##// END OF EJS Templates
Implemented locking for task, to prevent for running the same tasks,...
Implemented locking for task, to prevent for running the same tasks, moved out pidlock library. Added dirsize display

File last commit:

r0:564e4082 default
r497:fb0c3af6 celery
Show More
datasource.js
2996 lines | 99.9 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
*/
(function () {
var lang = YAHOO.lang,
util = YAHOO.util,
Ev = util.Event;
/**
* The DataSource utility provides a common configurable interface for widgets to
* access a variety of data, from JavaScript arrays to online database servers.
*
* @module datasource
* @requires yahoo, event
* @optional json, get, connection
* @title DataSource Utility
*/
/****************************************************************************/
/****************************************************************************/
/****************************************************************************/
/**
* Base class for the YUI DataSource utility.
*
* @namespace YAHOO.util
* @class YAHOO.util.DataSourceBase
* @constructor
* @param oLiveData {HTMLElement} Pointer to live data.
* @param oConfigs {object} (optional) Object literal of configuration values.
*/
util.DataSourceBase = function(oLiveData, oConfigs) {
if(oLiveData === null || oLiveData === undefined) {
return;
}
this.liveData = oLiveData;
this._oQueue = {interval:null, conn:null, requests:[]};
this.responseSchema = {};
// Set any config params passed in to override defaults
if(oConfigs && (oConfigs.constructor == Object)) {
for(var sConfig in oConfigs) {
if(sConfig) {
this[sConfig] = oConfigs[sConfig];
}
}
}
// Validate and initialize public configs
var maxCacheEntries = this.maxCacheEntries;
if(!lang.isNumber(maxCacheEntries) || (maxCacheEntries < 0)) {
maxCacheEntries = 0;
}
// Initialize interval tracker
this._aIntervals = [];
/////////////////////////////////////////////////////////////////////////////
//
// Custom Events
//
/////////////////////////////////////////////////////////////////////////////
/**
* Fired when a request is made to the local cache.
*
* @event cacheRequestEvent
* @param oArgs.request {Object} The request object.
* @param oArgs.callback {Object} The callback object.
* @param oArgs.caller {Object} (deprecated) Use callback.scope.
*/
this.createEvent("cacheRequestEvent");
/**
* Fired when data is retrieved from the local cache.
*
* @event cacheResponseEvent
* @param oArgs.request {Object} The request object.
* @param oArgs.response {Object} The response object.
* @param oArgs.callback {Object} The callback object.
* @param oArgs.caller {Object} (deprecated) Use callback.scope.
*/
this.createEvent("cacheResponseEvent");
/**
* Fired when a request is sent to the live data source.
*
* @event requestEvent
* @param oArgs.request {Object} The request object.
* @param oArgs.callback {Object} The callback object.
* @param oArgs.tId {Number} Transaction ID.
* @param oArgs.caller {Object} (deprecated) Use callback.scope.
*/
this.createEvent("requestEvent");
/**
* Fired when live data source sends response.
*
* @event responseEvent
* @param oArgs.request {Object} The request object.
* @param oArgs.response {Object} The raw response object.
* @param oArgs.callback {Object} The callback object.
* @param oArgs.tId {Number} Transaction ID.
* @param oArgs.caller {Object} (deprecated) Use callback.scope.
*/
this.createEvent("responseEvent");
/**
* Fired when response is parsed.
*
* @event responseParseEvent
* @param oArgs.request {Object} The request object.
* @param oArgs.response {Object} The parsed response object.
* @param oArgs.callback {Object} The callback object.
* @param oArgs.caller {Object} (deprecated) Use callback.scope.
*/
this.createEvent("responseParseEvent");
/**
* Fired when response is cached.
*
* @event responseCacheEvent
* @param oArgs.request {Object} The request object.
* @param oArgs.response {Object} The parsed response object.
* @param oArgs.callback {Object} The callback object.
* @param oArgs.caller {Object} (deprecated) Use callback.scope.
*/
this.createEvent("responseCacheEvent");
/**
* Fired when an error is encountered with the live data source.
*
* @event dataErrorEvent
* @param oArgs.request {Object} The request object.
* @param oArgs.response {String} The response object (if available).
* @param oArgs.callback {Object} The callback object.
* @param oArgs.caller {Object} (deprecated) Use callback.scope.
* @param oArgs.message {String} The error message.
*/
this.createEvent("dataErrorEvent");
/**
* Fired when the local cache is flushed.
*
* @event cacheFlushEvent
*/
this.createEvent("cacheFlushEvent");
var DS = util.DataSourceBase;
this._sName = "DataSource instance" + DS._nIndex;
DS._nIndex++;
};
var DS = util.DataSourceBase;
lang.augmentObject(DS, {
/////////////////////////////////////////////////////////////////////////////
//
// DataSourceBase public constants
//
/////////////////////////////////////////////////////////////////////////////
/**
* Type is unknown.
*
* @property TYPE_UNKNOWN
* @type Number
* @final
* @default -1
*/
TYPE_UNKNOWN : -1,
/**
* Type is a JavaScript Array.
*
* @property TYPE_JSARRAY
* @type Number
* @final
* @default 0
*/
TYPE_JSARRAY : 0,
/**
* Type is a JavaScript Function.
*
* @property TYPE_JSFUNCTION
* @type Number
* @final
* @default 1
*/
TYPE_JSFUNCTION : 1,
/**
* Type is hosted on a server via an XHR connection.
*
* @property TYPE_XHR
* @type Number
* @final
* @default 2
*/
TYPE_XHR : 2,
/**
* Type is JSON.
*
* @property TYPE_JSON
* @type Number
* @final
* @default 3
*/
TYPE_JSON : 3,
/**
* Type is XML.
*
* @property TYPE_XML
* @type Number
* @final
* @default 4
*/
TYPE_XML : 4,
/**
* Type is plain text.
*
* @property TYPE_TEXT
* @type Number
* @final
* @default 5
*/
TYPE_TEXT : 5,
/**
* Type is an HTML TABLE element. Data is parsed out of TR elements from all TBODY elements.
*
* @property TYPE_HTMLTABLE
* @type Number
* @final
* @default 6
*/
TYPE_HTMLTABLE : 6,
/**
* Type is hosted on a server via a dynamic script node.
*
* @property TYPE_SCRIPTNODE
* @type Number
* @final
* @default 7
*/
TYPE_SCRIPTNODE : 7,
/**
* Type is local.
*
* @property TYPE_LOCAL
* @type Number
* @final
* @default 8
*/
TYPE_LOCAL : 8,
/**
* Error message for invalid dataresponses.
*
* @property ERROR_DATAINVALID
* @type String
* @final
* @default "Invalid data"
*/
ERROR_DATAINVALID : "Invalid data",
/**
* Error message for null data responses.
*
* @property ERROR_DATANULL
* @type String
* @final
* @default "Null data"
*/
ERROR_DATANULL : "Null data",
/////////////////////////////////////////////////////////////////////////////
//
// DataSourceBase private static properties
//
/////////////////////////////////////////////////////////////////////////////
/**
* Internal class variable to index multiple DataSource instances.
*
* @property DataSourceBase._nIndex
* @type Number
* @private
* @static
*/
_nIndex : 0,
/**
* Internal class variable to assign unique transaction IDs.
*
* @property DataSourceBase._nTransactionId
* @type Number
* @private
* @static
*/
_nTransactionId : 0,
/////////////////////////////////////////////////////////////////////////////
//
// DataSourceBase private static methods
//
/////////////////////////////////////////////////////////////////////////////
/**
* Get an XPath-specified value for a given field from an XML node or document.
*
* @method _getLocationValue
* @param field {String | Object} Field definition.
* @param context {Object} XML node or document to search within.
* @return {Object} Data value or null.
* @static
* @private
*/
_getLocationValue: function(field, context) {
var locator = field.locator || field.key || field,
xmldoc = context.ownerDocument || context,
result, res, value = null;
try {
// Standards mode
if(!lang.isUndefined(xmldoc.evaluate)) {
result = xmldoc.evaluate(locator, context, xmldoc.createNSResolver(!context.ownerDocument ? context.documentElement : context.ownerDocument.documentElement), 0, null);
while(res = result.iterateNext()) {
value = res.textContent;
}
}
// IE mode
else {
xmldoc.setProperty("SelectionLanguage", "XPath");
result = context.selectNodes(locator)[0];
value = result.value || result.text || null;
}
return value;
}
catch(e) {
}
},
/////////////////////////////////////////////////////////////////////////////
//
// DataSourceBase public static methods
//
/////////////////////////////////////////////////////////////////////////////
/**
* Executes a configured callback. For object literal callbacks, the third
* param determines whether to execute the success handler or failure handler.
*
* @method issueCallback
* @param callback {Function|Object} the callback to execute
* @param params {Array} params to be passed to the callback method
* @param error {Boolean} whether an error occurred
* @param scope {Object} the scope from which to execute the callback
* (deprecated - use an object literal callback)
* @static
*/
issueCallback : function (callback,params,error,scope) {
if (lang.isFunction(callback)) {
callback.apply(scope, params);
} else if (lang.isObject(callback)) {
scope = callback.scope || scope || window;
var callbackFunc = callback.success;
if (error) {
callbackFunc = callback.failure;
}
if (callbackFunc) {
callbackFunc.apply(scope, params.concat([callback.argument]));
}
}
},
/**
* Converts data to type String.
*
* @method DataSourceBase.parseString
* @param oData {String | Number | Boolean | Date | Array | Object} Data to parse.
* The special values null and undefined will return null.
* @return {String} A string, or null.
* @static
*/
parseString : function(oData) {
// Special case null and undefined
if(!lang.isValue(oData)) {
return null;
}
//Convert to string
var string = oData + "";
// Validate
if(lang.isString(string)) {
return string;
}
else {
return null;
}
},
/**
* Converts data to type Number.
*
* @method DataSourceBase.parseNumber
* @param oData {String | Number | Boolean} Data to convert. Note, the following
* values return as null: null, undefined, NaN, "".
* @return {Number} A number, or null.
* @static
*/
parseNumber : function(oData) {
if(!lang.isValue(oData) || (oData === "")) {
return null;
}
//Convert to number
var number = oData * 1;
// Validate
if(lang.isNumber(number)) {
return number;
}
else {
return null;
}
},
// Backward compatibility
convertNumber : function(oData) {
return DS.parseNumber(oData);
},
/**
* Converts data to type Date.
*
* @method DataSourceBase.parseDate
* @param oData {Date | String | Number} Data to convert.
* @return {Date} A Date instance.
* @static
*/
parseDate : function(oData) {
var date = null;
//Convert to date
if(!(oData instanceof Date)) {
date = new Date(oData);
}
else {
return oData;
}
// Validate
if(date instanceof Date) {
return date;
}
else {
return null;
}
},
// Backward compatibility
convertDate : function(oData) {
return DS.parseDate(oData);
}
});
// Done in separate step so referenced functions are defined.
/**
* Data parsing functions.
