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/*
This file is part of Ext JS 4.2
Copyright (c) 2011-2013 Sencha Inc
Contact: http://www.sencha.com/contact
GNU General Public License Usage
This file may be used under the terms of the GNU General Public License version 3.0 as
published by the Free Software Foundation and appearing in the file LICENSE included in the
packaging of this file.
Please review the following information to ensure the GNU General Public License version 3.0
requirements will be met: http://www.gnu.org/copyleft/gpl.html.
If you are unsure which license is appropriate for your use, please contact the sales department
at http://www.sencha.com/contact.
Build date: 2013-05-16 14:36:50 (f9be68accb407158ba2b1be2c226a6ce1f649314)
*/
// @tag foundation,core
// @require Object.js
// @define Ext.Date
/**
* @class Ext.Date
* A set of useful static methods to deal with date
* Note that if Ext.Date is required and loaded, it will copy all methods / properties to
* this object for convenience
*
* The date parsing and formatting syntax contains a subset of
* [PHP's `date()` function](http://www.php.net/date), and the formats that are
* supported will provide results equivalent to their PHP versions.
*
* The following is a list of all currently supported formats:
* <pre class="">
Format Description Example returned values
------ ----------------------------------------------------------------------- -----------------------
d Day of the month, 2 digits with leading zeros 01 to 31
D A short textual representation of the day of the week Mon to Sun
j Day of the month without leading zeros 1 to 31
l A full textual representation of the day of the week Sunday to Saturday
N ISO-8601 numeric representation of the day of the week 1 (for Monday) through 7 (for Sunday)
S English ordinal suffix for the day of the month, 2 characters st, nd, rd or th. Works well with j
w Numeric representation of the day of the week 0 (for Sunday) to 6 (for Saturday)
z The day of the year (starting from 0) 0 to 364 (365 in leap years)
W ISO-8601 week number of year, weeks starting on Monday 01 to 53
F A full textual representation of a month, such as January or March January to December
m Numeric representation of a month, with leading zeros 01 to 12
M A short textual representation of a month Jan to Dec
n Numeric representation of a month, without leading zeros 1 to 12
t Number of days in the given month 28 to 31
L Whether it's a leap year 1 if it is a leap year, 0 otherwise.
o ISO-8601 year number (identical to (Y), but if the ISO week number (W) Examples: 1998 or 2004
belongs to the previous or next year, that year is used instead)
Y A full numeric representation of a year, 4 digits Examples: 1999 or 2003
y A two digit representation of a year Examples: 99 or 03
a Lowercase Ante meridiem and Post meridiem am or pm
A Uppercase Ante meridiem and Post meridiem AM or PM
g 12-hour format of an hour without leading zeros 1 to 12
G 24-hour format of an hour without leading zeros 0 to 23
h 12-hour format of an hour with leading zeros 01 to 12
H 24-hour format of an hour with leading zeros 00 to 23
i Minutes, with leading zeros 00 to 59
s Seconds, with leading zeros 00 to 59
u Decimal fraction of a second Examples:
(minimum 1 digit, arbitrary number of digits allowed) 001 (i.e. 0.001s) or
100 (i.e. 0.100s) or
999 (i.e. 0.999s) or
999876543210 (i.e. 0.999876543210s)
O Difference to Greenwich time (GMT) in hours and minutes Example: +1030
P Difference to Greenwich time (GMT) with colon between hours and minutes Example: -08:00
T Timezone abbreviation of the machine running the code Examples: EST, MDT, PDT ...
Z Timezone offset in seconds (negative if west of UTC, positive if east) -43200 to 50400
c ISO 8601 date
Notes: Examples:
1) If unspecified, the month / day defaults to the current month / day, 1991 or
the time defaults to midnight, while the timezone defaults to the 1992-10 or
browser's timezone. If a time is specified, it must include both hours 1993-09-20 or
and minutes. The "T" delimiter, seconds, milliseconds and timezone 1994-08-19T16:20+01:00 or
are optional. 1995-07-18T17:21:28-02:00 or
2) The decimal fraction of a second, if specified, must contain at 1996-06-17T18:22:29.98765+03:00 or
least 1 digit (there is no limit to the maximum number 1997-05-16T19:23:30,12345-0400 or
of digits allowed), and may be delimited by either a '.' or a ',' 1998-04-15T20:24:31.2468Z or
Refer to the examples on the right for the various levels of 1999-03-14T20:24:32Z or
date-time granularity which are supported, or see 2000-02-13T21:25:33
http://www.w3.org/TR/NOTE-datetime for more info. 2001-01-12 22:26:34
U Seconds since the Unix Epoch (January 1 1970 00:00:00 GMT) 1193432466 or -2138434463
MS Microsoft AJAX serialized dates \/Date(1238606590509)\/ (i.e. UTC milliseconds since epoch) or
\/Date(1238606590509+0800)\/
time A javascript millisecond timestamp 1350024476440
timestamp A UNIX timestamp (same as U) 1350024866
</pre>
*
* Example usage (note that you must escape format specifiers with '\\' to render them as character literals):
*
* // Sample date:
* // 'Wed Jan 10 2007 15:05:01 GMT-0600 (Central Standard Time)'
*
* var dt = new Date('1/10/2007 03:05:01 PM GMT-0600');
* console.log(Ext.Date.format(dt, 'Y-m-d')); // 2007-01-10
* console.log(Ext.Date.format(dt, 'F j, Y, g:i a')); // January 10, 2007, 3:05 pm
* console.log(Ext.Date.format(dt, 'l, \\t\\he jS \\of F Y h:i:s A')); // Wednesday, the 10th of January 2007 03:05:01 PM
*
* Here are some standard date/time patterns that you might find helpful. They
* are not part of the source of Ext.Date, but to use them you can simply copy this
* block of code into any script that is included after Ext.Date and they will also become
* globally available on the Date object. Feel free to add or remove patterns as needed in your code.
*
* Ext.Date.patterns = {
* ISO8601Long:"Y-m-d H:i:s",
* ISO8601Short:"Y-m-d",
* ShortDate: "n/j/Y",
* LongDate: "l, F d, Y",
* FullDateTime: "l, F d, Y g:i:s A",
* MonthDay: "F d",
* ShortTime: "g:i A",
* LongTime: "g:i:s A",
* SortableDateTime: "Y-m-d\\TH:i:s",
* UniversalSortableDateTime: "Y-m-d H:i:sO",
* YearMonth: "F, Y"
* };
*
* Example usage:
*
* var dt = new Date();
* console.log(Ext.Date.format(dt, Ext.Date.patterns.ShortDate));
*
* Developer-written, custom formats may be used by supplying both a formatting and a parsing function
* which perform to specialized requirements. The functions are stored in {@link #parseFunctions} and {@link #formatFunctions}.
* @singleton
*/
/*
* Most of the date-formatting functions below are the excellent work of Baron Schwartz.
* (see http://www.xaprb.com/blog/2005/12/12/javascript-closures-for-runtime-efficiency/)
* They generate precompiled functions from format patterns instead of parsing and
* processing each pattern every time a date is formatted. These functions are available
* on every Date object.
