Misterzym
/
Rambox-CE
1
0
Fork 0
Code Issues Pull Requests Projects Releases Wiki Activity
Форк Rambox
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
273 Commits
16 Branches
43 Tags
40 MiB
Tree: dce30742d6
Branches Tags
${ item.name }
Create tag ${ searchTerm }
Create branch ${ searchTerm }
from 'dce30742d6'
${ noResults }
Rambox-CE/ext/packages/sencha-core/src/lang/Date.js

1780 lines
73 KiB
Raw Normal View History Unescape

Initial app Initial code using Ext JS 5 to create the UI and the main functionality.
9 years ago
/**
* @class Ext.Date
* This class defines some basic methods for handling dates.
*
* 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:
*
* 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 represented as the local time with an offset to UTC appended.
* 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
* C An ISO date string as implemented by the native Date object's 1962-06-17T09:21:34.125Z
* [Date.toISOString](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Date/toISOString)
* method. This outputs the numeric part with *UTC* hour and minute
* values, and indicates this by appending the `'Z'` timezone
* indentifier.
* 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
*
* 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
*/
Ext.Date = (function () {
// @define Ext.lang.Date
// @define Ext.Date
// @require Ext
// @require Ext.lang.String
var utilDate,
nativeDate = Date,
stripEscapeRe = /(\\.)/g,
hourInfoRe = /([gGhHisucUOPZ]|MS)/,
dateInfoRe = /([djzmnYycU]|MS)/,
slashRe = /\\/gi,
numberTokenRe = /\{(\d+)\}/g,
MSFormatRe = new RegExp('\\/Date\\(([-+])?(\\d+)(?:[+-]\\d{4})?\\)\\/'),
pad = Ext.String.leftPad,
// 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.
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 + 43200000)));
// (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);",
"d = jan4.getDay();",
// If the 1st is a Thursday, then the 4th will be a Sunday, so we need the appropriate
// day number here, which is why we use the day === checks.
"week1monday = new Date(jan4.getTime() - ((d === 0 ? 6 : d - 1) * 86400000));",
// The reason for adding 43200000 (12 hours) is to avoid any complication with daylight saving
// switch overs. For example, if the clock is rolled back, an hour will repeat, so adding 7 days
// will leave us 1 hour short (Sun <date> 23:00:00). By setting is to 12:00, subtraction
// or addition of an hour won't make any difference.
"v = Ext.Date.clearTime(new Date(week1monday.getTime() + ((W - 1) * 604800000 + 43200000)));",
"} 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 != null) ? v : null;"
].join('\n');
// Polyfill Date's toISOString instance method where not implemented.
// https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Date/toISOString
// TODO: Remove this when IE8 retires.
if (!Date.prototype.toISOString) {
Date.prototype.toISOString = function() {
var me = this;
return pad(me.getUTCFullYear(), 4, '0') + '-' +
pad(me.getUTCMonth() + 1, 2, '0') + '-' +
pad(me.getUTCDate(), 2, '0') + 'T' +
pad(me.getUTCHours(), 2, '0') + ':' +
pad(me.getUTCMinutes(), 2, '0') + ':' +
pad(me.getUTCSeconds(), 2, '0') + '.' +
pad(me.getUTCMilliseconds(), 3, '0') + 'Z';
};
}
// 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];
});
}
return utilDate = {
/** @ignore */
now: nativeDate.now, // always available due to polyfill in Ext.js
/**
* @private
* Private for now
*/
toString: function(date) {
if (!date) {
date = new nativeDate();
}
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:
*
* - `date`: {@link String} - The date string to parse.
* - `strict`: {@link Boolean} - `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.
*
* 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 nativeDate(((r[1] || '') + r[2]) * 1) : null;
},
"time": function(input, strict) {
var num = parseInt(input, 10);
if (num || num === 0) {
return new nativeDate(num);
}
return null;
},
"timestamp": function(input, strict) {
var num = parseInt(input, 10);
if (num || num === 0) {
return new nativeDate(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 Date object which
* is the scope (this) of the function.
*
* 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:
*
* - `y`: {@link Number} - The default year value. Defaults to `undefined`.
* - `m`: {@link Number} - The default 1-based month value. Defaults to `undefined`.
* - `d`: {@link Number} - The default day value. Defaults to `undefined`.
* - `h`: {@link Number} - The default hour value. Defaults to `undefined`.
* - `i`: {@link Number} - The default minute value. Defaults to `undefined`.
* - `s`: {@link Number} - The default second value. Defaults to `undefined`.
* - `ms`: {@link Number} - The default millisecond value. Defaults to `undefined`.
