Dom.getViewportWidth() + l,
b = Y.Dom.getViewportHeight() + t;
return new Y.Region(t, r, b, l);
},
/**
* Provides a normalized attribute interface.
* @method setAttribute
* @param {String | HTMLElement} el The target element for the attribute.
* @param {String} attr The attribute to set.
* @param {String} val The value of the attribute.
*/
setAttribute: function(el, attr, val) {
Y.Dom.batch(el, Y.Dom._setAttribute, { attr: attr, val: val });
},
_setAttribute: function(el, args) {
var attr = Y.Dom._toCamel(args.attr),
val = args.val;
if (el && el.setAttribute) {
if (Y.Dom.DOT_ATTRIBUTES[attr]) {
el[attr] = val;
} else {
attr = Y.Dom.CUSTOM_ATTRIBUTES[attr] || attr;
el.setAttribute(attr, val);
}
} else {
}
},
/**
* Provides a normalized attribute interface.
* @method getAttribute
* @param {String | HTMLElement} el The target element for the attribute.
* @param {String} attr The attribute to get.
* @return {String} The current value of the attribute.
*/
getAttribute: function(el, attr) {
return Y.Dom.batch(el, Y.Dom._getAttribute, attr);
},
_getAttribute: function(el, attr) {
var val;
attr = Y.Dom.CUSTOM_ATTRIBUTES[attr] || attr;
if (el && el.getAttribute) {
val = el.getAttribute(attr, 2);
} else {
}
return val;
},
_toCamel: function(property) {
var c = propertyCache;
function tU(x,l) {
return l.toUpperCase();
}
return c[property] || (c[property] = property.indexOf('-') === -1 ?
property :
property.replace( /-([a-z])/gi, tU ));
},
_getClassRegex: function(className) {
var re;
if (className !== undefined) { // allow empty string to pass
if (className.exec) { // already a RegExp
re = className;
} else {
re = reCache[className];
if (!re) {
// escape special chars (".", "[", etc.)
className = className.replace(Y.Dom._patterns.CLASS_RE_TOKENS, '\\$1');
re = reCache[className] = new RegExp(C_START + className + C_END, G);
}
}
}
return re;
},
_patterns: {
ROOT_TAG: /^body|html$/i, // body for quirks mode, html for standards,
CLASS_RE_TOKENS: /([\.\(\)\^\$\*\+\?\|\[\]\{\}\\])/g
},
_testElement: function(node, method) {
return node && node[NODE_TYPE] == 1 && ( !method || method(node) );
},
_calcBorders: function(node, xy2) {
var t = parseInt(Y.Dom[GET_COMPUTED_STYLE](node, BORDER_TOP_WIDTH), 10) || 0,
l = parseInt(Y.Dom[GET_COMPUTED_STYLE](node, BORDER_LEFT_WIDTH), 10) || 0;
if (isGecko) {
if (RE_TABLE.test(node[TAG_NAME])) {
t = 0;
l = 0;
}
}
xy2[0] += l;
xy2[1] += t;
return xy2;
}
};
var _getComputedStyle = Y.Dom[GET_COMPUTED_STYLE];
// fix opera computedStyle default color unit (convert to rgb)
if (UA.opera) {
Y.Dom[GET_COMPUTED_STYLE] = function(node, att) {
var val = _getComputedStyle(node, att);
if (RE_COLOR.test(att)) {
val = Y.Dom.Color.toRGB(val);
}
return val;
};
}
// safari converts transparent to rgba(), others use "transparent"
if (UA.webkit) {
Y.Dom[GET_COMPUTED_STYLE] = function(node, att) {
var val = _getComputedStyle(node, att);
if (val === 'rgba(0, 0, 0, 0)') {
val = 'transparent';
}
return val;
};
}
if (UA.ie && UA.ie >= 8 && document.documentElement.hasAttribute) { // IE 8 standards
Y.Dom.DOT_ATTRIBUTES.type = true; // IE 8 errors on input.setAttribute('type')
}
})();
/**
* A region is a representation of an object on a grid. It is defined
* by the top, right, bottom, left extents, so is rectangular by default. If
* other shapes are required, this class could be extended to support it.