*/
Ext.Date = new function() {
var utilDate = this,
stripEscapeRe = /(\\.)/g,
hourInfoRe = /([gGhHisucUOPZ]|MS)/,
dateInfoRe = /([djzmnYycU]|MS)/,
slashRe = /\\/gi,
numberTokenRe = /\{(\d+)\}/g,
MSFormatRe = new RegExp('\\/Date\\(([-+])?(\\d+)(?:[+-]\\d{4})?\\)\\/'),
code = [
// date calculations (note: the code below creates a dependency on Ext.Number.from())
"var me = this, dt, y, m, d, h, i, s, ms, o, O, z, zz, u, v, W, year, jan4, week1monday, daysInMonth, dayMatched,",
"def = me.defaults,",
"from = Ext.Number.from,",
"results = String(input).match(me.parseRegexes[{0}]);", // either null, or an array of matched strings
"if(results){",
"{1}",
"if(u != null){", // i.e. unix time is defined
"v = new Date(u * 1000);", // give top priority to UNIX time
"}else{",
// create Date object representing midnight of the current day;
// this will provide us with our date defaults
// (note: clearTime() handles Daylight Saving Time automatically)
"dt = me.clearTime(new Date);",
"y = from(y, from(def.y, dt.getFullYear()));",
"m = from(m, from(def.m - 1, dt.getMonth()));",
"dayMatched = d !== undefined;",
"d = from(d, from(def.d, dt.getDate()));",
// Attempt to validate the day. Since it defaults to today, it may go out
// of range, for example parsing m/Y where the value is 02/2000 on the 31st of May.
// It will attempt to parse 2000/02/31, which will overflow to March and end up
// returning 03/2000. We only do this when we default the day. If an invalid day value
// was set to be parsed by the user, continue on and either let it overflow or return null
// depending on the strict value. This will be in line with the normal Date behaviour.
"if (!dayMatched) {",
"dt.setDate(1);",
"dt.setMonth(m);",
"dt.setFullYear(y);",
"daysInMonth = me.getDaysInMonth(dt);",
"if (d > daysInMonth) {",
"d = daysInMonth;",
"}",
"}",
"h = from(h, from(def.h, dt.getHours()));",
"i = from(i, from(def.i, dt.getMinutes()));",
"s = from(s, from(def.s, dt.getSeconds()));",
"ms = from(ms, from(def.ms, dt.getMilliseconds()));",
"if(z >= 0 && y >= 0){",
// both the year and zero-based day of year are defined and >= 0.
// these 2 values alone provide sufficient info to create a full date object
// create Date object representing January 1st for the given year
// handle years < 100 appropriately
"v = me.add(new Date(y < 100 ? 100 : y, 0, 1, h, i, s, ms), me.YEAR, y < 100 ? y - 100 : 0);",
// then add day of year, checking for Date "rollover" if necessary
"v = !strict? v : (strict === true && (z <= 364 || (me.isLeapYear(v) && z <= 365))? me.add(v, me.DAY, z) : null);",
"}else if(strict === true && !me.isValid(y, m + 1, d, h, i, s, ms)){", // check for Date "rollover"
"v = null;", // invalid date, so return null
"}else{",
"if (W) {", // support ISO-8601
// http://en.wikipedia.org/wiki/ISO_week_date
//
// Mutually equivalent definitions for week 01 are:
// a. the week starting with the Monday which is nearest in time to 1 January
// b. the week with 4 January in it
// ... there are many others ...
//
// We'll use letter b above to determine the first week of the year.
//
// So, first get a Date object for January 4th of whatever calendar year is desired.
//
// Then, the first Monday of the year can easily be determined by (operating on this Date):
// 1. Getting the day of the week.
// 2. Subtracting that by one.
// 3. Multiplying that by 86400000 (one day in ms).
// 4. Subtracting this number of days (in ms) from the January 4 date (represented in ms).
//
// Example #1 ...
//
// January 2012
// Su Mo Tu We Th Fr Sa
// 1 2 3 4 5 6 7
// 8 9 10 11 12 13 14
// 15 16 17 18 19 20 21
// 22 23 24 25 26 27 28
// 29 30 31
//
// 1. January 4th is a Wednesday.
// 2. Its day number is 3.
// 3. Simply substract 2 days from Wednesday.
// 4. The first week of the year begins on Monday, January 2. Simple!
//
// Example #2 ...
// January 1992
// Su Mo Tu We Th Fr Sa
// 1 2 3 4
// 5 6 7 8 9 10 11
// 12 13 14 15 16 17 18
// 19 20 21 22 23 24 25
// 26 27 28 29 30 31
//
// 1. January 4th is a Saturday.
// 2. Its day number is 6.
// 3. Simply subtract 5 days from Saturday.
// 4. The first week of the year begins on Monday, December 30. Simple!
//
// v = Ext.Date.clearTime(new Date(week1monday.getTime() + ((W - 1) * 604800000)));
// (This is essentially doing the same thing as above but for the week rather than the day)
"year = y || (new Date()).getFullYear(),",
"jan4 = new Date(year, 0, 4, 0, 0, 0),",
"week1monday = new Date(jan4.getTime() - ((jan4.getDay() - 1) * 86400000));",
"v = Ext.Date.clearTime(new Date(week1monday.getTime() + ((W - 1) * 604800000)));",
"} else {",
// plain old Date object
// handle years < 100 properly
"v = me.add(new Date(y < 100 ? 100 : y, m, d, h, i, s, ms), me.YEAR, y < 100 ? y - 100 : 0);",
"}",
"}",
"}",
"}",
"if(v){",
// favor UTC offset over GMT offset
"if(zz != null){",
// reset to UTC, then add offset
"v = me.add(v, me.SECOND, -v.getTimezoneOffset() * 60 - zz);",
"}else if(o){",
// reset to GMT, then add offset
"v = me.add(v, me.MINUTE, -v.getTimezoneOffset() + (sn == '+'? -1 : 1) * (hr * 60 + mn));",
"}",
"}",
"return v;"
].join('\n');
// create private copy of Ext JS's `Ext.util.Format.format()` method
// - to remove unnecessary dependency
// - to resolve namespace conflict with MS-Ajax's implementation
function xf(format) {
var args = Array.prototype.slice.call(arguments, 1);
return format.replace(numberTokenRe, function(m, i) {
return args[i];
});
}
Ext.apply(utilDate, {
/**
* Returns the current timestamp.
* @return {Number} Milliseconds since UNIX epoch.
* @method
*/
now: Date.now || function() {
return +new Date();
},
/**
* @private
* Private for now
*/
toString: function(date) {
var pad = Ext.String.leftPad;
return date.getFullYear() + "-"
+ pad(date.getMonth() + 1, 2, '0') + "-"
+ pad(date.getDate(), 2, '0') + "T"
+ pad(date.getHours(), 2, '0') + ":"
+ pad(date.getMinutes(), 2, '0') + ":"
+ pad(date.getSeconds(), 2, '0');
},
/**
* Returns the number of milliseconds between two dates.
* @param {Date} dateA The first date.
* @param {Date} [dateB=new Date()] (optional) The second date.
* @return {Number} The difference in milliseconds
*/
getElapsed: function(dateA, dateB) {
return Math.abs(dateA - (dateB || utilDate.now()));
},
/**
* Global flag which determines if strict date parsing should be used.
* Strict date parsing will not roll-over invalid dates, which is the
* default behavior of JavaScript Date objects.
* (see {@link #parse} for more information)
* @type Boolean
*/
useStrict: false,
// private
formatCodeToRegex: function(character, currentGroup) {
// Note: currentGroup - position in regex result array (see notes for Ext.Date.parseCodes below)
var p = utilDate.parseCodes[character];
if (p) {
p = typeof p == 'function'? p() : p;
utilDate.parseCodes[character] = p; // reassign function result to prevent repeated execution
}
return p ? Ext.applyIf({
c: p.c ? xf(p.c, currentGroup || "{0}") : p.c
}, p) : {
g: 0,
c: null,
s: Ext.String.escapeRegex(character) // treat unrecognized characters as literals
};
},
/**
* An object hash in which each property is a date parsing function. The property name is the
* format string which that function parses.