*
* 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 utilDate.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 utilDate.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 utilDate.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(m.getDate(), 2, '0')",
D: "Ext.Date.getShortDayName(m.getDay())", // get localized short day name
j: "m.getDate()",
l: "Ext.Date.dayNames[m.getDay()]",
N: "(m.getDay() ? m.getDay() : 7)",
S: "Ext.Date.getSuffix(m)",
w: "m.getDay()",
z: "Ext.Date.getDayOfYear(m)",
W: "Ext.String.leftPad(Ext.Date.getWeekOfYear(m), 2, '0')",
F: "Ext.Date.monthNames[m.getMonth()]",
m: "Ext.String.leftPad(m.getMonth() + 1, 2, '0')",
M: "Ext.Date.getShortMonthName(m.getMonth())", // get localized short month name
n: "(m.getMonth() + 1)",
t: "Ext.Date.getDaysInMonth(m)",
L: "(Ext.Date.isLeapYear(m) ? 1 : 0)",
o: "(m.getFullYear() + (Ext.Date.getWeekOfYear(m) == 1 && m.getMonth() > 0 ? +1 : (Ext.Date.getWeekOfYear(m) >= 52 && m.getMonth() < 11 ? -1 : 0)))",
Y: "Ext.String.leftPad(m.getFullYear(), 4, '0')",
y: "('' + m.getFullYear()).substring(2, 4)",
a: "(m.getHours() < 12 ? 'am' : 'pm')",
A: "(m.getHours() < 12 ? 'AM' : 'PM')",
g: "((m.getHours() % 12) ? m.getHours() % 12 : 12)",
G: "m.getHours()",
h: "Ext.String.leftPad((m.getHours() % 12) ? m.getHours() % 12 : 12, 2, '0')",
H: "Ext.String.leftPad(m.getHours(), 2, '0')",
i: "Ext.String.leftPad(m.getMinutes(), 2, '0')",
s: "Ext.String.leftPad(m.getSeconds(), 2, '0')",
u: "Ext.String.leftPad(m.getMilliseconds(), 3, '0')",
O: "Ext.Date.getGMTOffset(m)",
P: "Ext.Date.getGMTOffset(m, true)",
T: "Ext.Date.getTimezone(m)",
Z: "(m.getTimezoneOffset() * -60)",
c: function() { // ISO-8601 -- GMT format
var c = "Y-m-dTH:i:sP", code = [], i, l = c.length, e;
for (i = 0; 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-1601 -- browser format. UTC numerics with the 'Z' TZ id.
return 'm.toISOString()';
},
U: "Math.round(m.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 nativeDate(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&#39;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/null} The parsed Date, or `null` if an invalid date string.
*/
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 {
if (ch === '\n') {
code.push("'\\n'");
} else {
code.push(utilDate.getFormatCode(ch));
}
}
}
utilDate.formatFunctions[format] = Ext.functionFactory("var m=this;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{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.
*
* @example
* var dt = new Date('9/17/2011');
* console.log(Ext.Date.getTimezone(dt));
*
* @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').
*
* @example
* var dt = new Date('9/17/2011');
* console.log(Ext.Date.getGMTOffset(dt));
*
* @param {Date} date The date
* @param {Boolean} [colon=false] `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.
*
* @example
* var dt = new Date('9/17/2011');
* console.log(Ext.Date.getDayOfYear(dt)); // 259
*
* @param {Date} date The date
* @return {Number} 0 to 364 (365 in leap years).
*/
getDayOfYear: function(date) {
var num = 0,
d = utilDate.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).
*
* @example
* var dt = new Date('9/17/2011');
* console.log(Ext.Date.getWeekOfYear(dt)); // 37
*
* @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 = nativeDate.UTC(date.getFullYear(), date.getMonth(), date.getDate() + 3) / ms1d, // an Absolute Day Number
AWN = Math.floor(DC3 / 7), // an Absolute Week Number
Wyr = new nativeDate(AWN * ms7d).getUTCFullYear();
return AWN - Math.floor(nativeDate.UTC(Wyr, 0, 7) / ms7d) + 1;
};
}()),
/**
* Checks if the current date falls within a leap year.