* @property DataSource.Parser
* @type Object
* @static
*/
DS.Parser = {
string : DS.parseString,
number : DS.parseNumber,
date : DS.parseDate
};
// Prototype properties and methods
DS.prototype = {
/////////////////////////////////////////////////////////////////////////////
//
// DataSourceBase private properties
//
/////////////////////////////////////////////////////////////////////////////
/**
* Name of DataSource instance.
*
* @property _sName
* @type String
* @private
*/
_sName : null,
/**
* Local cache of data result object literals indexed chronologically.
*
* @property _aCache
* @type Object[]
* @private
*/
_aCache : null,
/**
* Local queue of request connections, enabled if queue needs to be managed.
*
* @property _oQueue
* @type Object
* @private
*/
_oQueue : null,
/**
* Array of polling interval IDs that have been enabled, needed to clear all intervals.
*
* @property _aIntervals
* @type Array
* @private
*/
_aIntervals : null,
/////////////////////////////////////////////////////////////////////////////
//
// DataSourceBase public properties
//
/////////////////////////////////////////////////////////////////////////////
/**
* Max size of the local cache. Set to 0 to turn off caching. Caching is
* useful to reduce the number of server connections. Recommended only for data
* sources that return comprehensive results for queries or when stale data is
* not an issue.
*
* @property maxCacheEntries
* @type Number
* @default 0
*/
maxCacheEntries : 0,
/**
* Pointer to live database.
*
* @property liveData
* @type Object
*/
liveData : null,
/**
* Where the live data is held:
*
* <dl>
* <dt>TYPE_UNKNOWN</dt>
* <dt>TYPE_LOCAL</dt>
* <dt>TYPE_XHR</dt>
* <dt>TYPE_SCRIPTNODE</dt>
* <dt>TYPE_JSFUNCTION</dt>
* </dl>
*
* @property dataType
* @type Number
* @default YAHOO.util.DataSourceBase.TYPE_UNKNOWN
*
*/
dataType : DS.TYPE_UNKNOWN,
/**
* Format of response:
*
* <dl>
* <dt>TYPE_UNKNOWN</dt>
* <dt>TYPE_JSARRAY</dt>
* <dt>TYPE_JSON</dt>
* <dt>TYPE_XML</dt>
* <dt>TYPE_TEXT</dt>
* <dt>TYPE_HTMLTABLE</dt>
* </dl>
*
* @property responseType
* @type Number
* @default YAHOO.util.DataSourceBase.TYPE_UNKNOWN
*/
responseType : DS.TYPE_UNKNOWN,
/**
* Response schema object literal takes a combination of the following properties:
*
* <dl>
* <dt>resultsList</dt> <dd>Pointer to array of tabular data</dd>
* <dt>resultNode</dt> <dd>Pointer to node name of row data (XML data only)</dd>
* <dt>recordDelim</dt> <dd>Record delimiter (text data only)</dd>
* <dt>fieldDelim</dt> <dd>Field delimiter (text data only)</dd>
* <dt>fields</dt> <dd>Array of field names (aka keys), or array of object literals
* such as: {key:"fieldname",parser:YAHOO.util.DataSourceBase.parseDate}</dd>
* <dt>metaFields</dt> <dd>Object literal of keys to include in the oParsedResponse.meta collection</dd>
* <dt>metaNode</dt> <dd>Name of the node under which to search for meta information in XML response data</dd>
* </dl>
*
* @property responseSchema
* @type Object
*/
responseSchema : null,
/**
* Additional arguments passed to the JSON parse routine. The JSON string
* is the assumed first argument (where applicable). This property is not
* set by default, but the parse methods will use it if present.
*
* @property parseJSONArgs
* @type {MIXED|Array} If an Array, contents are used as individual arguments.
* Otherwise, value is used as an additional argument.
*/
// property intentionally undefined
/**
* When working with XML data, setting this property to true enables support for
* XPath-syntaxed locators in schema definitions.
*
* @property useXPath
* @type Boolean
* @default false
*/
useXPath : false,
/////////////////////////////////////////////////////////////////////////////
//
// DataSourceBase public methods
//
/////////////////////////////////////////////////////////////////////////////
/**
* Public accessor to the unique name of the DataSource instance.
*
* @method toString
* @return {String} Unique name of the DataSource instance.
*/
toString : function() {
return this._sName;
},
/**
* Overridable method passes request to cache and returns cached response if any,
* refreshing the hit in the cache as the newest item. Returns null if there is
* no cache hit.
*
* @method getCachedResponse
* @param oRequest {Object} Request object.
* @param oCallback {Object} Callback object.
* @param oCaller {Object} (deprecated) Use callback object.
* @return {Object} Cached response object or null.
*/
getCachedResponse : function(oRequest, oCallback, oCaller) {
var aCache = this._aCache;
// If cache is enabled...
if(this.maxCacheEntries > 0) {
// Initialize local cache
if(!aCache) {
this._aCache = [];
}
// Look in local cache
else {
var nCacheLength = aCache.length;
if(nCacheLength > 0) {
var oResponse = null;
this.fireEvent("cacheRequestEvent", {request:oRequest,callback:oCallback,caller:oCaller});
// Loop through each cached element
for(var i = nCacheLength-1; i >= 0; i--) {
var oCacheElem = aCache[i];
// Defer cache hit logic to a public overridable method
if(this.isCacheHit(oRequest,oCacheElem.request)) {
// The cache returned a hit!
// Grab the cached response
oResponse = oCacheElem.response;
this.fireEvent("cacheResponseEvent", {request:oRequest,response:oResponse,callback:oCallback,caller:oCaller});
// Refresh the position of the cache hit
if(i < nCacheLength-1) {
// Remove element from its original location
aCache.splice(i,1);
// Add as newest
this.addToCache(oRequest, oResponse);
}
// Add a cache flag
oResponse.cached = true;
break;
}
}
return oResponse;
}
}
}
else if(aCache) {
this._aCache = null;
}
return null;
},
/**
* Default overridable method matches given request to given cached request.
* Returns true if is a hit, returns false otherwise. Implementers should
* override this method to customize the cache-matching algorithm.
*
* @method isCacheHit
* @param oRequest {Object} Request object.
* @param oCachedRequest {Object} Cached request object.
* @return {Boolean} True if given request matches cached request, false otherwise.
*/
isCacheHit : function(oRequest, oCachedRequest) {
return (oRequest === oCachedRequest);
},
/**
* Adds a new item to the cache. If cache is full, evicts the stalest item
* before adding the new item.
*
* @method addToCache
* @param oRequest {Object} Request object.
* @param oResponse {Object} Response object to cache.
*/
addToCache : function(oRequest, oResponse) {
var aCache = this._aCache;
if(!aCache) {
return;
}
// If the cache is full, make room by removing stalest element (index=0)
while(aCache.length >= this.maxCacheEntries) {
aCache.shift();
}
// Add to cache in the newest position, at the end of the array
var oCacheElem = {request:oRequest,response:oResponse};
aCache[aCache.length] = oCacheElem;
this.fireEvent("responseCacheEvent", {request:oRequest,response:oResponse});
},
/**
* Flushes cache.
*
* @method flushCache
*/
flushCache : function() {
if(this._aCache) {
this._aCache = [];
this.fireEvent("cacheFlushEvent");
}
},
/**
* Sets up a polling mechanism to send requests at set intervals and forward
* responses to given callback.
*
* @method setInterval
* @param nMsec {Number} Length of interval in milliseconds.
* @param oRequest {Object} Request object.
* @param oCallback {Function} Handler function to receive the response.
* @param oCaller {Object} (deprecated) Use oCallback.scope.
* @return {Number} Interval ID.
*/
setInterval : function(nMsec, oRequest, oCallback, oCaller) {
if(lang.isNumber(nMsec) && (nMsec >= 0)) {
var oSelf = this;
var nId = setInterval(function() {
oSelf.makeConnection(oRequest, oCallback, oCaller);
}, nMsec);
this._aIntervals.push(nId);
return nId;
}
else {
}
},
/**
* Disables polling mechanism associated with the given interval ID.
*
* @method clearInterval
* @param nId {Number} Interval ID.
*/
clearInterval : function(nId) {
// Remove from tracker if there
var tracker = this._aIntervals || [];
for(var i=tracker.length-1; i>-1; i--) {
if(tracker[i] === nId) {
tracker.splice(i,1);
clearInterval(nId);
}
}
},
/**
* Disables all known polling intervals.
*
* @method clearAllIntervals
*/
clearAllIntervals : function() {
var tracker = this._aIntervals || [];
for(var i=tracker.length-1; i>-1; i--) {
clearInterval(tracker[i]);
}
tracker = [];
},
/**
* First looks for cached response, then sends request to live data. The
* following arguments are passed to the callback function:
* <dl>
* <dt><code>oRequest</code></dt>
* <dd>The same value that was passed in as the first argument to sendRequest.</dd>
* <dt><code>oParsedResponse</code></dt>
* <dd>An object literal containing the following properties:
* <dl>
* <dt><code>tId</code></dt>
* <dd>Unique transaction ID number.</dd>
* <dt><code>results</code></dt>
* <dd>Schema-parsed data results.</dd>
* <dt><code>error</code></dt>
* <dd>True in cases of data error.</dd>
* <dt><code>cached</code></dt>
* <dd>True when response is returned from DataSource cache.</dd>
* <dt><code>meta</code></dt>
* <dd>Schema-parsed meta data.</dd>
* </dl>
* <dt><code>oPayload</code></dt>
* <dd>The same value as was passed in as <code>argument</code> in the oCallback object literal.</dd>
* </dl>
*
* @method sendRequest
* @param oRequest {Object} Request object.
* @param oCallback {Object} An object literal with the following properties:
* <dl>
* <dt><code>success</code></dt>
* <dd>The function to call when the data is ready.</dd>
* <dt><code>failure</code></dt>
* <dd>The function to call upon a response failure condition.</dd>
* <dt><code>scope</code></dt>
* <dd>The object to serve as the scope for the success and failure handlers.</dd>
* <dt><code>argument</code></dt>
* <dd>Arbitrary data that will be passed back to the success and failure handlers.</dd>
* </dl>
* @param oCaller {Object} (deprecated) Use oCallback.scope.
* @return {Number} Transaction ID, or null if response found in cache.
*/
sendRequest : function(oRequest, oCallback, oCaller) {
// First look in cache
var oCachedResponse = this.getCachedResponse(oRequest, oCallback, oCaller);
if(oCachedResponse) {
DS.issueCallback(oCallback,[oRequest,oCachedResponse],false,oCaller);
return null;
}
// Not in cache, so forward request to live data
return this.makeConnection(oRequest, oCallback, oCaller);
},
/**
* Overridable default method generates a unique transaction ID and passes
* the live data reference directly to the handleResponse function. This
* method should be implemented by subclasses to achieve more complex behavior
* or to access remote data.
*
* @method makeConnection
* @param oRequest {Object} Request object.
* @param oCallback {Object} Callback object literal.
* @param oCaller {Object} (deprecated) Use oCallback.scope.
* @return {Number} Transaction ID.