*
* This object is automatically populated with date parsing functions as
* date formats are requested for Ext standard formatting strings.
*
* Custom parsing functions may be inserted into this object, keyed by a name which from then on
* may be used as a format string to {@link #parse}.
*
* Example:
*
* Ext.Date.parseFunctions['x-date-format'] = myDateParser;
*
* A parsing function should return a Date object, and is passed the following parameters:<div class="mdetail-params"><ul>
* <li><code>date</code> : String<div class="sub-desc">The date string to parse.</div></li>
* <li><code>strict</code> : Boolean<div class="sub-desc">True to validate date strings while parsing
* (i.e. prevent JavaScript Date "rollover") (The default must be `false`).
* Invalid date strings should return `null` when parsed.</div></li>
* </ul></div>
*
* To enable Dates to also be _formatted_ according to that format, a corresponding
* formatting function must be placed into the {@link #formatFunctions} property.
* @property parseFunctions
* @type Object
*/
parseFunctions: {
"MS": function(input, strict) {
// note: the timezone offset is ignored since the MS Ajax server sends
// a UTC milliseconds-since-Unix-epoch value (negative values are allowed)
var r = (input || '').match(MSFormatRe);
return r ? new Date(((r[1] || '') + r[2]) * 1) : null;
},
"time": function(input, strict) {
var num = parseInt(input, 10);
if (num || num === 0) {
return new Date(num);
}
return null;
},
"timestamp": function(input, strict) {
var num = parseInt(input, 10);
if (num || num === 0) {
return new Date(num * 1000);
}
return null;
}
},
parseRegexes: [],
/**
* An object hash in which each property is a date formatting function. The property name is the
* format string which corresponds to the produced formatted date string.
*
* This object is automatically populated with date formatting functions as
* date formats are requested for Ext standard formatting strings.
*
* Custom formatting functions may be inserted into this object, keyed by a name which from then on
* may be used as a format string to {@link #format}.
*
* Example:
*
* Ext.Date.formatFunctions['x-date-format'] = myDateFormatter;
*
* A formatting function should return a string representation of the passed Date object, and is passed the following parameters:<div class="mdetail-params"><ul>
* <li><code>date</code> : Date<div class="sub-desc">The Date to format.</div></li>
* </ul></div>
*
* To enable date strings to also be _parsed_ according to that format, a corresponding
* parsing function must be placed into the {@link #parseFunctions} property.
* @property formatFunctions
* @type Object
*/
formatFunctions: {
"MS": function() {
// UTC milliseconds since Unix epoch (MS-AJAX serialized date format (MRSF))
return '\\/Date(' + this.getTime() + ')\\/';
},
"time": function(){
return this.getTime().toString();
},
"timestamp": function(){
return utilDate.format(this, 'U');
}
},
y2kYear : 50,
/**
* Date interval constant
* @type String
*/
MILLI : "ms",
/**
* Date interval constant
* @type String
*/
SECOND : "s",
/**
* Date interval constant
* @type String
*/
MINUTE : "mi",
/** Date interval constant
* @type String
*/
HOUR : "h",
/**
* Date interval constant
* @type String
*/
DAY : "d",
/**
* Date interval constant
* @type String
*/
MONTH : "mo",
/**
* Date interval constant
* @type String
*/
YEAR : "y",
/**
* An object hash containing default date values used during date parsing.
*
* The following properties are available:<div class="mdetail-params"><ul>
* <li><code>y</code> : Number<div class="sub-desc">The default year value. (defaults to undefined)</div></li>
* <li><code>m</code> : Number<div class="sub-desc">The default 1-based month value. (defaults to undefined)</div></li>
* <li><code>d</code> : Number<div class="sub-desc">The default day value. (defaults to undefined)</div></li>
* <li><code>h</code> : Number<div class="sub-desc">The default hour value. (defaults to undefined)</div></li>
* <li><code>i</code> : Number<div class="sub-desc">The default minute value. (defaults to undefined)</div></li>
* <li><code>s</code> : Number<div class="sub-desc">The default second value. (defaults to undefined)</div></li>
* <li><code>ms</code> : Number<div class="sub-desc">The default millisecond value. (defaults to undefined)</div></li>
* </ul></div>
*
* Override these properties to customize the default date values used by the {@link #parse} method.
*
* __Note:__ In countries which experience Daylight Saving Time (i.e. DST), the `h`, `i`, `s`
* and `ms` properties may coincide with the exact time in which DST takes effect.
* It is the responsibility of the developer to account for this.
*
* Example Usage:
*
* // set default day value to the first day of the month
* Ext.Date.defaults.d = 1;
*
* // parse a February date string containing only year and month values.
* // setting the default day value to 1 prevents weird date rollover issues
* // when attempting to parse the following date string on, for example, March 31st 2009.
* Ext.Date.parse('2009-02', 'Y-m'); // returns a Date object representing February 1st 2009
*
* @property defaults
* @type Object
*/
defaults: {},
//<locale type="array">
/**
* @property {String[]} dayNames
* An array of textual day names.
* Override these values for international dates.
*
* Example:
*
* Ext.Date.dayNames = [
* 'SundayInYourLang',
* 'MondayInYourLang'
* // ...
* ];
*/
dayNames : [
"Sunday",
"Monday",
"Tuesday",
"Wednesday",
"Thursday",
"Friday",
"Saturday"
],
//</locale>
//<locale type="array">
/**
* @property {String[]} monthNames
* An array of textual month names.
* Override these values for international dates.
*
* Example:
*
* Ext.Date.monthNames = [
* 'JanInYourLang',
* 'FebInYourLang'
* // ...
* ];
*/
monthNames : [
"January",
"February",
"March",
"April",
"May",
"June",
"July",
"August",
"September",
"October",
"November",
"December"
],
//</locale>
//<locale type="object">
/**
* @property {Object} monthNumbers
* An object hash of zero-based JavaScript month numbers (with short month names as keys. **Note:** keys are case-sensitive).
* Override these values for international dates.
*
* Example:
*
* Ext.Date.monthNumbers = {
* 'LongJanNameInYourLang': 0,
* 'ShortJanNameInYourLang':0,
* 'LongFebNameInYourLang':1,
* 'ShortFebNameInYourLang':1
* // ...
* };
*/
monthNumbers : {
January: 0,
Jan: 0,
February: 1,
Feb: 1,
March: 2,
Mar: 2,
April: 3,
Apr: 3,
May: 4,
June: 5,
Jun: 5,
July: 6,
Jul: 6,
August: 7,
Aug: 7,
September: 8,
Sep: 8,
October: 9,
Oct: 9,
November: 10,
Nov: 10,
December: 11,
Dec: 11
},
//</locale>
//<locale>
/**
* @property {String} defaultFormat
* The date format string that the {@link Ext.util.Format#dateRenderer}
* and {@link Ext.util.Format#date} functions use. See {@link Ext.Date} for details.
*
* This may be overridden in a locale file.
*/
defaultFormat : "m/d/Y",
//</locale>
//<locale type="function">
/**
* Get the short month name for the given month number.
* Override this function for international dates.
* @param {Number} month A zero-based JavaScript month number.
* @return {String} The short month name.
*/
getShortMonthName : function(month) {
return Ext.Date.monthNames[month].substring(0, 3);
},
//</locale>
//<locale type="function">
/**
* Get the short day name for the given day number.
* Override this function for international dates.