*
* @example
* var dt = new Date('1/10/2011');
* console.log(Ext.Date.isLeapYear(dt)); // false
*
* @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 nativeDate(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 nativeDate(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 nativeDate(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 nativeDate(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 utilDate.clearTime(utilDate.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, utilDate.HOUR, hr); c.getDate() !== d; hr++, c = utilDate.add(date, utilDate.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 = utilDate.clone(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 utilDate.MILLI:
d.setTime(d.getTime() + value);
break;
case utilDate.SECOND:
d.setTime(d.getTime() + value * 1000);
break;
case utilDate.MINUTE:
d.setTime(d.getTime() + value * 60 * 1000);
break;
case utilDate.HOUR:
d.setTime(d.getTime() + value * 60 * 60 * 1000);
break;
case utilDate.DAY:
d.setDate(d.getDate() + value);
break;
case utilDate.MONTH:
day = date.getDate();
if (day > 28) {
day = Math.min(day, utilDate.getLastDateOfMonth(utilDate.add(utilDate.getFirstDateOfMonth(date), utilDate.MONTH, value)).getDate());
}
d.setDate(day);
d.setMonth(date.getMonth() + value);
break;
case utilDate.YEAR:
day = date.getDate();
if (day > 28) {
day = Math.min(day, utilDate.getLastDateOfMonth(utilDate.add(utilDate.getFirstDateOfMonth(date), utilDate.YEAR, value)).getDate());
}
d.setDate(day);
d.setFullYear(date.getFullYear() + value);
break;
}
}
if (decimalValue) {
switch (interval.toLowerCase()) {
case utilDate.MILLI: base = 1; break;
case utilDate.SECOND: base = 1000; break;
case utilDate.MINUTE: base = 1000*60; break;
case utilDate.HOUR: base = 1000*60*60; break;
case utilDate.DAY: base = 1000*60*60*24; break;
case utilDate.MONTH:
day = utilDate.getDaysInMonth(d);
base = 1000*60*60*24*day;
break;
case utilDate.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 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);
};
}
},
/**
* Calculate how many units are there between two time.
* @param {Date} min The first time.
* @param {Date} max The second time.
* @param {String} unit The unit. This unit is compatible with the date interval constants.
* @return {Number} The maximum number n of units that min + n * unit <= max.
*/
diff: function (min, max, unit) {
var est, diff = +max - min;
switch (unit) {
case utilDate.MILLI:
return diff;
case utilDate.SECOND:
return Math.floor(diff / 1000);
case utilDate.MINUTE:
return Math.floor(diff / 60000);
case utilDate.HOUR:
return Math.floor(diff / 3600000);
case utilDate.DAY:
return Math.floor(diff / 86400000);
case 'w':
return Math.floor(diff / 604800000);
case utilDate.MONTH:
est = (max.getFullYear() * 12 + max.getMonth()) - (min.getFullYear() * 12 + min.getMonth());
if (utilDate.add(min, unit, est) > max) {
return est - 1;
}
return est;
case utilDate.YEAR:
est = max.getFullYear() - min.getFullYear();
if (utilDate.add(min, unit, est) > max) {
return est - 1;
} else {
return est;
}
}
},
/**
* Align the date to `unit`.
* @param {Date} date The date to be aligned.
* @param {String} unit The unit. This unit is compatible with the date interval constants.
* @return {Date} The aligned date.
*/
align: function (date, unit, step) {
var num = new nativeDate(+date);
switch (unit.toLowerCase()) {
case utilDate.MILLI:
return num;
case utilDate.SECOND:
num.setUTCSeconds(num.getUTCSeconds() - num.getUTCSeconds() % step);
num.setUTCMilliseconds(0);
return num;
case utilDate.MINUTE:
num.setUTCMinutes(num.getUTCMinutes() - num.getUTCMinutes() % step);
num.setUTCSeconds(0);
num.setUTCMilliseconds(0);
return num;
case utilDate.HOUR:
num.setUTCHours(num.getUTCHours() - num.getUTCHours() % step);
num.setUTCMinutes(0);
num.setUTCSeconds(0);
num.setUTCMilliseconds(0);
return num;
case utilDate.DAY:
if (step === 7 || step === 14){
num.setUTCDate(num.getUTCDate() - num.getUTCDay() + 1);
}
num.setUTCHours(0);
num.setUTCMinutes(0);
num.setUTCSeconds(0);
num.setUTCMilliseconds(0);
return num;
case utilDate.MONTH:
num.setUTCMonth(num.getUTCMonth() - (num.getUTCMonth() - 1) % step,1);
num.setUTCHours(0);
num.setUTCMinutes(0);
num.setUTCSeconds(0);
num.setUTCMilliseconds(0);
return num;
case utilDate.YEAR:
num.setUTCFullYear(num.getUTCFullYear() - num.getUTCFullYear() % step, 1, 1);
num.setUTCHours(0);
num.setUTCMinutes(0);
num.setUTCSeconds(0);
num.setUTCMilliseconds(0);
return date;
}
}
};
}());