*/
makeConnection : function(oRequest, oCallback, oCaller) {
var tId = DS._nTransactionId++;
this.fireEvent("requestEvent", {tId:tId, request:oRequest,callback:oCallback,caller:oCaller});
/* accounts for the following cases:
YAHOO.util.DataSourceBase.TYPE_UNKNOWN
YAHOO.util.DataSourceBase.TYPE_JSARRAY
YAHOO.util.DataSourceBase.TYPE_JSON
YAHOO.util.DataSourceBase.TYPE_HTMLTABLE
YAHOO.util.DataSourceBase.TYPE_XML
YAHOO.util.DataSourceBase.TYPE_TEXT
*/
var oRawResponse = this.liveData;
this.handleResponse(oRequest, oRawResponse, oCallback, oCaller, tId);
return tId;
},
/**
* Receives raw data response and type converts to XML, JSON, etc as necessary.
* Forwards oFullResponse to appropriate parsing function to get turned into
* oParsedResponse. Calls doBeforeCallback() and adds oParsedResponse to
* the cache when appropriate before calling issueCallback().
*
* The oParsedResponse object literal has the following properties:
* <dl>
* <dd><dt>tId {Number}</dt> Unique transaction ID</dd>
* <dd><dt>results {Array}</dt> Array of parsed data results</dd>
* <dd><dt>meta {Object}</dt> Object literal of meta values</dd>
* <dd><dt>error {Boolean}</dt> (optional) True if there was an error</dd>
* <dd><dt>cached {Boolean}</dt> (optional) True if response was cached</dd>
* </dl>
*
* @method handleResponse
* @param oRequest {Object} Request object
* @param oRawResponse {Object} The raw response from the live database.
* @param oCallback {Object} Callback object literal.
* @param oCaller {Object} (deprecated) Use oCallback.scope.
* @param tId {Number} Transaction ID.
*/
handleResponse : function(oRequest, oRawResponse, oCallback, oCaller, tId) {
this.fireEvent("responseEvent", {tId:tId, request:oRequest, response:oRawResponse,
callback:oCallback, caller:oCaller});
var xhr = (this.dataType == DS.TYPE_XHR) ? true : false;
var oParsedResponse = null;
var oFullResponse = oRawResponse;
// Try to sniff data type if it has not been defined
if(this.responseType === DS.TYPE_UNKNOWN) {
var ctype = (oRawResponse && oRawResponse.getResponseHeader) ? oRawResponse.getResponseHeader["Content-Type"] : null;
if(ctype) {
// xml
if(ctype.indexOf("text/xml") > -1) {
this.responseType = DS.TYPE_XML;
}
else if(ctype.indexOf("application/json") > -1) { // json
this.responseType = DS.TYPE_JSON;
}
else if(ctype.indexOf("text/plain") > -1) { // text
this.responseType = DS.TYPE_TEXT;
}
}
else {
if(YAHOO.lang.isArray(oRawResponse)) { // array
this.responseType = DS.TYPE_JSARRAY;
}
// xml
else if(oRawResponse && oRawResponse.nodeType && (oRawResponse.nodeType === 9 || oRawResponse.nodeType === 1 || oRawResponse.nodeType === 11)) {
this.responseType = DS.TYPE_XML;
}
else if(oRawResponse && oRawResponse.nodeName && (oRawResponse.nodeName.toLowerCase() == "table")) { // table
this.responseType = DS.TYPE_HTMLTABLE;
}
else if(YAHOO.lang.isObject(oRawResponse)) { // json
this.responseType = DS.TYPE_JSON;
}
else if(YAHOO.lang.isString(oRawResponse)) { // text
this.responseType = DS.TYPE_TEXT;
}
}
}
switch(this.responseType) {
case DS.TYPE_JSARRAY:
if(xhr && oRawResponse && oRawResponse.responseText) {
oFullResponse = oRawResponse.responseText;
}
try {
// Convert to JS array if it's a string
if(lang.isString(oFullResponse)) {
var parseArgs = [oFullResponse].concat(this.parseJSONArgs);
// Check for YUI JSON Util
if(lang.JSON) {
oFullResponse = lang.JSON.parse.apply(lang.JSON,parseArgs);
}
// Look for JSON parsers using an API similar to json2.js
else if(window.JSON && JSON.parse) {
oFullResponse = JSON.parse.apply(JSON,parseArgs);
}
// Look for JSON parsers using an API similar to json.js
else if(oFullResponse.parseJSON) {
oFullResponse = oFullResponse.parseJSON.apply(oFullResponse,parseArgs.slice(1));
}
// No JSON lib found so parse the string
else {
// Trim leading spaces
while (oFullResponse.length > 0 &&
(oFullResponse.charAt(0) != "{") &&
(oFullResponse.charAt(0) != "[")) {
oFullResponse = oFullResponse.substring(1, oFullResponse.length);
}
if(oFullResponse.length > 0) {
// Strip extraneous stuff at the end
var arrayEnd =
Math.max(oFullResponse.lastIndexOf("]"),oFullResponse.lastIndexOf("}"));
oFullResponse = oFullResponse.substring(0,arrayEnd+1);
// Turn the string into an object literal...
// ...eval is necessary here
oFullResponse = eval("(" + oFullResponse + ")");
}
}
}
}
catch(e1) {
}
oFullResponse = this.doBeforeParseData(oRequest, oFullResponse, oCallback);
oParsedResponse = this.parseArrayData(oRequest, oFullResponse);
break;
case DS.TYPE_JSON:
if(xhr && oRawResponse && oRawResponse.responseText) {
oFullResponse = oRawResponse.responseText;
}
try {
// Convert to JSON object if it's a string
if(lang.isString(oFullResponse)) {
var parseArgs = [oFullResponse].concat(this.parseJSONArgs);
// Check for YUI JSON Util
if(lang.JSON) {
oFullResponse = lang.JSON.parse.apply(lang.JSON,parseArgs);
}
// Look for JSON parsers using an API similar to json2.js
else if(window.JSON && JSON.parse) {
oFullResponse = JSON.parse.apply(JSON,parseArgs);
}
// Look for JSON parsers using an API similar to json.js
else if(oFullResponse.parseJSON) {
oFullResponse = oFullResponse.parseJSON.apply(oFullResponse,parseArgs.slice(1));
}
// No JSON lib found so parse the string
else {
// Trim leading spaces
while (oFullResponse.length > 0 &&
(oFullResponse.charAt(0) != "{") &&
(oFullResponse.charAt(0) != "[")) {
oFullResponse = oFullResponse.substring(1, oFullResponse.length);
}
if(oFullResponse.length > 0) {
// Strip extraneous stuff at the end
var objEnd = Math.max(oFullResponse.lastIndexOf("]"),oFullResponse.lastIndexOf("}"));
oFullResponse = oFullResponse.substring(0,objEnd+1);
// Turn the string into an object literal...
// ...eval is necessary here
oFullResponse = eval("(" + oFullResponse + ")");
}
}
}
}
catch(e) {
}
oFullResponse = this.doBeforeParseData(oRequest, oFullResponse, oCallback);
oParsedResponse = this.parseJSONData(oRequest, oFullResponse);
break;
case DS.TYPE_HTMLTABLE:
if(xhr && oRawResponse.responseText) {
var el = document.createElement('div');
el.innerHTML = oRawResponse.responseText;
oFullResponse = el.getElementsByTagName('table')[0];
}
oFullResponse = this.doBeforeParseData(oRequest, oFullResponse, oCallback);
oParsedResponse = this.parseHTMLTableData(oRequest, oFullResponse);
break;
case DS.TYPE_XML:
if(xhr && oRawResponse.responseXML) {
oFullResponse = oRawResponse.responseXML;
}
oFullResponse = this.doBeforeParseData(oRequest, oFullResponse, oCallback);
oParsedResponse = this.parseXMLData(oRequest, oFullResponse);
break;
case DS.TYPE_TEXT:
if(xhr && lang.isString(oRawResponse.responseText)) {
oFullResponse = oRawResponse.responseText;
}
oFullResponse = this.doBeforeParseData(oRequest, oFullResponse, oCallback);
oParsedResponse = this.parseTextData(oRequest, oFullResponse);
break;
default:
oFullResponse = this.doBeforeParseData(oRequest, oFullResponse, oCallback);
oParsedResponse = this.parseData(oRequest, oFullResponse);
break;
}
// Clean up for consistent signature
oParsedResponse = oParsedResponse || {};
if(!oParsedResponse.results) {
oParsedResponse.results = [];
}
if(!oParsedResponse.meta) {
oParsedResponse.meta = {};
}
// Success
if(!oParsedResponse.error) {
// Last chance to touch the raw response or the parsed response
oParsedResponse = this.doBeforeCallback(oRequest, oFullResponse, oParsedResponse, oCallback);
this.fireEvent("responseParseEvent", {request:oRequest,
response:oParsedResponse, callback:oCallback, caller:oCaller});
// Cache the response
this.addToCache(oRequest, oParsedResponse);
}
// Error
else {
// Be sure the error flag is on
oParsedResponse.error = true;
this.fireEvent("dataErrorEvent", {request:oRequest, response: oRawResponse, callback:oCallback,
caller:oCaller, message:DS.ERROR_DATANULL});
}
// Send the response back to the caller
oParsedResponse.tId = tId;
DS.issueCallback(oCallback,[oRequest,oParsedResponse],oParsedResponse.error,oCaller);
},
/**
* Overridable method gives implementers access to the original full response
* before the data gets parsed. Implementers should take care not to return an
* unparsable or otherwise invalid response.
*
* @method doBeforeParseData
* @param oRequest {Object} Request object.
* @param oFullResponse {Object} The full response from the live database.
* @param oCallback {Object} The callback object.
* @return {Object} Full response for parsing.
*/
doBeforeParseData : function(oRequest, oFullResponse, oCallback) {
return oFullResponse;
},
/**
* Overridable method gives implementers access to the original full response and
* the parsed response (parsed against the given schema) before the data
* is added to the cache (if applicable) and then sent back to callback function.
* This is your chance to access the raw response and/or populate the parsed
* response with any custom data.
*
* @method doBeforeCallback
* @param oRequest {Object} Request object.
* @param oFullResponse {Object} The full response from the live database.
* @param oParsedResponse {Object} The parsed response to return to calling object.
* @param oCallback {Object} The callback object.
* @return {Object} Parsed response object.
*/
doBeforeCallback : function(oRequest, oFullResponse, oParsedResponse, oCallback) {
return oParsedResponse;
},
/**
* Overridable method parses data of generic RESPONSE_TYPE into a response object.
*
* @method parseData
* @param oRequest {Object} Request object.
* @param oFullResponse {Object} The full Array from the live database.
* @return {Object} Parsed response object with the following properties:<br>
* - results {Array} Array of parsed data results<br>
* - meta {Object} Object literal of meta values<br>
* - error {Boolean} (optional) True if there was an error<br>
*/
parseData : function(oRequest, oFullResponse) {
if(lang.isValue(oFullResponse)) {
var oParsedResponse = {results:oFullResponse,meta:{}};
return oParsedResponse;
}
return null;
},
/**
* Overridable method parses Array data into a response object.