* @param {Number} day A zero-based JavaScript day number.
* @return {String} The short day name.
*/
getShortDayName : function(day) {
return Ext.Date.dayNames[day].substring(0, 3);
},
//</locale>
//<locale type="function">
/**
* Get the zero-based JavaScript month number for the given short/full month name.
* Override this function for international dates.
* @param {String} name The short/full month name.
* @return {Number} The zero-based JavaScript month number.
*/
getMonthNumber : function(name) {
// handle camel casing for English month names (since the keys for the Ext.Date.monthNumbers hash are case sensitive)
return Ext.Date.monthNumbers[name.substring(0, 1).toUpperCase() + name.substring(1, 3).toLowerCase()];
},
//</locale>
/**
* Checks if the specified format contains hour information
* @param {String} format The format to check
* @return {Boolean} True if the format contains hour information
* @method
*/
formatContainsHourInfo : function(format){
return hourInfoRe.test(format.replace(stripEscapeRe, ''));
},
/**
* Checks if the specified format contains information about
* anything other than the time.
* @param {String} format The format to check
* @return {Boolean} True if the format contains information about
* date/day information.
* @method
*/
formatContainsDateInfo : function(format){
return dateInfoRe.test(format.replace(stripEscapeRe, ''));
},
/**
* Removes all escaping for a date format string. In date formats,
* using a '\' can be used to escape special characters.
* @param {String} format The format to unescape
* @return {String} The unescaped format
* @method
*/
unescapeFormat: function(format) {
// Escape the format, since \ can be used to escape special
// characters in a date format. For example, in a Spanish
// locale the format may be: 'd \\de F \\de Y'
return format.replace(slashRe, '');
},
/**
* The base format-code to formatting-function hashmap used by the {@link #format} method.
* Formatting functions are strings (or functions which return strings) which
* will return the appropriate value when evaluated in the context of the Date object
* from which the {@link #format} method is called.
* Add to / override these mappings for custom date formatting.
*
* __Note:__ Ext.Date.format() treats characters as literals if an appropriate mapping cannot be found.
*
* Example:
*
* Ext.Date.formatCodes.x = "Ext.util.Format.leftPad(this.getDate(), 2, '0')";
* console.log(Ext.Date.format(new Date(), 'X'); // returns the current day of the month
* @type Object
*/
formatCodes : {
d: "Ext.String.leftPad(this.getDate(), 2, '0')",
D: "Ext.Date.getShortDayName(this.getDay())", // get localized short day name
j: "this.getDate()",
l: "Ext.Date.dayNames[this.getDay()]",
N: "(this.getDay() ? this.getDay() : 7)",
S: "Ext.Date.getSuffix(this)",
w: "this.getDay()",
z: "Ext.Date.getDayOfYear(this)",
W: "Ext.String.leftPad(Ext.Date.getWeekOfYear(this), 2, '0')",
F: "Ext.Date.monthNames[this.getMonth()]",
m: "Ext.String.leftPad(this.getMonth() + 1, 2, '0')",
M: "Ext.Date.getShortMonthName(this.getMonth())", // get localized short month name
n: "(this.getMonth() + 1)",
t: "Ext.Date.getDaysInMonth(this)",
L: "(Ext.Date.isLeapYear(this) ? 1 : 0)",
o: "(this.getFullYear() + (Ext.Date.getWeekOfYear(this) == 1 && this.getMonth() > 0 ? +1 : (Ext.Date.getWeekOfYear(this) >= 52 && this.getMonth() < 11 ? -1 : 0)))",
Y: "Ext.String.leftPad(this.getFullYear(), 4, '0')",
y: "('' + this.getFullYear()).substring(2, 4)",
a: "(this.getHours() < 12 ? 'am' : 'pm')",
A: "(this.getHours() < 12 ? 'AM' : 'PM')",
g: "((this.getHours() % 12) ? this.getHours() % 12 : 12)",
G: "this.getHours()",
h: "Ext.String.leftPad((this.getHours() % 12) ? this.getHours() % 12 : 12, 2, '0')",
H: "Ext.String.leftPad(this.getHours(), 2, '0')",
i: "Ext.String.leftPad(this.getMinutes(), 2, '0')",
s: "Ext.String.leftPad(this.getSeconds(), 2, '0')",
u: "Ext.String.leftPad(this.getMilliseconds(), 3, '0')",
O: "Ext.Date.getGMTOffset(this)",
P: "Ext.Date.getGMTOffset(this, true)",
T: "Ext.Date.getTimezone(this)",
Z: "(this.getTimezoneOffset() * -60)",
c: function() { // ISO-8601 -- GMT format
var c, code, i, l, e;
for (c = "Y-m-dTH:i:sP", code = [], i = 0, l = c.length; i < l; ++i) {
e = c.charAt(i);
code.push(e == "T" ? "'T'" : utilDate.getFormatCode(e)); // treat T as a character literal
}
return code.join(" + ");
},
/*
c: function() { // ISO-8601 -- UTC format
return [
"this.getUTCFullYear()", "'-'",
"Ext.util.Format.leftPad(this.getUTCMonth() + 1, 2, '0')", "'-'",
"Ext.util.Format.leftPad(this.getUTCDate(), 2, '0')",
"'T'",
"Ext.util.Format.leftPad(this.getUTCHours(), 2, '0')", "':'",
"Ext.util.Format.leftPad(this.getUTCMinutes(), 2, '0')", "':'",
"Ext.util.Format.leftPad(this.getUTCSeconds(), 2, '0')",
"'Z'"
].join(" + ");
},
*/
U: "Math.round(this.getTime() / 1000)"
},
/**
* Checks if the passed Date parameters will cause a JavaScript Date "rollover".
* @param {Number} year 4-digit year
* @param {Number} month 1-based month-of-year
* @param {Number} day Day of month
* @param {Number} hour (optional) Hour
* @param {Number} minute (optional) Minute
* @param {Number} second (optional) Second
* @param {Number} millisecond (optional) Millisecond
* @return {Boolean} `true` if the passed parameters do not cause a Date "rollover", `false` otherwise.
*/
isValid : function(y, m, d, h, i, s, ms) {
// setup defaults
h = h || 0;
i = i || 0;
s = s || 0;
ms = ms || 0;
// Special handling for year < 100
var dt = utilDate.add(new Date(y < 100 ? 100 : y, m - 1, d, h, i, s, ms), utilDate.YEAR, y < 100 ? y - 100 : 0);
return y == dt.getFullYear() &&
m == dt.getMonth() + 1 &&
d == dt.getDate() &&
h == dt.getHours() &&
i == dt.getMinutes() &&
s == dt.getSeconds() &&
ms == dt.getMilliseconds();
},
/**
* Parses the passed string using the specified date format.
* Note that this function expects normal calendar dates, meaning that months are 1-based (i.e. 1 = January).
* The {@link #defaults} hash will be used for any date value (i.e. year, month, day, hour, minute, second or millisecond)
* which cannot be found in the passed string. If a corresponding default date value has not been specified in the {@link #defaults} hash,
* the current date's year, month, day or DST-adjusted zero-hour time value will be used instead.
* Keep in mind that the input date string must precisely match the specified format string
* in order for the parse operation to be successful (failed parse operations return a null value).