* @namespace YAHOO.util
* @class Region
* @param {Int} t the top extent
* @param {Int} r the right extent
* @param {Int} b the bottom extent
* @param {Int} l the left extent
* @constructor
*/
YAHOO.util.Region = function(t, r, b, l) {
/**
* The region's top extent
* @property top
* @type Int
*/
this.top = t;
/**
* The region's top extent
* @property y
* @type Int
*/
this.y = t;
/**
* The region's top extent as index, for symmetry with set/getXY
* @property 1
* @type Int
*/
this[1] = t;
/**
* The region's right extent
* @property right
* @type int
*/
this.right = r;
/**
* The region's bottom extent
* @property bottom
* @type Int
*/
this.bottom = b;
/**
* The region's left extent
* @property left
* @type Int
*/
this.left = l;
/**
* The region's left extent
* @property x
* @type Int
*/
this.x = l;
/**
* The region's left extent as index, for symmetry with set/getXY
* @property 0
* @type Int
*/
this[0] = l;
/**
* The region's total width
* @property width
* @type Int
*/
this.width = this.right - this.left;
/**
* The region's total height
* @property height
* @type Int
*/
this.height = this.bottom - this.top;
};
/**
* Returns true if this region contains the region passed in
* @method contains
* @param {Region} region The region to evaluate
* @return {Boolean} True if the region is contained with this region,
* else false
*/
YAHOO.util.Region.prototype.contains = function(region) {
return ( region.left >= this.left &&
region.right <= this.right &&
region.top >= this.top &&
region.bottom <= this.bottom );
};
/**
* Returns the area of the region
* @method getArea
* @return {Int} the region's area
*/
YAHOO.util.Region.prototype.getArea = function() {
return ( (this.bottom - this.top) * (this.right - this.left) );
};
/**
* Returns the region where the passed in region overlaps with this one
* @method intersect
* @param {Region} region The region that intersects
* @return {Region} The overlap region, or null if there is no overlap
*/
YAHOO.util.Region.prototype.intersect = function(region) {
var t = Math.max( this.top, region.top ),
r = Math.min( this.right, region.right ),
b = Math.min( this.bottom, region.bottom ),
l = Math.max( this.left, region.left );
if (b >= t && r >= l) {
return new YAHOO.util.Region(t, r, b, l);
} else {
return null;
}
};
/**
* Returns the region representing the smallest region that can contain both
* the passed in region and this region.
* @method union
* @param {Region} region The region that to create the union with
* @return {Region} The union region
*/
YAHOO.util.Region.prototype.union = function(region) {
var t = Math.min( this.top, region.top ),
r = Math.max( this.right, region.right ),
b = Math.max( this.bottom, region.bottom ),
l = Math.min( this.left, region.left );
return new YAHOO.util.Region(t, r, b, l);
};
/**
* toString
* @method toString
* @return string the region properties
*/
YAHOO.util.Region.prototype.toString = function() {
return ( "Region {" +
"top: " + this.top +
", right: " + this.right +
", bottom: " + this.bottom +
", left: " + this.left +
", height: " + this.height +
", width: " + this.width +
"}" );
};
/**
* Returns a region that is occupied by the DOM element
* @method getRegion
* @param {HTMLElement} el The element
* @return {Region} The region that the element occupies
* @static
*/
YAHOO.util.Region.getRegion = function(el) {
var p = YAHOO.util.Dom.getXY(el),
t = p[1],
r = p[0] + el.offsetWidth,
b = p[1] + el.offsetHeight,
l = p[0];
return new YAHOO.util.Region(t, r, b, l);
};
/////////////////////////////////////////////////////////////////////////////
/**
* A point is a region that is special in that it represents a single point on
* the grid.
* @namespace YAHOO.util
* @class Point
* @param {Int} x The X position of the point
* @param {Int} y The Y position of the point
* @constructor
* @extends YAHOO.util.Region
*/
YAHOO.util.Point = function(x, y) {
if (YAHOO.lang.isArray(x)) { // accept input from Dom.getXY, Event.getXY, etc.
y = x[1]; // dont blow away x yet
x = x[0];
}
YAHOO.util.Point.superclass.constructor.call(this, y, x, y, x);
};
YAHOO.extend(YAHOO.util.Point, YAHOO.util.Region);
(function() {
/**
* Add style management functionality to DOM.