*
* @method parseArrayData
* @param oRequest {Object} Request object.
* @param oFullResponse {Object} The full Array from the live database.
* @return {Object} Parsed response object with the following properties:<br>
* - results (Array) Array of parsed data results<br>
* - error (Boolean) True if there was an error
*/
parseArrayData : function(oRequest, oFullResponse) {
if(lang.isArray(oFullResponse)) {
var results = [],
i, j,
rec, field, data;
// Parse for fields
if(lang.isArray(this.responseSchema.fields)) {
var fields = this.responseSchema.fields;
for (i = fields.length - 1; i >= 0; --i) {
if (typeof fields[i] !== 'object') {
fields[i] = { key : fields[i] };
}
}
var parsers = {}, p;
for (i = fields.length - 1; i >= 0; --i) {
p = (typeof fields[i].parser === 'function' ?
fields[i].parser :
DS.Parser[fields[i].parser+'']) || fields[i].converter;
if (p) {
parsers[fields[i].key] = p;
}
}
var arrType = lang.isArray(oFullResponse[0]);
for(i=oFullResponse.length-1; i>-1; i--) {
var oResult = {};
rec = oFullResponse[i];
if (typeof rec === 'object') {
for(j=fields.length-1; j>-1; j--) {
field = fields[j];
data = arrType ? rec[j] : rec[field.key];
if (parsers[field.key]) {
data = parsers[field.key].call(this,data);
}
// Safety measure
if(data === undefined) {
data = null;
}
oResult[field.key] = data;
}
}
else if (lang.isString(rec)) {
for(j=fields.length-1; j>-1; j--) {
field = fields[j];
data = rec;
if (parsers[field.key]) {
data = parsers[field.key].call(this,data);
}
// Safety measure
if(data === undefined) {
data = null;
}
oResult[field.key] = data;
}
}
results[i] = oResult;
}
}
// Return entire data set
else {
results = oFullResponse;
}
var oParsedResponse = {results:results};
return oParsedResponse;
}
return null;
},
/**
* Overridable method parses plain text data into a response object.
*
* @method parseTextData
* @param oRequest {Object} Request object.
* @param oFullResponse {Object} The full text response from the live database.
* @return {Object} Parsed response object with the following properties:<br>
* - results (Array) Array of parsed data results<br>
* - error (Boolean) True if there was an error
*/
parseTextData : function(oRequest, oFullResponse) {
if(lang.isString(oFullResponse)) {
if(lang.isString(this.responseSchema.recordDelim) &&
lang.isString(this.responseSchema.fieldDelim)) {
var oParsedResponse = {results:[]};
var recDelim = this.responseSchema.recordDelim;
var fieldDelim = this.responseSchema.fieldDelim;
if(oFullResponse.length > 0) {
// Delete the last line delimiter at the end of the data if it exists
var newLength = oFullResponse.length-recDelim.length;
if(oFullResponse.substr(newLength) == recDelim) {
oFullResponse = oFullResponse.substr(0, newLength);
}
if(oFullResponse.length > 0) {
// Split along record delimiter to get an array of strings
var recordsarray = oFullResponse.split(recDelim);
// Cycle through each record
for(var i = 0, len = recordsarray.length, recIdx = 0; i < len; ++i) {
var bError = false,
sRecord = recordsarray[i];
if (lang.isString(sRecord) && (sRecord.length > 0)) {
// Split each record along field delimiter to get data
var fielddataarray = recordsarray[i].split(fieldDelim);
var oResult = {};
// Filter for fields data
if(lang.isArray(this.responseSchema.fields)) {
var fields = this.responseSchema.fields;
for(var j=fields.length-1; j>-1; j--) {
try {
// Remove quotation marks from edges, if applicable
var data = fielddataarray[j];
if (lang.isString(data)) {
if(data.charAt(0) == "\"") {
data = data.substr(1);
}
if(data.charAt(data.length-1) == "\"") {
data = data.substr(0,data.length-1);
}
var field = fields[j];
var key = (lang.isValue(field.key)) ? field.key : field;
// Backward compatibility
if(!field.parser && field.converter) {
field.parser = field.converter;
}
var parser = (typeof field.parser === 'function') ?
field.parser :
DS.Parser[field.parser+''];
if(parser) {
data = parser.call(this, data);
}
// Safety measure
if(data === undefined) {
data = null;
}
oResult[key] = data;
}
else {
bError = true;
}
}
catch(e) {
bError = true;
}
}
}
// No fields defined so pass along all data as an array
else {
oResult = fielddataarray;
}
if(!bError) {
oParsedResponse.results[recIdx++] = oResult;
}
}
}
}
}
return oParsedResponse;
}
}
return null;
},
/**
* Overridable method parses XML data for one result into an object literal.
*
* @method parseXMLResult
* @param result {XML} XML for one result.
* @return {Object} Object literal of data for one result.
*/
parseXMLResult : function(result) {
var oResult = {},
schema = this.responseSchema;
try {
// Loop through each data field in each result using the schema
for(var m = schema.fields.length-1; m >= 0 ; m--) {
var field = schema.fields[m];
var key = (lang.isValue(field.key)) ? field.key : field;
var data = null;
if(this.useXPath) {
data = YAHOO.util.DataSource._getLocationValue(field, result);
}
else {
// Values may be held in an attribute...
var xmlAttr = result.attributes.getNamedItem(key);
if(xmlAttr) {
data = xmlAttr.value;
}
// ...or in a node
else {
var xmlNode = result.getElementsByTagName(key);
if(xmlNode && xmlNode.item(0)) {
var item = xmlNode.item(0);
// For IE, then DOM...
data = (item) ? ((item.text) ? item.text : (item.textContent) ? item.textContent : null) : null;
// ...then fallback, but check for multiple child nodes
if(!data) {
var datapieces = [];
for(var j=0, len=item.childNodes.length; j<len; j++) {
if(item.childNodes[j].nodeValue) {
datapieces[datapieces.length] = item.childNodes[j].nodeValue;
}
}
if(datapieces.length > 0) {
data = datapieces.join("");
}
}
}
}
}
// Safety net
if(data === null) {
data = "";
}
// Backward compatibility
if(!field.parser && field.converter) {
field.parser = field.converter;
}
var parser = (typeof field.parser === 'function') ?
field.parser :
DS.Parser[field.parser+''];
if(parser) {
data = parser.call(this, data);
}
// Safety measure
if(data === undefined) {
data = null;
}
oResult[key] = data;
}
}
catch(e) {
}
return oResult;
},
/**
* Overridable method parses XML data into a response object.
*
* @method parseXMLData
* @param oRequest {Object} Request object.
* @param oFullResponse {Object} The full XML response from the live database.
* @return {Object} Parsed response object with the following properties<br>
* - results (Array) Array of parsed data results<br>
* - error (Boolean) True if there was an error
*/
parseXMLData : function(oRequest, oFullResponse) {
var bError = false,
schema = this.responseSchema,
oParsedResponse = {meta:{}},
xmlList = null,
metaNode = schema.metaNode,
metaLocators = schema.metaFields || {},
i,k,loc,v;
// In case oFullResponse is something funky
try {
// Pull any meta identified
if(this.useXPath) {
for (k in metaLocators) {
oParsedResponse.meta[k] = YAHOO.util.DataSource._getLocationValue(metaLocators[k], oFullResponse);
}
}
else {
metaNode = metaNode ? oFullResponse.getElementsByTagName(metaNode)[0] :
oFullResponse;
if (metaNode) {
for (k in metaLocators) {
if (lang.hasOwnProperty(metaLocators, k)) {
loc = metaLocators[k];
// Look for a node
v = metaNode.getElementsByTagName(loc)[0];
if (v) {
v = v.firstChild.nodeValue;
} else {
// Look for an attribute
v = metaNode.attributes.getNamedItem(loc);
if (v) {
v = v.value;
}
}
if (lang.isValue(v)) {
oParsedResponse.meta[k] = v;
}
}
}
}
}
// For result data
xmlList = (schema.resultNode) ?
oFullResponse.getElementsByTagName(schema.resultNode) :
null;
}
catch(e) {
}
if(!xmlList || !lang.isArray(schema.fields)) {
bError = true;
}
// Loop through each result
else {
oParsedResponse.results = [];
for(i = xmlList.length-1; i >= 0 ; --i) {
var oResult = this.parseXMLResult(xmlList.item(i));
// Capture each array of values into an array of results
oParsedResponse.results[i] = oResult;
}
}
if(bError) {
oParsedResponse.error = true;
}
else {
}
return oParsedResponse;
},
/**
* Overridable method parses JSON data into a response object.
*
* @method parseJSONData
* @param oRequest {Object} Request object.
* @param oFullResponse {Object} The full JSON from the live database.
* @return {Object} Parsed response object with the following properties<br>
* - results (Array) Array of parsed data results<br>
* - error (Boolean) True if there was an error
*/
parseJSONData : function(oRequest, oFullResponse) {
var oParsedResponse = {results:[],meta:{}};
if(lang.isObject(oFullResponse) && this.responseSchema.resultsList) {
var schema = this.responseSchema,
fields = schema.fields,
resultsList = oFullResponse,
results = [],
metaFields = schema.metaFields || {},
fieldParsers = [],
fieldPaths = [],
simpleFields = [],
bError = false,
i,len,j,v,key,parser,path;
// Function to convert the schema's fields into walk paths
var buildPath = function (needle) {
var path = null, keys = [], i = 0;
if (needle) {
// Strip the ["string keys"] and [1] array indexes
needle = needle.
replace(/\[(['"])(.*?)\1\]/g,
function (x,$1,$2) {keys[i]=$2;return '.@'+(i++);}).
replace(/\[(\d+)\]/g,
function (x,$1) {keys[i]=parseInt($1,10)|0;return '.@'+(i++);}).
replace(/^\./,''); // remove leading dot
// If the cleaned needle contains invalid characters, the
// path is invalid
if (!/[^\w\.\$@]/.test(needle)) {
path = needle.split('.');
for (i=path.length-1; i >= 0; --i) {
if (path[i].charAt(0) === '@') {
path[i] = keys[parseInt(path[i].substr(1),10)];
}
}
}
else {
}
}
return path;
};
// Function to walk a path and return the pot of gold
var walkPath = function (path, origin) {
var v=origin,i=0,len=path.length;
for (;i<len && v;++i) {
v = v[path[i]];
}
return v;
};
// Parse the response
// Step 1. Pull the resultsList from oFullResponse (default assumes
// oFullResponse IS the resultsList)
path = buildPath(schema.resultsList);
if (path) {
resultsList = walkPath(path, oFullResponse);
if (resultsList === undefined) {
bError = true;
}
} else {
bError = true;
}
if (!resultsList) {
resultsList = [];
}
if (!lang.isArray(resultsList)) {
resultsList = [resultsList];
}
if (!bError) {
// Step 2. Parse out field data if identified
if(schema.fields) {
var field;
// Build the field parser map and location paths
for (i=0, len=fields.length; i<len; i++) {
field = fields[i];
key = field.key || field;
parser = ((typeof field.parser === 'function') ?