*
* Example:
*
* //dt = Fri May 25 2007 (current date)
* var dt = new Date();
*
* //dt = Thu May 25 2006 (today's month/day in 2006)
* dt = Ext.Date.parse("2006", "Y");
*
* //dt = Sun Jan 15 2006 (all date parts specified)
* dt = Ext.Date.parse("2006-01-15", "Y-m-d");
*
* //dt = Sun Jan 15 2006 15:20:01
* dt = Ext.Date.parse("2006-01-15 3:20:01 PM", "Y-m-d g:i:s A");
*
* // attempt to parse Sun Feb 29 2006 03:20:01 in strict mode
* dt = Ext.Date.parse("2006-02-29 03:20:01", "Y-m-d H:i:s", true); // returns null
*
* @param {String} input The raw date string.
* @param {String} format The expected date string format.
* @param {Boolean} [strict=false] (optional) `true` to validate date strings while parsing (i.e. prevents JavaScript Date "rollover").
* Invalid date strings will return `null` when parsed.
* @return {Date} The parsed Date.
*/
parse : function(input, format, strict) {
var p = utilDate.parseFunctions;
if (p[format] == null) {
utilDate.createParser(format);
}
return p[format].call(utilDate, input, Ext.isDefined(strict) ? strict : utilDate.useStrict);
},
// Backwards compat
parseDate: function(input, format, strict){
return utilDate.parse(input, format, strict);
},
// private
getFormatCode : function(character) {
var f = utilDate.formatCodes[character];
if (f) {
f = typeof f == 'function'? f() : f;
utilDate.formatCodes[character] = f; // reassign function result to prevent repeated execution
}
// note: unknown characters are treated as literals
return f || ("'" + Ext.String.escape(character) + "'");
},
// private
createFormat : function(format) {
var code = [],
special = false,
ch = '',
i;
for (i = 0; i < format.length; ++i) {
ch = format.charAt(i);
if (!special && ch == "\\") {
special = true;
} else if (special) {
special = false;
code.push("'" + Ext.String.escape(ch) + "'");
} else {
code.push(utilDate.getFormatCode(ch));
}
}
utilDate.formatFunctions[format] = Ext.functionFactory("return " + code.join('+'));
},
// private
createParser : function(format) {
var regexNum = utilDate.parseRegexes.length,
currentGroup = 1,
calc = [],
regex = [],
special = false,
ch = "",
i = 0,
len = format.length,
atEnd = [],
obj;
for (; i < len; ++i) {
ch = format.charAt(i);
if (!special && ch == "\\") {
special = true;
} else if (special) {
special = false;
regex.push(Ext.String.escape(ch));
} else {
obj = utilDate.formatCodeToRegex(ch, currentGroup);
currentGroup += obj.g;
regex.push(obj.s);
if (obj.g && obj.c) {
if (obj.calcAtEnd) {
atEnd.push(obj.c);
} else {
calc.push(obj.c);
}
}
}
}
calc = calc.concat(atEnd);
utilDate.parseRegexes[regexNum] = new RegExp("^" + regex.join('') + "$", 'i');
utilDate.parseFunctions[format] = Ext.functionFactory("input", "strict", xf(code, regexNum, calc.join('')));
},
// private
parseCodes : {
/*
* Notes:
* g = {Number} calculation group (0 or 1. only group 1 contributes to date calculations.)
* c = {String} calculation method (required for group 1. null for group 0. {0} = currentGroup - position in regex result array)
* s = {String} regex pattern. all matches are stored in results[], and are accessible by the calculation mapped to 'c'
*/
d: {
g:1,
c:"d = parseInt(results[{0}], 10);\n",
s:"(3[0-1]|[1-2][0-9]|0[1-9])" // day of month with leading zeroes (01 - 31)
},
j: {
g:1,
c:"d = parseInt(results[{0}], 10);\n",
s:"(3[0-1]|[1-2][0-9]|[1-9])" // day of month without leading zeroes (1 - 31)
},
D: function() {
for (var a = [], i = 0; i < 7; a.push(utilDate.getShortDayName(i)), ++i); // get localised short day names
return {
g:0,
c:null,
s:"(?:" + a.join("|") +")"
};
},
l: function() {
return {
g:0,
c:null,
s:"(?:" + utilDate.dayNames.join("|") + ")"
};
},
N: {
g:0,
c:null,
s:"[1-7]" // ISO-8601 day number (1 (monday) - 7 (sunday))
},
//<locale type="object" property="parseCodes">
S: {
g:0,
c:null,
s:"(?:st|nd|rd|th)"
},
//</locale>
w: {
g:0,
c:null,
s:"[0-6]" // JavaScript day number (0 (sunday) - 6 (saturday))
},
z: {
g:1,
c:"z = parseInt(results[{0}], 10);\n",
s:"(\\d{1,3})" // day of the year (0 - 364 (365 in leap years))
},
W: {
g:1,
c:"W = parseInt(results[{0}], 10);\n",
s:"(\\d{2})" // ISO-8601 week number (with leading zero)
},
F: function() {
return {
g:1,
c:"m = parseInt(me.getMonthNumber(results[{0}]), 10);\n", // get localised month number
s:"(" + utilDate.monthNames.join("|") + ")"
};
},
M: function() {
for (var a = [], i = 0; i < 12; a.push(utilDate.getShortMonthName(i)), ++i); // get localised short month names
return Ext.applyIf({
s:"(" + a.join("|") + ")"
}, utilDate.formatCodeToRegex("F"));
},
m: {
g:1,
c:"m = parseInt(results[{0}], 10) - 1;\n",
s:"(1[0-2]|0[1-9])" // month number with leading zeros (01 - 12)
},
n: {
g:1,
c:"m = parseInt(results[{0}], 10) - 1;\n",
s:"(1[0-2]|[1-9])" // month number without leading zeros (1 - 12)
},
t: {
g:0,
c:null,
s:"(?:\\d{2})" // no. of days in the month (28 - 31)
},
L: {
g:0,
c:null,
s:"(?:1|0)"
},
o: {
g: 1,
c: "y = parseInt(results[{0}], 10);\n",
s: "(\\d{4})" // ISO-8601 year number (with leading zero)
},
Y: {
g:1,
c:"y = parseInt(results[{0}], 10);\n",
s:"(\\d{4})" // 4-digit year
},
y: {
g:1,
c:"var ty = parseInt(results[{0}], 10);\n"
+ "y = ty > me.y2kYear ? 1900 + ty : 2000 + ty;\n", // 2-digit year
s:"(\\d{1,2})"
},
/*
* In the am/pm parsing routines, we allow both upper and lower case
* even though it doesn't exactly match the spec. It gives much more flexibility
* in being able to specify case insensitive regexes.