* @module dom
* @for Dom
*/
var Y = YAHOO.util,
CLIENT_TOP = 'clientTop',
CLIENT_LEFT = 'clientLeft',
PARENT_NODE = 'parentNode',
RIGHT = 'right',
HAS_LAYOUT = 'hasLayout',
PX = 'px',
OPACITY = 'opacity',
AUTO = 'auto',
BORDER_LEFT_WIDTH = 'borderLeftWidth',
BORDER_TOP_WIDTH = 'borderTopWidth',
BORDER_RIGHT_WIDTH = 'borderRightWidth',
BORDER_BOTTOM_WIDTH = 'borderBottomWidth',
VISIBLE = 'visible',
TRANSPARENT = 'transparent',
HEIGHT = 'height',
WIDTH = 'width',
STYLE = 'style',
CURRENT_STYLE = 'currentStyle',
// IE getComputedStyle
// TODO: unit-less lineHeight (e.g. 1.22)
re_size = /^width|height$/,
re_unit = /^(\d[.\d]*)+(em|ex|px|gd|rem|vw|vh|vm|ch|mm|cm|in|pt|pc|deg|rad|ms|s|hz|khz|%){1}?/i,
ComputedStyle = {
get: function(el, property) {
var value = '',
current = el[CURRENT_STYLE][property];
if (property === OPACITY) {
value = Y.Dom.getStyle(el, OPACITY);
} else if (!current || (current.indexOf && current.indexOf(PX) > -1)) { // no need to convert
value = current;
} else if (Y.Dom.IE_COMPUTED[property]) { // use compute function
value = Y.Dom.IE_COMPUTED[property](el, property);
} else if (re_unit.test(current)) { // convert to pixel
value = Y.Dom.IE.ComputedStyle.getPixel(el, property);
} else {
value = current;
}
return value;
},
getOffset: function(el, prop) {
var current = el[CURRENT_STYLE][prop], // value of "width", "top", etc.
capped = prop.charAt(0).toUpperCase() + prop.substr(1), // "Width", "Top", etc.
offset = 'offset' + capped, // "offsetWidth", "offsetTop", etc.
pixel = 'pixel' + capped, // "pixelWidth", "pixelTop", etc.
value = '',
actual;
if (current == AUTO) {
actual = el[offset]; // offsetHeight/Top etc.
if (actual === undefined) { // likely "right" or "bottom"
value = 0;
}
value = actual;
if (re_size.test(prop)) { // account for box model diff
el[STYLE][prop] = actual;
if (el[offset] > actual) {
// the difference is padding + border (works in Standards & Quirks modes)
value = actual - (el[offset] - actual);
}
el[STYLE][prop] = AUTO; // revert to auto
}
} else { // convert units to px
if (!el[STYLE][pixel] && !el[STYLE][prop]) { // need to map style.width to currentStyle (no currentStyle.pixelWidth)
el[STYLE][prop] = current; // no style.pixelWidth if no style.width
}
value = el[STYLE][pixel];
}
return value + PX;
},
getBorderWidth: function(el, property) {
// clientHeight/Width = paddingBox (e.g. offsetWidth - borderWidth)
// clientTop/Left = borderWidth
var value = null;
if (!el[CURRENT_STYLE][HAS_LAYOUT]) { // TODO: unset layout?