field.parser :
DS.Parser[field.parser+'']) || field.converter;
path = buildPath(key);
if (parser) {
fieldParsers[fieldParsers.length] = {key:key,parser:parser};
}
if (path) {
if (path.length > 1) {
fieldPaths[fieldPaths.length] = {key:key,path:path};
} else {
simpleFields[simpleFields.length] = {key:key,path:path[0]};
}
} else {
}
}
// Process the results, flattening the records and/or applying parsers if needed
for (i = resultsList.length - 1; i >= 0; --i) {
var r = resultsList[i], rec = {};
if(r) {
for (j = simpleFields.length - 1; j >= 0; --j) {
// Bug 1777850: data might be held in an array
rec[simpleFields[j].key] =
(r[simpleFields[j].path] !== undefined) ?
r[simpleFields[j].path] : r[j];
}
for (j = fieldPaths.length - 1; j >= 0; --j) {
rec[fieldPaths[j].key] = walkPath(fieldPaths[j].path,r);
}
for (j = fieldParsers.length - 1; j >= 0; --j) {
var p = fieldParsers[j].key;
rec[p] = fieldParsers[j].parser(rec[p]);
if (rec[p] === undefined) {
rec[p] = null;
}
}
}
results[i] = rec;
}
}
else {
results = resultsList;
}
for (key in metaFields) {
if (lang.hasOwnProperty(metaFields,key)) {
path = buildPath(metaFields[key]);
if (path) {
v = walkPath(path, oFullResponse);
oParsedResponse.meta[key] = v;
}
}
}
} else {
oParsedResponse.error = true;
}
oParsedResponse.results = results;
}
else {
oParsedResponse.error = true;
}
return oParsedResponse;
},
/**
* Overridable method parses an HTML TABLE element reference into a response object.
* Data is parsed out of TR elements from all TBODY elements.
*
* @method parseHTMLTableData
* @param oRequest {Object} Request object.
* @param oFullResponse {Object} The full HTML element reference from the live database.
* @return {Object} Parsed response object with the following properties<br>
* - results (Array) Array of parsed data results<br>
* - error (Boolean) True if there was an error
*/
parseHTMLTableData : function(oRequest, oFullResponse) {
var bError = false;
var elTable = oFullResponse;
var fields = this.responseSchema.fields;
var oParsedResponse = {results:[]};
if(lang.isArray(fields)) {
// Iterate through each TBODY
for(var i=0; i<elTable.tBodies.length; i++) {
var elTbody = elTable.tBodies[i];
// Iterate through each TR
for(var j=elTbody.rows.length-1; j>-1; j--) {
var elRow = elTbody.rows[j];
var oResult = {};
for(var k=fields.length-1; k>-1; k--) {
var field = fields[k];
var key = (lang.isValue(field.key)) ? field.key : field;
var data = elRow.cells[k].innerHTML;
// Backward compatibility
if(!field.parser && field.converter) {
field.parser = field.converter;
}
var parser = (typeof field.parser === 'function') ?
field.parser :
DS.Parser[field.parser+''];
if(parser) {
data = parser.call(this, data);
}
// Safety measure
if(data === undefined) {
data = null;
}
oResult[key] = data;
}
oParsedResponse.results[j] = oResult;
}
}
}
else {
bError = true;
}
if(bError) {
oParsedResponse.error = true;
}
else {
}
return oParsedResponse;
}
};
// DataSourceBase uses EventProvider
lang.augmentProto(DS, util.EventProvider);
/****************************************************************************/
/****************************************************************************/
/****************************************************************************/
/**
* LocalDataSource class for in-memory data structs including JavaScript arrays,
* JavaScript object literals (JSON), XML documents, and HTML tables.
*
* @namespace YAHOO.util
* @class YAHOO.util.LocalDataSource
* @extends YAHOO.util.DataSourceBase
* @constructor
* @param oLiveData {HTMLElement} Pointer to live data.
* @param oConfigs {object} (optional) Object literal of configuration values.
*/
util.LocalDataSource = function(oLiveData, oConfigs) {
this.dataType = DS.TYPE_LOCAL;
if(oLiveData) {
if(YAHOO.lang.isArray(oLiveData)) { // array
this.responseType = DS.TYPE_JSARRAY;
}
// xml
else if(oLiveData.nodeType && oLiveData.nodeType == 9) {
this.responseType = DS.TYPE_XML;
}
else if(oLiveData.nodeName && (oLiveData.nodeName.toLowerCase() == "table")) { // table
this.responseType = DS.TYPE_HTMLTABLE;
oLiveData = oLiveData.cloneNode(true);
}
else if(YAHOO.lang.isString(oLiveData)) { // text
this.responseType = DS.TYPE_TEXT;
}
else if(YAHOO.lang.isObject(oLiveData)) { // json
this.responseType = DS.TYPE_JSON;
}
}
else {
oLiveData = [];
this.responseType = DS.TYPE_JSARRAY;
}
util.LocalDataSource.superclass.constructor.call(this, oLiveData, oConfigs);
};
// LocalDataSource extends DataSourceBase
lang.extend(util.LocalDataSource, DS);
// Copy static members to LocalDataSource class
lang.augmentObject(util.LocalDataSource, DS);
/****************************************************************************/
/****************************************************************************/
/****************************************************************************/
/**
* FunctionDataSource class for JavaScript functions.
*
* @namespace YAHOO.util
* @class YAHOO.util.FunctionDataSource
* @extends YAHOO.util.DataSourceBase
* @constructor
* @param oLiveData {HTMLElement} Pointer to live data.
* @param oConfigs {object} (optional) Object literal of configuration values.
*/
util.FunctionDataSource = function(oLiveData, oConfigs) {
this.dataType = DS.TYPE_JSFUNCTION;
oLiveData = oLiveData || function() {};
util.FunctionDataSource.superclass.constructor.call(this, oLiveData, oConfigs);
};
// FunctionDataSource extends DataSourceBase
lang.extend(util.FunctionDataSource, DS, {
/////////////////////////////////////////////////////////////////////////////
//
// FunctionDataSource public properties
//
/////////////////////////////////////////////////////////////////////////////
/**
* Context in which to execute the function. By default, is the DataSource
* instance itself. If set, the function will receive the DataSource instance
* as an additional argument.
*
* @property scope
* @type Object
* @default null
*/
scope : null,
/////////////////////////////////////////////////////////////////////////////
//
// FunctionDataSource public methods
//
/////////////////////////////////////////////////////////////////////////////
/**
* Overriding method passes query to a function. The returned response is then
* forwarded to the handleResponse function.
*
* @method makeConnection
* @param oRequest {Object} Request object.
* @param oCallback {Object} Callback object literal.
* @param oCaller {Object} (deprecated) Use oCallback.scope.
* @return {Number} Transaction ID.
*/
makeConnection : function(oRequest, oCallback, oCaller) {
var tId = DS._nTransactionId++;
this.fireEvent("requestEvent", {tId:tId,request:oRequest,callback:oCallback,caller:oCaller});
// Pass the request in as a parameter and
// forward the return value to the handler
var oRawResponse = (this.scope) ? this.liveData.call(this.scope, oRequest, this) : this.liveData(oRequest);
// Try to sniff data type if it has not been defined
if(this.responseType === DS.TYPE_UNKNOWN) {
if(YAHOO.lang.isArray(oRawResponse)) { // array
this.responseType = DS.TYPE_JSARRAY;
}
// xml
else if(oRawResponse && oRawResponse.nodeType && oRawResponse.nodeType == 9) {
this.responseType = DS.TYPE_XML;
}
else if(oRawResponse && oRawResponse.nodeName && (oRawResponse.nodeName.toLowerCase() == "table")) { // table
this.responseType = DS.TYPE_HTMLTABLE;
}
else if(YAHOO.lang.isObject(oRawResponse)) { // json
this.responseType = DS.TYPE_JSON;
}
else if(YAHOO.lang.isString(oRawResponse)) { // text
this.responseType = DS.TYPE_TEXT;
}
}
this.handleResponse(oRequest, oRawResponse, oCallback, oCaller, tId);
return tId;
}
});
// Copy static members to FunctionDataSource class
lang.augmentObject(util.FunctionDataSource, DS);
/****************************************************************************/
/****************************************************************************/
/****************************************************************************/
/**
* ScriptNodeDataSource class for accessing remote data via the YUI Get Utility.
*
* @namespace YAHOO.util
* @class YAHOO.util.ScriptNodeDataSource
* @extends YAHOO.util.DataSourceBase
* @constructor
* @param oLiveData {HTMLElement} Pointer to live data.
* @param oConfigs {object} (optional) Object literal of configuration values.
*/
util.ScriptNodeDataSource = function(oLiveData, oConfigs) {
this.dataType = DS.TYPE_SCRIPTNODE;
oLiveData = oLiveData || "";
util.ScriptNodeDataSource.superclass.constructor.call(this, oLiveData, oConfigs);
};
// ScriptNodeDataSource extends DataSourceBase
lang.extend(util.ScriptNodeDataSource, DS, {
/////////////////////////////////////////////////////////////////////////////
//
// ScriptNodeDataSource public properties
//
/////////////////////////////////////////////////////////////////////////////
/**
* Alias to YUI Get Utility, to allow implementers to use a custom class.
*
* @property getUtility
* @type Object
* @default YAHOO.util.Get
*/
getUtility : util.Get,
/**
* Defines request/response management in the following manner:
* <dl>
* <!--<dt>queueRequests</dt>
* <dd>If a request is already in progress, wait until response is returned before sending the next request.</dd>
* <dt>cancelStaleRequests</dt>
* <dd>If a request is already in progress, cancel it before sending the next request.</dd>-->
* <dt>ignoreStaleResponses</dt>
* <dd>Send all requests, but handle only the response for the most recently sent request.</dd>
* <dt>allowAll</dt>
* <dd>Send all requests and handle all responses.</dd>
* </dl>
*
* @property asyncMode
* @type String
* @default "allowAll"
*/
asyncMode : "allowAll",
/**
* Callback string parameter name sent to the remote script. By default,
* requests are sent to
* &#60;URI&#62;?&#60;scriptCallbackParam&#62;=callbackFunction
*
* @property scriptCallbackParam
* @type String
* @default "callback"
*/
scriptCallbackParam : "callback",
/////////////////////////////////////////////////////////////////////////////
//
// ScriptNodeDataSource public methods
//
/////////////////////////////////////////////////////////////////////////////
/**
* Creates a request callback that gets appended to the script URI. Implementers
* can customize this string to match their server's query syntax.
*
* @method generateRequestCallback
* @return {String} String fragment that gets appended to script URI that
* specifies the callback function
*/
generateRequestCallback : function(id) {
return "&" + this.scriptCallbackParam + "=YAHOO.util.ScriptNodeDataSource.callbacks["+id+"]" ;
},
/**
* Overridable method gives implementers access to modify the URI before the dynamic
* script node gets inserted. Implementers should take care not to return an
* invalid URI.