*/
//<locale type="object" property="parseCodes">
a: {
g:1,
c:"if (/(am)/i.test(results[{0}])) {\n"
+ "if (!h || h == 12) { h = 0; }\n"
+ "} else { if (!h || h < 12) { h = (h || 0) + 12; }}",
s:"(am|pm|AM|PM)",
calcAtEnd: true
},
//</locale>
//<locale type="object" property="parseCodes">
A: {
g:1,
c:"if (/(am)/i.test(results[{0}])) {\n"
+ "if (!h || h == 12) { h = 0; }\n"
+ "} else { if (!h || h < 12) { h = (h || 0) + 12; }}",
s:"(AM|PM|am|pm)",
calcAtEnd: true
},
//</locale>
g: {
g:1,
c:"h = parseInt(results[{0}], 10);\n",
s:"(1[0-2]|[0-9])" // 12-hr format of an hour without leading zeroes (1 - 12)
},
G: {
g:1,
c:"h = parseInt(results[{0}], 10);\n",
s:"(2[0-3]|1[0-9]|[0-9])" // 24-hr format of an hour without leading zeroes (0 - 23)
},
h: {
g:1,
c:"h = parseInt(results[{0}], 10);\n",
s:"(1[0-2]|0[1-9])" // 12-hr format of an hour with leading zeroes (01 - 12)
},
H: {
g:1,
c:"h = parseInt(results[{0}], 10);\n",
s:"(2[0-3]|[0-1][0-9])" // 24-hr format of an hour with leading zeroes (00 - 23)
},
i: {
g:1,
c:"i = parseInt(results[{0}], 10);\n",
s:"([0-5][0-9])" // minutes with leading zeros (00 - 59)
},
s: {
g:1,
c:"s = parseInt(results[{0}], 10);\n",
s:"([0-5][0-9])" // seconds with leading zeros (00 - 59)
},
u: {
g:1,
c:"ms = results[{0}]; ms = parseInt(ms, 10)/Math.pow(10, ms.length - 3);\n",
s:"(\\d+)" // decimal fraction of a second (minimum = 1 digit, maximum = unlimited)
},
O: {
g:1,
c:[
"o = results[{0}];",
"var sn = o.substring(0,1),", // get + / - sign
"hr = o.substring(1,3)*1 + Math.floor(o.substring(3,5) / 60),", // get hours (performs minutes-to-hour conversion also, just in case)
"mn = o.substring(3,5) % 60;", // get minutes
"o = ((-12 <= (hr*60 + mn)/60) && ((hr*60 + mn)/60 <= 14))? (sn + Ext.String.leftPad(hr, 2, '0') + Ext.String.leftPad(mn, 2, '0')) : null;\n" // -12hrs <= GMT offset <= 14hrs
].join("\n"),
s: "([+-]\\d{4})" // GMT offset in hrs and mins
},
P: {
g:1,
c:[
"o = results[{0}];",
"var sn = o.substring(0,1),", // get + / - sign
"hr = o.substring(1,3)*1 + Math.floor(o.substring(4,6) / 60),", // get hours (performs minutes-to-hour conversion also, just in case)
"mn = o.substring(4,6) % 60;", // get minutes
"o = ((-12 <= (hr*60 + mn)/60) && ((hr*60 + mn)/60 <= 14))? (sn + Ext.String.leftPad(hr, 2, '0') + Ext.String.leftPad(mn, 2, '0')) : null;\n" // -12hrs <= GMT offset <= 14hrs
].join("\n"),
s: "([+-]\\d{2}:\\d{2})" // GMT offset in hrs and mins (with colon separator)
},
T: {
g:0,
c:null,
s:"[A-Z]{1,5}" // timezone abbrev. may be between 1 - 5 chars
},
Z: {
g:1,
c:"zz = results[{0}] * 1;\n" // -43200 <= UTC offset <= 50400
+ "zz = (-43200 <= zz && zz <= 50400)? zz : null;\n",
s:"([+-]?\\d{1,5})" // leading '+' sign is optional for UTC offset
},
c: function() {
var calc = [],
arr = [
utilDate.formatCodeToRegex("Y", 1), // year
utilDate.formatCodeToRegex("m", 2), // month
utilDate.formatCodeToRegex("d", 3), // day
utilDate.formatCodeToRegex("H", 4), // hour
utilDate.formatCodeToRegex("i", 5), // minute
utilDate.formatCodeToRegex("s", 6), // second
{c:"ms = results[7] || '0'; ms = parseInt(ms, 10)/Math.pow(10, ms.length - 3);\n"}, // decimal fraction of a second (minimum = 1 digit, maximum = unlimited)
{c:[ // allow either "Z" (i.e. UTC) or "-0530" or "+08:00" (i.e. UTC offset) timezone delimiters. assumes local timezone if no timezone is specified
"if(results[8]) {", // timezone specified
"if(results[8] == 'Z'){",
"zz = 0;", // UTC
"}else if (results[8].indexOf(':') > -1){",
utilDate.formatCodeToRegex("P", 8).c, // timezone offset with colon separator
"}else{",
utilDate.formatCodeToRegex("O", 8).c, // timezone offset without colon separator
"}",
"}"
].join('\n')}
],
i,
l;
for (i = 0, l = arr.length; i < l; ++i) {
calc.push(arr[i].c);
}
return {
g:1,
c:calc.join(""),
s:[
arr[0].s, // year (required)
"(?:", "-", arr[1].s, // month (optional)
"(?:", "-", arr[2].s, // day (optional)
"(?:",
"(?:T| )?", // time delimiter -- either a "T" or a single blank space
arr[3].s, ":", arr[4].s, // hour AND minute, delimited by a single colon (optional). MUST be preceded by either a "T" or a single blank space
"(?::", arr[5].s, ")?", // seconds (optional)
"(?:(?:\\.|,)(\\d+))?", // decimal fraction of a second (e.g. ",12345" or ".98765") (optional)
"(Z|(?:[-+]\\d{2}(?::)?\\d{2}))?", // "Z" (UTC) or "-0530" (UTC offset without colon delimiter) or "+08:00" (UTC offset with colon delimiter) (optional)
")?",
")?",
")?"
].join("")
};
},
U: {
g:1,
c:"u = parseInt(results[{0}], 10);\n",
s:"(-?\\d+)" // leading minus sign indicates seconds before UNIX epoch
}
},
//Old Ext.Date prototype methods.
// private
dateFormat: function(date, format) {
return utilDate.format(date, format);
},
/**
* Compares if two dates are equal by comparing their values.
* @param {Date} date1
* @param {Date} date2
* @return {Boolean} `true` if the date values are equal
*/
isEqual: function(date1, date2) {
// check we have 2 date objects
if (date1 && date2) {
return (date1.getTime() === date2.getTime());
}
// one or both isn't a date, only equal if both are falsey
return !(date1 || date2);
},
/**
* Formats a date given the supplied format string.
* @param {Date} date The date to format
* @param {String} format The format string
* @return {String} The formatted date or an empty string if date parameter is not a JavaScript Date object
*/
format: function(date, format) {
var formatFunctions = utilDate.formatFunctions;
if (!Ext.isDate(date)) {
return '';
}
if (formatFunctions[format] == null) {
utilDate.createFormat(format);
}
return formatFunctions[format].call(date) + '';
},
/**
* Get the timezone abbreviation of the current date (equivalent to the format specifier 'T').
*
* __Note:__ The date string returned by the JavaScript Date object's `toString()` method varies
* between browsers (e.g. FF vs IE) and system region settings (e.g. IE in Asia vs IE in America).
* For a given date string e.g. "Thu Oct 25 2007 22:55:35 GMT+0800 (Malay Peninsula Standard Time)",
* getTimezone() first tries to get the timezone abbreviation from between a pair of parentheses
* (which may or may not be present), failing which it proceeds to get the timezone abbreviation
* from the GMT offset portion of the date string.
* @param {Date} date The date
* @return {String} The abbreviated timezone name (e.g. 'CST', 'PDT', 'EDT', 'MPST' ...).
*/
getTimezone : function(date) {
// the following list shows the differences between date strings from different browsers on a WinXP SP2 machine from an Asian locale:
//
// Opera : "Thu, 25 Oct 2007 22:53:45 GMT+0800" -- shortest (weirdest) date string of the lot
// Safari : "Thu Oct 25 2007 22:55:35 GMT+0800 (Malay Peninsula Standard Time)" -- value in parentheses always gives the correct timezone (same as FF)
// FF : "Thu Oct 25 2007 22:55:35 GMT+0800 (Malay Peninsula Standard Time)" -- value in parentheses always gives the correct timezone
// IE : "Thu Oct 25 22:54:35 UTC+0800 2007" -- (Asian system setting) look for 3-4 letter timezone abbrev
// IE : "Thu Oct 25 17:06:37 PDT 2007" -- (American system setting) look for 3-4 letter timezone abbrev
//
// this crazy regex attempts to guess the correct timezone abbreviation despite these differences.