el[STYLE].zoom = 1; // need layout to measure client
}
switch(property) {
case BORDER_TOP_WIDTH:
value = el[CLIENT_TOP];
break;
case BORDER_BOTTOM_WIDTH:
value = el.offsetHeight - el.clientHeight - el[CLIENT_TOP];
break;
case BORDER_LEFT_WIDTH:
value = el[CLIENT_LEFT];
break;
case BORDER_RIGHT_WIDTH:
value = el.offsetWidth - el.clientWidth - el[CLIENT_LEFT];
break;
}
return value + PX;
},
getPixel: function(node, att) {
// use pixelRight to convert to px
var val = null,
styleRight = node[CURRENT_STYLE][RIGHT],
current = node[CURRENT_STYLE][att];
node[STYLE][RIGHT] = current;
val = node[STYLE].pixelRight;
node[STYLE][RIGHT] = styleRight; // revert
return val + PX;
},
getMargin: function(node, att) {
var val;
if (node[CURRENT_STYLE][att] == AUTO) {
val = 0 + PX;
} else {
val = Y.Dom.IE.ComputedStyle.getPixel(node, att);
}
return val;
},
getVisibility: function(node, att) {
var current;
while ( (current = node[CURRENT_STYLE]) && current[att] == 'inherit') { // NOTE: assignment in test
node = node[PARENT_NODE];
}
return (current) ? current[att] : VISIBLE;
},
getColor: function(node, att) {
return Y.Dom.Color.toRGB(node[CURRENT_STYLE][att]) || TRANSPARENT;
},
getBorderColor: function(node, att) {
var current = node[CURRENT_STYLE],
val = current[att] || current.color;
return Y.Dom.Color.toRGB(Y.Dom.Color.toHex(val));
}
},
//fontSize: getPixelFont,
IEComputed = {};
IEComputed.top = IEComputed.right = IEComputed.bottom = IEComputed.left =
IEComputed[WIDTH] = IEComputed[HEIGHT] = ComputedStyle.getOffset;
IEComputed.color = ComputedStyle.getColor;
IEComputed[BORDER_TOP_WIDTH] = IEComputed[BORDER_RIGHT_WIDTH] =
IEComputed[BORDER_BOTTOM_WIDTH] = IEComputed[BORDER_LEFT_WIDTH] =
ComputedStyle.getBorderWidth;
IEComputed.marginTop = IEComputed.marginRight = IEComputed.marginBottom =
IEComputed.marginLeft = ComputedStyle.getMargin;
IEComputed.visibility = ComputedStyle.getVisibility;
IEComputed.borderColor = IEComputed.borderTopColor =
IEComputed.borderRightColor = IEComputed.borderBottomColor =
IEComputed.borderLeftColor = ComputedStyle.getBorderColor;
Y.Dom.IE_COMPUTED = IEComputed;
Y.Dom.IE_ComputedStyle = ComputedStyle;
})();
(function() {
/**
* Add style management functionality to DOM.
* @module dom
* @for Dom
*/
var TO_STRING = 'toString',
PARSE_INT = parseInt,
RE = RegExp,
Y = YAHOO.util;
Y.Dom.Color = {
KEYWORDS: {
black: '000',
silver: 'c0c0c0',
gray: '808080',
white: 'fff',
maroon: '800000',
red: 'f00',
purple: '800080',
fuchsia: 'f0f',
green: '008000',
lime: '0f0',
olive: '808000',
yellow: 'ff0',
navy: '000080',
blue: '00f',
teal: '008080',
aqua: '0ff'
},
re_RGB: /^rgb\(([0-9]+)\s*,\s*([0-9]+)\s*,\s*([0-9]+)\)$/i,
re_hex: /^#?([0-9A-F]{2})([0-9A-F]{2})([0-9A-F]{2})$/i,
re_hex3: /([0-9A-F])/gi,
toRGB: function(val) {
if (!Y.Dom.Color.re_RGB.test(val)) {
val = Y.Dom.Color.toHex(val);
}
if(Y.Dom.Color.re_hex.exec(val)) {
val = 'rgb(' + [
PARSE_INT(RE.$1, 16),
PARSE_INT(RE.$2, 16),
PARSE_INT(RE.$3, 16)
].join(', ') + ')';
}
return val;
},
toHex: function(val) {
val = Y.Dom.Color.KEYWORDS[val] || val;
if (Y.Dom.Color.re_RGB.exec(val)) {
var r = (RE.$1.length === 1) ? '0' + RE.$1 : Number(RE.$1),
g = (RE.$2.length === 1) ? '0' + RE.$2 : Number(RE.$2),
b = (RE.$3.length === 1) ? '0' + RE.$3 : Number(RE.$3);
val = [
r[TO_STRING](16),
g[TO_STRING](16),
b[TO_STRING](16)
].join('');
}
if (val.length < 6) {
val = val.replace(Y.Dom.Color.re_hex3, '$1$1');
}
if (val !== 'transparent' && val.indexOf('#') < 0) {
val = '#' + val;
}
return val.toLowerCase();
}
};
}());
YAHOO.register("dom", YAHOO.util.Dom, {version: "2.8.0r4", build: "2449"});