*
* @method doBeforeGetScriptNode
* @param {String} URI to the script
* @return {String} URI to the script
*/
doBeforeGetScriptNode : function(sUri) {
return sUri;
},
/**
* Overriding method passes query to Get Utility. The returned
* response is then forwarded to the handleResponse function.
*
* @method makeConnection
* @param oRequest {Object} Request object.
* @param oCallback {Object} Callback object literal.
* @param oCaller {Object} (deprecated) Use oCallback.scope.
* @return {Number} Transaction ID.
*/
makeConnection : function(oRequest, oCallback, oCaller) {
var tId = DS._nTransactionId++;
this.fireEvent("requestEvent", {tId:tId,request:oRequest,callback:oCallback,caller:oCaller});
// If there are no global pending requests, it is safe to purge global callback stack and global counter
if(util.ScriptNodeDataSource._nPending === 0) {
util.ScriptNodeDataSource.callbacks = [];
util.ScriptNodeDataSource._nId = 0;
}
// ID for this request
var id = util.ScriptNodeDataSource._nId;
util.ScriptNodeDataSource._nId++;
// Dynamically add handler function with a closure to the callback stack
var oSelf = this;
util.ScriptNodeDataSource.callbacks[id] = function(oRawResponse) {
if((oSelf.asyncMode !== "ignoreStaleResponses")||
(id === util.ScriptNodeDataSource.callbacks.length-1)) { // Must ignore stale responses
// Try to sniff data type if it has not been defined
if(oSelf.responseType === DS.TYPE_UNKNOWN) {
if(YAHOO.lang.isArray(oRawResponse)) { // array
oSelf.responseType = DS.TYPE_JSARRAY;
}
// xml
else if(oRawResponse.nodeType && oRawResponse.nodeType == 9) {
oSelf.responseType = DS.TYPE_XML;
}
else if(oRawResponse.nodeName && (oRawResponse.nodeName.toLowerCase() == "table")) { // table
oSelf.responseType = DS.TYPE_HTMLTABLE;
}
else if(YAHOO.lang.isObject(oRawResponse)) { // json
oSelf.responseType = DS.TYPE_JSON;
}
else if(YAHOO.lang.isString(oRawResponse)) { // text
oSelf.responseType = DS.TYPE_TEXT;
}
}
oSelf.handleResponse(oRequest, oRawResponse, oCallback, oCaller, tId);
}
else {
}
delete util.ScriptNodeDataSource.callbacks[id];
};
// We are now creating a request
util.ScriptNodeDataSource._nPending++;
var sUri = this.liveData + oRequest + this.generateRequestCallback(id);
sUri = this.doBeforeGetScriptNode(sUri);
this.getUtility.script(sUri,
{autopurge: true,
onsuccess: util.ScriptNodeDataSource._bumpPendingDown,
onfail: util.ScriptNodeDataSource._bumpPendingDown});
return tId;
}
});
// Copy static members to ScriptNodeDataSource class
lang.augmentObject(util.ScriptNodeDataSource, DS);
// Copy static members to ScriptNodeDataSource class
lang.augmentObject(util.ScriptNodeDataSource, {
/////////////////////////////////////////////////////////////////////////////
//
// ScriptNodeDataSource private static properties
//
/////////////////////////////////////////////////////////////////////////////
/**
* Unique ID to track requests.
*
* @property _nId
* @type Number
* @private
* @static
*/
_nId : 0,
/**
* Counter for pending requests. When this is 0, it is safe to purge callbacks
* array.
*
* @property _nPending
* @type Number
* @private
* @static
*/
_nPending : 0,
/**
* Global array of callback functions, one for each request sent.
*
* @property callbacks
* @type Function[]
* @static
*/
callbacks : []
});
/****************************************************************************/
/****************************************************************************/
/****************************************************************************/
/**
* XHRDataSource class for accessing remote data via the YUI Connection Manager
* Utility
*
* @namespace YAHOO.util
* @class YAHOO.util.XHRDataSource
* @extends YAHOO.util.DataSourceBase
* @constructor
* @param oLiveData {HTMLElement} Pointer to live data.
* @param oConfigs {object} (optional) Object literal of configuration values.
*/
util.XHRDataSource = function(oLiveData, oConfigs) {
this.dataType = DS.TYPE_XHR;
this.connMgr = this.connMgr || util.Connect;
oLiveData = oLiveData || "";
util.XHRDataSource.superclass.constructor.call(this, oLiveData, oConfigs);
};
// XHRDataSource extends DataSourceBase
lang.extend(util.XHRDataSource, DS, {
/////////////////////////////////////////////////////////////////////////////
//
// XHRDataSource public properties
//
/////////////////////////////////////////////////////////////////////////////
/**
* Alias to YUI Connection Manager, to allow implementers to use a custom class.
*
* @property connMgr
* @type Object
* @default YAHOO.util.Connect
*/
connMgr: null,
/**
* Defines request/response management in the following manner:
* <dl>
* <dt>queueRequests</dt>
* <dd>If a request is already in progress, wait until response is returned
* before sending the next request.</dd>
*
* <dt>cancelStaleRequests</dt>
* <dd>If a request is already in progress, cancel it before sending the next
* request.</dd>
*
* <dt>ignoreStaleResponses</dt>
* <dd>Send all requests, but handle only the response for the most recently
* sent request.</dd>
*
* <dt>allowAll</dt>
* <dd>Send all requests and handle all responses.</dd>
*
* </dl>
*
* @property connXhrMode
* @type String
* @default "allowAll"
*/
connXhrMode: "allowAll",
/**
* True if data is to be sent via POST. By default, data will be sent via GET.
*
* @property connMethodPost
* @type Boolean
* @default false
*/
connMethodPost: false,
/**
* The connection timeout defines how many milliseconds the XHR connection will
* wait for a server response. Any non-zero value will enable the Connection Manager's
* Auto-Abort feature.
*
* @property connTimeout
* @type Number
* @default 0
*/
connTimeout: 0,
/////////////////////////////////////////////////////////////////////////////
//
// XHRDataSource public methods
//
/////////////////////////////////////////////////////////////////////////////
/**
* Overriding method passes query to Connection Manager. The returned
* response is then forwarded to the handleResponse function.
*
* @method makeConnection
* @param oRequest {Object} Request object.
* @param oCallback {Object} Callback object literal.
* @param oCaller {Object} (deprecated) Use oCallback.scope.
* @return {Number} Transaction ID.
*/
makeConnection : function(oRequest, oCallback, oCaller) {
var oRawResponse = null;
var tId = DS._nTransactionId++;
this.fireEvent("requestEvent", {tId:tId,request:oRequest,callback:oCallback,caller:oCaller});
// Set up the callback object and
// pass the request in as a URL query and
// forward the response to the handler
var oSelf = this;
var oConnMgr = this.connMgr;
var oQueue = this._oQueue;
/**
* Define Connection Manager success handler
*
* @method _xhrSuccess
* @param oResponse {Object} HTTPXMLRequest object
* @private
*/
var _xhrSuccess = function(oResponse) {
// If response ID does not match last made request ID,
// silently fail and wait for the next response
if(oResponse && (this.connXhrMode == "ignoreStaleResponses") &&
(oResponse.tId != oQueue.conn.tId)) {
return null;
}
// Error if no response
else if(!oResponse) {
this.fireEvent("dataErrorEvent", {request:oRequest, response:null,
callback:oCallback, caller:oCaller,
message:DS.ERROR_DATANULL});
// Send error response back to the caller with the error flag on
DS.issueCallback(oCallback,[oRequest, {error:true}], true, oCaller);
return null;
}
// Forward to handler
else {
// Try to sniff data type if it has not been defined
if(this.responseType === DS.TYPE_UNKNOWN) {
var ctype = (oResponse.getResponseHeader) ? oResponse.getResponseHeader["Content-Type"] : null;
if(ctype) {
// xml
if(ctype.indexOf("text/xml") > -1) {
this.responseType = DS.TYPE_XML;
}
else if(ctype.indexOf("application/json") > -1) { // json
this.responseType = DS.TYPE_JSON;
}
else if(ctype.indexOf("text/plain") > -1) { // text
this.responseType = DS.TYPE_TEXT;
}
}
}
this.handleResponse(oRequest, oResponse, oCallback, oCaller, tId);
}
};
/**
* Define Connection Manager failure handler
*
* @method _xhrFailure
* @param oResponse {Object} HTTPXMLRequest object
* @private
*/
var _xhrFailure = function(oResponse) {
this.fireEvent("dataErrorEvent", {request:oRequest, response: oResponse,
callback:oCallback, caller:oCaller,
message:DS.ERROR_DATAINVALID});
// Backward compatibility
if(lang.isString(this.liveData) && lang.isString(oRequest) &&
(this.liveData.lastIndexOf("?") !== this.liveData.length-1) &&
(oRequest.indexOf("?") !== 0)){
}
// Send failure response back to the caller with the error flag on
oResponse = oResponse || {};
oResponse.error = true;
DS.issueCallback(oCallback,[oRequest,oResponse],true, oCaller);
return null;
};
/**
* Define Connection Manager callback object
*
* @property _xhrCallback
* @param oResponse {Object} HTTPXMLRequest object
* @private
*/
var _xhrCallback = {
success:_xhrSuccess,
failure:_xhrFailure,
scope: this
};
// Apply Connection Manager timeout
if(lang.isNumber(this.connTimeout)) {
_xhrCallback.timeout = this.connTimeout;
}
// Cancel stale requests
if(this.connXhrMode == "cancelStaleRequests") {
// Look in queue for stale requests
if(oQueue.conn) {
if(oConnMgr.abort) {
oConnMgr.abort(oQueue.conn);
oQueue.conn = null;
}
else {
}
}
}
// Get ready to send the request URL
if(oConnMgr && oConnMgr.asyncRequest) {
var sLiveData = this.liveData;
var isPost = this.connMethodPost;
var sMethod = (isPost) ? "POST" : "GET";
// Validate request
var sUri = (isPost || !lang.isValue(oRequest)) ? sLiveData : sLiveData+oRequest;
var sRequest = (isPost) ? oRequest : null;
// Send the request right away
if(this.connXhrMode != "queueRequests") {
oQueue.conn = oConnMgr.asyncRequest(sMethod, sUri, _xhrCallback, sRequest);
}
// Queue up then send the request
else {
// Found a request already in progress
if(oQueue.conn) {
var allRequests = oQueue.requests;
// Add request to queue
allRequests.push({request:oRequest, callback:_xhrCallback});
// Interval needs to be started
if(!oQueue.interval) {
oQueue.interval = setInterval(function() {
// Connection is in progress
if(oConnMgr.isCallInProgress(oQueue.conn)) {
return;
}
else {
// Send next request
if(allRequests.length > 0) {
// Validate request
sUri = (isPost || !lang.isValue(allRequests[0].request)) ? sLiveData : sLiveData+allRequests[0].request;
sRequest = (isPost) ? allRequests[0].request : null;
oQueue.conn = oConnMgr.asyncRequest(sMethod, sUri, allRequests[0].callback, sRequest);
// Remove request from queue
allRequests.shift();
}
// No more requests
else {
clearInterval(oQueue.interval);
oQueue.interval = null;
}
}
}, 50);
}
}
// Nothing is in progress
else {
oQueue.conn = oConnMgr.asyncRequest(sMethod, sUri, _xhrCallback, sRequest);
}
}
}
else {
// Send null response back to the caller with the error flag on
DS.issueCallback(oCallback,[oRequest,{error:true}],true,oCaller);
}
return tId;
}
});
// Copy static members to XHRDataSource class
lang.augmentObject(util.XHRDataSource, DS);
/****************************************************************************/
/****************************************************************************/
/****************************************************************************/
/**
* Factory class for creating a BaseDataSource subclass instance. The sublcass is
* determined by oLiveData's type, unless the dataType config is explicitly passed in.