// step 1: (?:\((.*)\) -- find timezone in parentheses
// step 2: ([A-Z]{1,4})(?:[\-+][0-9]{4})?(?: -?\d+)?) -- if nothing was found in step 1, find timezone from timezone offset portion of date string
// step 3: remove all non uppercase characters found in step 1 and 2
return date.toString().replace(/^.* (?:\((.*)\)|([A-Z]{1,5})(?:[\-+][0-9]{4})?(?: -?\d+)?)$/, "$1$2").replace(/[^A-Z]/g, "");
},
/**
* Get the offset from GMT of the current date (equivalent to the format specifier 'O').
* @param {Date} date The date
* @param {Boolean} [colon=false] (optional) true to separate the hours and minutes with a colon.
* @return {String} The 4-character offset string prefixed with + or - (e.g. '-0600').
*/
getGMTOffset : function(date, colon) {
var offset = date.getTimezoneOffset();
return (offset > 0 ? "-" : "+")
+ Ext.String.leftPad(Math.floor(Math.abs(offset) / 60), 2, "0")
+ (colon ? ":" : "")
+ Ext.String.leftPad(Math.abs(offset % 60), 2, "0");
},
/**
* Get the numeric day number of the year, adjusted for leap year.
* @param {Date} date The date
* @return {Number} 0 to 364 (365 in leap years).
*/
getDayOfYear: function(date) {
var num = 0,
d = Ext.Date.clone(date),
m = date.getMonth(),
i;
for (i = 0, d.setDate(1), d.setMonth(0); i < m; d.setMonth(++i)) {
num += utilDate.getDaysInMonth(d);
}
return num + date.getDate() - 1;
},
/**
* Get the numeric ISO-8601 week number of the year.
* (equivalent to the format specifier 'W', but without a leading zero).
* @param {Date} date The date
* @return {Number} 1 to 53
* @method
*/
getWeekOfYear : (function() {
// adapted from http://www.merlyn.demon.co.uk/weekcalc.htm
var ms1d = 864e5, // milliseconds in a day
ms7d = 7 * ms1d; // milliseconds in a week
return function(date) { // return a closure so constants get calculated only once
var DC3 = Date.UTC(date.getFullYear(), date.getMonth(), date.getDate() + 3) / ms1d, // an Absolute Day Number
AWN = Math.floor(DC3 / 7), // an Absolute Week Number
Wyr = new Date(AWN * ms7d).getUTCFullYear();
return AWN - Math.floor(Date.UTC(Wyr, 0, 7) / ms7d) + 1;
};
}()),
/**
* Checks if the current date falls within a leap year.
* @param {Date} date The date
* @return {Boolean} True if the current date falls within a leap year, false otherwise.
*/
isLeapYear : function(date) {
var year = date.getFullYear();
return !!((year & 3) == 0 && (year % 100 || (year % 400 == 0 && year)));
},
/**
* Get the first day of the current month, adjusted for leap year. The returned value
* is the numeric day index within the week (0-6) which can be used in conjunction with
* the {@link #monthNames} array to retrieve the textual day name.
*
* Example:
*
* var dt = new Date('1/10/2007'),
* firstDay = Ext.Date.getFirstDayOfMonth(dt);
* console.log(Ext.Date.dayNames[firstDay]); // output: 'Monday'
*
* @param {Date} date The date
* @return {Number} The day number (0-6).
*/
getFirstDayOfMonth : function(date) {
var day = (date.getDay() - (date.getDate() - 1)) % 7;
return (day < 0) ? (day + 7) : day;
},
/**
* Get the last day of the current month, adjusted for leap year. The returned value
* is the numeric day index within the week (0-6) which can be used in conjunction with
* the {@link #monthNames} array to retrieve the textual day name.
*
* Example:
*
* var dt = new Date('1/10/2007'),
* lastDay = Ext.Date.getLastDayOfMonth(dt);
* console.log(Ext.Date.dayNames[lastDay]); // output: 'Wednesday'
*
* @param {Date} date The date
* @return {Number} The day number (0-6).
*/
getLastDayOfMonth : function(date) {
return utilDate.getLastDateOfMonth(date).getDay();
},
/**
* Get the date of the first day of the month in which this date resides.
* @param {Date} date The date
* @return {Date}
*/
getFirstDateOfMonth : function(date) {
return new Date(date.getFullYear(), date.getMonth(), 1);
},
/**
* Get the date of the last day of the month in which this date resides.
* @param {Date} date The date
* @return {Date}
*/
getLastDateOfMonth : function(date) {
return new Date(date.getFullYear(), date.getMonth(), utilDate.getDaysInMonth(date));
},
/**
* Get the number of days in the current month, adjusted for leap year.
* @param {Date} date The date
* @return {Number} The number of days in the month.
* @method
*/
getDaysInMonth: (function() {
var daysInMonth = [31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31];
return function(date) { // return a closure for efficiency
var m = date.getMonth();
return m == 1 && utilDate.isLeapYear(date) ? 29 : daysInMonth[m];
};
}()),
//<locale type="function">
/**
* Get the English ordinal suffix of the current day (equivalent to the format specifier 'S').
* @param {Date} date The date
* @return {String} 'st, 'nd', 'rd' or 'th'.
*/
getSuffix : function(date) {
switch (date.getDate()) {
case 1:
case 21:
case 31:
return "st";
case 2:
case 22:
return "nd";
case 3:
case 23:
return "rd";
default:
return "th";
}
},
//</locale>
/**
* Creates and returns a new Date instance with the exact same date value as the called instance.
* Dates are copied and passed by reference, so if a copied date variable is modified later, the original
* variable will also be changed. When the intention is to create a new variable that will not
* modify the original instance, you should create a clone.
*
* Example of correctly cloning a date:
*
* //wrong way:
* var orig = new Date('10/1/2006');
* var copy = orig;
* copy.setDate(5);
* console.log(orig); // returns 'Thu Oct 05 2006'!
*
* //correct way:
* var orig = new Date('10/1/2006'),
* copy = Ext.Date.clone(orig);
* copy.setDate(5);
* console.log(orig); // returns 'Thu Oct 01 2006'
*
* @param {Date} date The date.
* @return {Date} The new Date instance.
*/
clone : function(date) {
return new Date(date.getTime());
},
/**
* Checks if the current date is affected by Daylight Saving Time (DST).
* @param {Date} date The date
* @return {Boolean} `true` if the current date is affected by DST.
*/
isDST : function(date) {
// adapted from http://sencha.com/forum/showthread.php?p=247172#post247172
// courtesy of @geoffrey.mcgill
return new Date(date.getFullYear(), 0, 1).getTimezoneOffset() != date.getTimezoneOffset();
},
/**
* Attempts to clear all time information from this Date by setting the time to midnight of the same day,
* automatically adjusting for Daylight Saving Time (DST) where applicable.
*
* __Note:__ DST timezone information for the browser's host operating system is assumed to be up-to-date.
* @param {Date} date The date
* @param {Boolean} [clone=false] `true` to create a clone of this date, clear the time and return it.
* @return {Date} this or the clone.