*
* @namespace YAHOO.util
* @class YAHOO.util.DataSource
* @constructor
* @param oLiveData {HTMLElement} Pointer to live data.
* @param oConfigs {object} (optional) Object literal of configuration values.
*/
util.DataSource = function(oLiveData, oConfigs) {
oConfigs = oConfigs || {};
// Point to one of the subclasses, first by dataType if given, then by sniffing oLiveData type.
var dataType = oConfigs.dataType;
if(dataType) {
if(dataType == DS.TYPE_LOCAL) {
lang.augmentObject(util.DataSource, util.LocalDataSource);
return new util.LocalDataSource(oLiveData, oConfigs);
}
else if(dataType == DS.TYPE_XHR) {
lang.augmentObject(util.DataSource, util.XHRDataSource);
return new util.XHRDataSource(oLiveData, oConfigs);
}
else if(dataType == DS.TYPE_SCRIPTNODE) {
lang.augmentObject(util.DataSource, util.ScriptNodeDataSource);
return new util.ScriptNodeDataSource(oLiveData, oConfigs);
}
else if(dataType == DS.TYPE_JSFUNCTION) {
lang.augmentObject(util.DataSource, util.FunctionDataSource);
return new util.FunctionDataSource(oLiveData, oConfigs);
}
}
if(YAHOO.lang.isString(oLiveData)) { // strings default to xhr
lang.augmentObject(util.DataSource, util.XHRDataSource);
return new util.XHRDataSource(oLiveData, oConfigs);
}
else if(YAHOO.lang.isFunction(oLiveData)) {
lang.augmentObject(util.DataSource, util.FunctionDataSource);
return new util.FunctionDataSource(oLiveData, oConfigs);
}
else { // ultimate default is local
lang.augmentObject(util.DataSource, util.LocalDataSource);
return new util.LocalDataSource(oLiveData, oConfigs);
}
};
// Copy static members to DataSource class
lang.augmentObject(util.DataSource, DS);
})();
/****************************************************************************/
/****************************************************************************/
/****************************************************************************/
/**
* The static Number class provides helper functions to deal with data of type
* Number.
*
* @namespace YAHOO.util
* @requires yahoo
* @class Number
* @static
*/
YAHOO.util.Number = {
/**
* Takes a native JavaScript Number and formats to string for display to user.
*
* @method format
* @param nData {Number} Number.
* @param oConfig {Object} (Optional) Optional configuration values:
* <dl>
* <dt>prefix {String}</dd>
* <dd>String prepended before each number, like a currency designator "$"</dd>
* <dt>decimalPlaces {Number}</dd>
* <dd>Number of decimal places to round.</dd>
* <dt>decimalSeparator {String}</dd>
* <dd>Decimal separator</dd>
* <dt>thousandsSeparator {String}</dd>
* <dd>Thousands separator</dd>
* <dt>suffix {String}</dd>
* <dd>String appended after each number, like " items" (note the space)</dd>
* <dt>negativeFormat</dt>
* <dd>String used as a guide for how to indicate negative numbers. The first '#' character in the string will be replaced by the number. Default '-#'.</dd>
* </dl>
* @return {String} Formatted number for display. Note, the following values
* return as "": null, undefined, NaN, "".
*/
format : function(n, cfg) {
if (!isFinite(+n)) {
return '';
}
n = !isFinite(+n) ? 0 : +n;
cfg = YAHOO.lang.merge(YAHOO.util.Number.format.defaults, (cfg || {}));
var neg = n < 0, absN = Math.abs(n),
places = cfg.decimalPlaces,
sep = cfg.thousandsSeparator,
s, bits, i;
if (places < 0) {
// Get rid of the decimal info
s = absN - (absN % 1) + '';
i = s.length + places;
// avoid 123 vs decimalPlaces -4 (should return "0")
if (i > 0) {
// leverage toFixed by making 123 => 0.123 for the rounding
// operation, then add the appropriate number of zeros back on
s = Number('.' + s).toFixed(i).slice(2) +
new Array(s.length - i + 1).join('0');
} else {
s = "0";
}
} else { // There is a bug in IE's toFixed implementation:
// for n in {(-0.94, -0.5], [0.5, 0.94)} n.toFixed() returns 0
// instead of -1 and 1. Manually handle that case.
s = absN < 1 && absN >= 0.5 && !places ? '1' : absN.toFixed(places);
}
if (absN > 1000) {
bits = s.split(/\D/);
i = bits[0].length % 3 || 3;
bits[0] = bits[0].slice(0,i) +
bits[0].slice(i).replace(/(\d{3})/g, sep + '$1');
s = bits.join(cfg.decimalSeparator);
}
s = cfg.prefix + s + cfg.suffix;
return neg ? cfg.negativeFormat.replace(/#/,s) : s;
}
};
YAHOO.util.Number.format.defaults = {
decimalSeparator : '.',
decimalPlaces : null,
thousandsSeparator : '',
prefix : '',
suffix : '',
negativeFormat : '-#'
};
/****************************************************************************/
/****************************************************************************/
/****************************************************************************/
(function () {
var xPad=function (x, pad, r)
{
if(typeof r === 'undefined')
{
r=10;
}
for( ; parseInt(x, 10)<r && r>1; r/=10) {
x = pad.toString() + x;
}
return x.toString();
};
/**
* The static Date class provides helper functions to deal with data of type Date.
*
* @namespace YAHOO.util
* @requires yahoo
* @class Date
* @static
*/
var Dt = {
formats: {
a: function (d, l) { return l.a[d.getDay()]; },
A: function (d, l) { return l.A[d.getDay()]; },
b: function (d, l) { return l.b[d.getMonth()]; },
B: function (d, l) { return l.B[d.getMonth()]; },
C: function (d) { return xPad(parseInt(d.getFullYear()/100, 10), 0); },
d: ['getDate', '0'],
e: ['getDate', ' '],
g: function (d) { return xPad(parseInt(Dt.formats.G(d)%100, 10), 0); },
G: function (d) {
var y = d.getFullYear();
var V = parseInt(Dt.formats.V(d), 10);
var W = parseInt(Dt.formats.W(d), 10);
if(W > V) {
y++;
} else if(W===0 && V>=52) {
y--;
}
return y;
},
H: ['getHours', '0'],
I: function (d) { var I=d.getHours()%12; return xPad(I===0?12:I, 0); },
j: function (d) {
var gmd_1 = new Date('' + d.getFullYear() + '/1/1 GMT');
var gmdate = new Date('' + d.getFullYear() + '/' + (d.getMonth()+1) + '/' + d.getDate() + ' GMT');
var ms = gmdate - gmd_1;
var doy = parseInt(ms/60000/60/24, 10)+1;
return xPad(doy, 0, 100);
},
k: ['getHours', ' '],
l: function (d) { var I=d.getHours()%12; return xPad(I===0?12:I, ' '); },
m: function (d) { return xPad(d.getMonth()+1, 0); },
M: ['getMinutes', '0'],
p: function (d, l) { return l.p[d.getHours() >= 12 ? 1 : 0 ]; },
P: function (d, l) { return l.P[d.getHours() >= 12 ? 1 : 0 ]; },
s: function (d, l) { return parseInt(d.getTime()/1000, 10); },
S: ['getSeconds', '0'],
u: function (d) { var dow = d.getDay(); return dow===0?7:dow; },
U: function (d) {
var doy = parseInt(Dt.formats.j(d), 10);
var rdow = 6-d.getDay();
var woy = parseInt((doy+rdow)/7, 10);
return xPad(woy, 0);
},
V: function (d) {
var woy = parseInt(Dt.formats.W(d), 10);
var dow1_1 = (new Date('' + d.getFullYear() + '/1/1')).getDay();
// First week is 01 and not 00 as in the case of %U and %W,
// so we add 1 to the final result except if day 1 of the year
// is a Monday (then %W returns 01).
// We also need to subtract 1 if the day 1 of the year is
// Friday-Sunday, so the resulting equation becomes:
var idow = woy + (dow1_1 > 4 || dow1_1 <= 1 ? 0 : 1);
if(idow === 53 && (new Date('' + d.getFullYear() + '/12/31')).getDay() < 4)
{
idow = 1;
}
else if(idow === 0)
{
idow = Dt.formats.V(new Date('' + (d.getFullYear()-1) + '/12/31'));
}
return xPad(idow, 0);
},
w: 'getDay',
W: function (d) {
var doy = parseInt(Dt.formats.j(d), 10);
var rdow = 7-Dt.formats.u(d);
var woy = parseInt((doy+rdow)/7, 10);
return xPad(woy, 0, 10);
},
y: function (d) { return xPad(d.getFullYear()%100, 0); },
Y: 'getFullYear',
z: function (d) {
var o = d.getTimezoneOffset();
var H = xPad(parseInt(Math.abs(o/60), 10), 0);
var M = xPad(Math.abs(o%60), 0);
return (o>0?'-':'+') + H + M;
},
Z: function (d) {
var tz = d.toString().replace(/^.*:\d\d( GMT[+-]\d+)? \(?([A-Za-z ]+)\)?\d*$/, '$2').replace(/[a-z ]/g, '');
if(tz.length > 4) {
tz = Dt.formats.z(d);
}
return tz;
},
'%': function (d) { return '%'; }
},
aggregates: {
c: 'locale',
D: '%m/%d/%y',
F: '%Y-%m-%d',
h: '%b',
n: '\n',
r: 'locale',
R: '%H:%M',
t: '\t',
T: '%H:%M:%S',
x: 'locale',
X: 'locale'
//'+': '%a %b %e %T %Z %Y'
},
/**
* Takes a native JavaScript Date and formats to string for display to user.
*
* @method format
* @param oDate {Date} Date.
* @param oConfig {Object} (Optional) Object literal of configuration values:
* <dl>
* <dt>format &lt;String&gt;</dt>
* <dd>
* <p>
* Any strftime string is supported, such as "%I:%M:%S %p". strftime has several format specifiers defined by the Open group at
* <a href="http://www.opengroup.org/onlinepubs/007908799/xsh/strftime.html">http://www.opengroup.org/onlinepubs/007908799/xsh/strftime.html</a>
* </p>
* <p>
* PHP added a few of its own, defined at <a href="http://www.php.net/strftime">http://www.php.net/strftime</a>
* </p>
* <p>
* This javascript implementation supports all the PHP specifiers and a few more. The full list is below:
* </p>
* <dl>
* <dt>%a</dt> <dd>abbreviated weekday name according to the current locale</dd>
* <dt>%A</dt> <dd>full weekday name according to the current locale</dd>
* <dt>%b</dt> <dd>abbreviated month name according to the current locale</dd>
* <dt>%B</dt> <dd>full month name according to the current locale</dd>
* <dt>%c</dt> <dd>preferred date and time representation for the current locale</dd>
* <dt>%C</dt> <dd>century number (the year divided by 100 and truncated to an integer, range 00 to 99)</dd>
* <dt>%d</dt> <dd>day of the month as a decimal number (range 01 to 31)</dd>
* <dt>%D</dt> <dd>same as %m/%d/%y</dd>
* <dt>%e</dt> <dd>day of the month as a decimal number, a single digit is preceded by a space (range ' 1' to '31')</dd>
* <dt>%F</dt> <dd>same as %Y-%m-%d (ISO 8601 date format)</dd>
* <dt>%g</dt> <dd>like %G, but without the century</dd>
* <dt>%G</dt> <dd>The 4-digit year corresponding to the ISO week number</dd>
* <dt>%h</dt> <dd>same as %b</dd>
* <dt>%H</dt> <dd>hour as a decimal number using a 24-hour clock (range 00 to 23)</dd>
* <dt>%I</dt> <dd>hour as a decimal number using a 12-hour clock (range 01 to 12)</dd>
* <dt>%j</dt> <dd>day of the year as a decimal number (range 001 to 366)</dd>
* <dt>%k</dt> <dd>hour as a decimal number using a 24-hour clock (range 0 to 23); single digits are preceded by a blank. (See also %H.)</dd>
* <dt>%l</dt> <dd>hour as a decimal number using a 12-hour clock (range 1 to 12); single digits are preceded by a blank. (See also %I.) </dd>
* <dt>%m</dt> <dd>month as a decimal number (range 01 to 12)</dd>
* <dt>%M</dt> <dd>minute as a decimal number</dd>
* <dt>%n</dt> <dd>newline character</dd>
* <dt>%p</dt> <dd>either `AM' or `PM' according to the given time value, or the corresponding strings for the current locale</dd>
* <dt>%P</dt> <dd>like %p, but lower case</dd>
* <dt>%r</dt> <dd>time in a.m. and p.m. notation equal to %I:%M:%S %p</dd>
* <dt>%R</dt> <dd>time in 24 hour notation equal to %H:%M</dd>
* <dt>%s</dt> <dd>number of seconds since the Epoch, ie, since 1970-01-01 00:00:00 UTC</dd>
* <dt>%S</dt> <dd>second as a decimal number</dd>
* <dt>%t</dt> <dd>tab character</dd>
* <dt>%T</dt> <dd>current time, equal to %H:%M:%S</dd>
* <dt>%u</dt> <dd>weekday as a decimal number [1,7], with 1 representing Monday</dd>
* <dt>%U</dt> <dd>week number of the current year as a decimal number, starting with the
* first Sunday as the first day of the first week</dd>
* <dt>%V</dt> <dd>The ISO 8601:1988 week number of the current year as a decimal number,
* range 01 to 53, where week 1 is the first week that has at least 4 days
* in the current year, and with Monday as the first day of the week.</dd>
* <dt>%w</dt> <dd>day of the week as a decimal, Sunday being 0</dd>
* <dt>%W</dt> <dd>week number of the current year as a decimal number, starting with the
* first Monday as the first day of the first week</dd>
* <dt>%x</dt> <dd>preferred date representation for the current locale without the time</dd>
* <dt>%X</dt> <dd>preferred time representation for the current locale without the date</dd>
* <dt>%y</dt> <dd>year as a decimal number without a century (range 00 to 99)</dd>
* <dt>%Y</dt> <dd>year as a decimal number including the century</dd>
* <dt>%z</dt> <dd>numerical time zone representation</dd>
* <dt>%Z</dt> <dd>time zone name or abbreviation</dd>
* <dt>%%</dt> <dd>a literal `%' character</dd>
* </dl>
* </dd>
* </dl>
* @param sLocale {String} (Optional) The locale to use when displaying days of week,
* months of the year, and other locale specific strings. The following locales are
* built in:
* <dl>
* <dt>en</dt>
* <dd>English</dd>
* <dt>en-US</dt>
* <dd>US English</dd>
* <dt>en-GB</dt>
* <dd>British English</dd>
* <dt>en-AU</dt>
* <dd>Australian English (identical to British English)</dd>
* </dl>
* More locales may be added by subclassing of YAHOO.util.DateLocale.
* See YAHOO.util.DateLocale for more information.
* @return {String} Formatted date for display.
* @sa YAHOO.util.DateLocale
*/
format : function (oDate, oConfig, sLocale) {
oConfig = oConfig || {};
if(!(oDate instanceof Date)) {
return YAHOO.lang.isValue(oDate) ? oDate : "";
}
var format = oConfig.format || "%m/%d/%Y";
// Be backwards compatible, support strings that are
// exactly equal to YYYY/MM/DD, DD/MM/YYYY and MM/DD/YYYY
if(format === 'YYYY/MM/DD') {
format = '%Y/%m/%d';
} else if(format === 'DD/MM/YYYY') {
format = '%d/%m/%Y';
} else if(format === 'MM/DD/YYYY') {
format = '%m/%d/%Y';
}
// end backwards compatibility block
sLocale = sLocale || "en";
// Make sure we have a definition for the requested locale, or default to en.
if(!(sLocale in YAHOO.util.DateLocale)) {
if(sLocale.replace(/-[a-zA-Z]+$/, '') in YAHOO.util.DateLocale) {
sLocale = sLocale.replace(/-[a-zA-Z]+$/, '');
} else {
sLocale = "en";
}
}
var aLocale = YAHOO.util.DateLocale[sLocale];
var replace_aggs = function (m0, m1) {
var f = Dt.aggregates[m1];
return (f === 'locale' ? aLocale[m1] : f);
};
var replace_formats = function (m0, m1) {
var f = Dt.formats[m1];
if(typeof f === 'string') { // string => built in date function
return oDate[f]();
} else if(typeof f === 'function') { // function => our own function
return f.call(oDate, oDate, aLocale);
} else if(typeof f === 'object' && typeof f[0] === 'string') { // built in function with padding
return xPad(oDate[f[0]](), f[1]);
} else {
return m1;
}
};
// First replace aggregates (run in a loop because an agg may be made up of other aggs)
while(format.match(/%[cDFhnrRtTxX]/)) {
format = format.replace(/%([cDFhnrRtTxX])/g, replace_aggs);
}
// Now replace formats (do not run in a loop otherwise %%a will be replace with the value of %a)
var str = format.replace(/%([aAbBCdegGHIjklmMpPsSuUVwWyYzZ%])/g, replace_formats);
replace_aggs = replace_formats = undefined;
return str;
}
};
YAHOO.namespace("YAHOO.util");
YAHOO.util.Date = Dt;
/**
* The DateLocale class is a container and base class for all
* localised date strings used by YAHOO.util.Date. It is used
* internally, but may be extended to provide new date localisations.
*
* To create your own DateLocale, follow these steps:
* <ol>
* <li>Find an existing locale that matches closely with your needs</li>
* <li>Use this as your base class. Use YAHOO.util.DateLocale if nothing
* matches.</li>
* <li>Create your own class as an extension of the base class using
* YAHOO.lang.merge, and add your own localisations where needed.</li>
* </ol>
* See the YAHOO.util.DateLocale['en-US'] and YAHOO.util.DateLocale['en-GB']
* classes which extend YAHOO.util.DateLocale['en'].
*
* For example, to implement locales for French french and Canadian french,
* we would do the following:
* <ol>
* <li>For French french, we have no existing similar locale, so use
* YAHOO.util.DateLocale as the base, and extend it:
* <pre>
* YAHOO.util.DateLocale['fr'] = YAHOO.lang.merge(YAHOO.util.DateLocale, {
* a: ['dim', 'lun', 'mar', 'mer', 'jeu', 'ven', 'sam'],
* A: ['dimanche', 'lundi', 'mardi', 'mercredi', 'jeudi', 'vendredi', 'samedi'],
* b: ['jan', 'f&eacute;v', 'mar', 'avr', 'mai', 'jun', 'jui', 'ao&ucirc;', 'sep', 'oct', 'nov', 'd&eacute;c'],
* B: ['janvier', 'f&eacute;vrier', 'mars', 'avril', 'mai', 'juin', 'juillet', 'ao&ucirc;t', 'septembre', 'octobre', 'novembre', 'd&eacute;cembre'],
* c: '%a %d %b %Y %T %Z',
* p: ['', ''],
* P: ['', ''],
* x: '%d.%m.%Y',
* X: '%T'
* });
* </pre>
* </li>
* <li>For Canadian french, we start with French french and change the meaning of \%x:
* <pre>
* YAHOO.util.DateLocale['fr-CA'] = YAHOO.lang.merge(YAHOO.util.DateLocale['fr'], {
* x: '%Y-%m-%d'
* });
* </pre>
* </li>
* </ol>
*
* With that, you can use your new locales:
* <pre>
* var d = new Date("2008/04/22");
* YAHOO.util.Date.format(d, {format: "%A, %d %B == %x"}, "fr");
* </pre>
* will return:
* <pre>
* mardi, 22 avril == 22.04.2008
* </pre>
* And
* <pre>
* YAHOO.util.Date.format(d, {format: "%A, %d %B == %x"}, "fr-CA");
* </pre>
* Will return:
* <pre>
* mardi, 22 avril == 2008-04-22
* </pre>
* @namespace YAHOO.util
* @requires yahoo
* @class DateLocale
*/
YAHOO.util.DateLocale = {
a: ['Sun', 'Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat'],
A: ['Sunday', 'Monday', 'Tuesday', 'Wednesday', 'Thursday', 'Friday', 'Saturday'],
b: ['Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec'],
B: ['January', 'February', 'March', 'April', 'May', 'June', 'July', 'August', 'September', 'October', 'November', 'December'],
c: '%a %d %b %Y %T %Z',
p: ['AM', 'PM'],
P: ['am', 'pm'],
r: '%I:%M:%S %p',
x: '%d/%m/%y',
X: '%T'
};
YAHOO.util.DateLocale['en'] = YAHOO.lang.merge(YAHOO.util.DateLocale, {});
YAHOO.util.DateLocale['en-US'] = YAHOO.lang.merge(YAHOO.util.DateLocale['en'], {
c: '%a %d %b %Y %I:%M:%S %p %Z',
x: '%m/%d/%Y',
X: '%I:%M:%S %p'
});
YAHOO.util.DateLocale['en-GB'] = YAHOO.lang.merge(YAHOO.util.DateLocale['en'], {
r: '%l:%M:%S %P %Z'
});
YAHOO.util.DateLocale['en-AU'] = YAHOO.lang.merge(YAHOO.util.DateLocale['en']);
})();
YAHOO.register("datasource", YAHOO.util.DataSource, {version: "2.8.0r4", build: "2449"});