*/
clearTime : function(date, clone) {
if (clone) {
return Ext.Date.clearTime(Ext.Date.clone(date));
}
// get current date before clearing time
var d = date.getDate(),
hr,
c;
// clear time
date.setHours(0);
date.setMinutes(0);
date.setSeconds(0);
date.setMilliseconds(0);
if (date.getDate() != d) { // account for DST (i.e. day of month changed when setting hour = 0)
// note: DST adjustments are assumed to occur in multiples of 1 hour (this is almost always the case)
// refer to http://www.timeanddate.com/time/aboutdst.html for the (rare) exceptions to this rule
// increment hour until cloned date == current date
for (hr = 1, c = utilDate.add(date, Ext.Date.HOUR, hr); c.getDate() != d; hr++, c = utilDate.add(date, Ext.Date.HOUR, hr));
date.setDate(d);
date.setHours(c.getHours());
}
return date;
},
/**
* Provides a convenient method for performing basic date arithmetic. This method
* does not modify the Date instance being called - it creates and returns
* a new Date instance containing the resulting date value.
*
* Examples:
*
* // Basic usage:
* var dt = Ext.Date.add(new Date('10/29/2006'), Ext.Date.DAY, 5);
* console.log(dt); // returns 'Fri Nov 03 2006 00:00:00'
*
* // Negative values will be subtracted:
* var dt2 = Ext.Date.add(new Date('10/1/2006'), Ext.Date.DAY, -5);
* console.log(dt2); // returns 'Tue Sep 26 2006 00:00:00'
*
* // Decimal values can be used:
* var dt3 = Ext.Date.add(new Date('10/1/2006'), Ext.Date.DAY, 1.25);
* console.log(dt3); // returns 'Mon Oct 02 2006 06:00:00'
*
* @param {Date} date The date to modify
* @param {String} interval A valid date interval enum value.
* @param {Number} value The amount to add to the current date.
* @return {Date} The new Date instance.
*/
add : function(date, interval, value) {
var d = Ext.Date.clone(date),
Date = Ext.Date,
day, decimalValue, base = 0;
if (!interval || value === 0) {
return d;
}
decimalValue = value - parseInt(value, 10);
value = parseInt(value, 10);
if (value) {
switch(interval.toLowerCase()) {
// See EXTJSIV-7418. We use setTime() here to deal with issues related to
// the switchover that occurs when changing to daylight savings and vice
// versa. setTime() handles this correctly where setHour/Minute/Second/Millisecond
// do not. Let's assume the DST change occurs at 2am and we're incrementing using add
// for 15 minutes at time. When entering DST, we should see:
// 01:30am
// 01:45am
// 03:00am // skip 2am because the hour does not exist
// ...
// Similarly, leaving DST, we should see:
// 01:30am
// 01:45am
// 01:00am // repeat 1am because that's the change over
// 01:30am
// 01:45am
// 02:00am
// ....
//
case Ext.Date.MILLI:
d.setTime(d.getTime() + value);
break;
case Ext.Date.SECOND:
d.setTime(d.getTime() + value * 1000);
break;
case Ext.Date.MINUTE:
d.setTime(d.getTime() + value * 60 * 1000);
break;
case Ext.Date.HOUR:
d.setTime(d.getTime() + value * 60 * 60 * 1000);
break;
case Ext.Date.DAY:
d.setDate(d.getDate() + value);
break;
case Ext.Date.MONTH:
day = date.getDate();
if (day > 28) {
day = Math.min(day, Ext.Date.getLastDateOfMonth(Ext.Date.add(Ext.Date.getFirstDateOfMonth(date), Ext.Date.MONTH, value)).getDate());
}
d.setDate(day);
d.setMonth(date.getMonth() + value);
break;
case Ext.Date.YEAR:
day = date.getDate();
if (day > 28) {
day = Math.min(day, Ext.Date.getLastDateOfMonth(Ext.Date.add(Ext.Date.getFirstDateOfMonth(date), Ext.Date.YEAR, value)).getDate());
}
d.setDate(day);
d.setFullYear(date.getFullYear() + value);
break;
}
}
if (decimalValue) {
switch (interval.toLowerCase()) {
case Ext.Date.MILLI: base = 1; break;
case Ext.Date.SECOND: base = 1000; break;
case Ext.Date.MINUTE: base = 1000*60; break;
case Ext.Date.HOUR: base = 1000*60*60; break;
case Ext.Date.DAY: base = 1000*60*60*24; break;
case Ext.Date.MONTH:
day = utilDate.getDaysInMonth(d);
base = 1000*60*60*24*day;
break;
case Ext.Date.YEAR:
day = (utilDate.isLeapYear(d) ? 366 : 365);
base = 1000*60*60*24*day;
break;
}
if (base) {
d.setTime(d.getTime() + base * decimalValue);
}
}
return d;
},
/**
* Provides a convenient method for performing basic date arithmetic. This method
* does not modify the Date instance being called - it creates and returns
* a new Date instance containing the resulting date value.
*
* Examples:
*
* // Basic usage:
* var dt = Ext.Date.subtract(new Date('10/29/2006'), Ext.Date.DAY, 5);
* console.log(dt); // returns 'Tue Oct 24 2006 00:00:00'
*
* // Negative values will be added:
* var dt2 = Ext.Date.subtract(new Date('10/1/2006'), Ext.Date.DAY, -5);
* console.log(dt2); // returns 'Fri Oct 6 2006 00:00:00'
*
* // Decimal values can be used:
* var dt3 = Ext.Date.subtract(new Date('10/1/2006'), Ext.Date.DAY, 1.25);
* console.log(dt3); // returns 'Fri Sep 29 2006 06:00:00'
*
* @param {Date} date The date to modify
* @param {String} interval A valid date interval enum value.
* @param {Number} value The amount to subtract from the current date.
* @return {Date} The new Date instance.
*/
subtract: function(date, interval, value){
return utilDate.add(date, interval, -value);
},
/**
* Checks if a date falls on or between the given start and end dates.
* @param {Date} date The date to check
* @param {Date} start Start date
* @param {Date} end End date
* @return {Boolean} `true` if this date falls on or between the given start and end dates.
*/
between : function(date, start, end) {
var t = date.getTime();
return start.getTime() <= t && t <= end.getTime();
},
//Maintains compatibility with old static and prototype window.Date methods.
compat: function() {
var nativeDate = window.Date,
p,
statics = ['useStrict', 'formatCodeToRegex', 'parseFunctions', 'parseRegexes', 'formatFunctions', 'y2kYear', 'MILLI', 'SECOND', 'MINUTE', 'HOUR', 'DAY', 'MONTH', 'YEAR', 'defaults', 'dayNames', 'monthNames', 'monthNumbers', 'getShortMonthName', 'getShortDayName', 'getMonthNumber', 'formatCodes', 'isValid', 'parseDate', 'getFormatCode', 'createFormat', 'createParser', 'parseCodes'],
proto = ['dateFormat', 'format', 'getTimezone', 'getGMTOffset', 'getDayOfYear', 'getWeekOfYear', 'isLeapYear', 'getFirstDayOfMonth', 'getLastDayOfMonth', 'getDaysInMonth', 'getSuffix', 'clone', 'isDST', 'clearTime', 'add', 'between'],
sLen = statics.length,
pLen = proto.length,
stat, prot, s;
//Append statics
for (s = 0; s < sLen; s++) {
stat = statics[s];
nativeDate[stat] = utilDate[stat];
}
//Append to prototype
for (p = 0; p < pLen; p++) {
prot = proto[p];
nativeDate.prototype[prot] = function() {
var args = Array.prototype.slice.call(arguments);
args.unshift(this);
return utilDate[prot].apply(utilDate, args);
};
}
}
});
};