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/**
* The static Number class provides helper functions to deal with data of type
* Number.
*
* @namespace YAHOO.util
* @requires yahoo
* @class Number
* @static
*/
YAHOO.util.Number = {
/**
* Takes a native JavaScript Number and formats to string for display to user.
*
* @method format
* @param nData {Number} Number.
* @param oConfig {Object} (Optional) Optional configuration values:
* <dl>
* <dt>prefix {String}</dd>
* <dd>String prepended before each number, like a currency designator "$"</dd>
* <dt>decimalPlaces {Number}</dd>
* <dd>Number of decimal places to round.</dd>
* <dt>decimalSeparator {String}</dd>
* <dd>Decimal separator</dd>
* <dt>thousandsSeparator {String}</dd>
* <dd>Thousands separator</dd>
* <dt>suffix {String}</dd>
* <dd>String appended after each number, like " items" (note the space)</dd>
* <dt>negativeFormat</dt>
* <dd>String used as a guide for how to indicate negative numbers. The first '#' character in the string will be replaced by the number. Default '-#'.</dd>
* </dl>
* @return {String} Formatted number for display. Note, the following values
* return as "": null, undefined, NaN, "".
*/
format : function(n, cfg) {
if (!isFinite(+n)) {
return '';
}
n = !isFinite(+n) ? 0 : +n;
cfg = YAHOO.lang.merge(YAHOO.util.Number.format.defaults, (cfg || {}));
var neg = n < 0, absN = Math.abs(n),
places = cfg.decimalPlaces,
sep = cfg.thousandsSeparator,
s, bits, i;
if (places < 0) {
// Get rid of the decimal info
s = absN - (absN % 1) + '';
i = s.length + places;
// avoid 123 vs decimalPlaces -4 (should return "0")
if (i > 0) {
// leverage toFixed by making 123 => 0.123 for the rounding
// operation, then add the appropriate number of zeros back on
s = Number('.' + s).toFixed(i).slice(2) +
new Array(s.length - i + 1).join('0');
} else {
s = "0";
}
} else { // There is a bug in IE's toFixed implementation:
// for n in {(-0.94, -0.5], [0.5, 0.94)} n.toFixed() returns 0
// instead of -1 and 1. Manually handle that case.
s = absN < 1 && absN >= 0.5 && !places ? '1' : absN.toFixed(places);
}
if (absN > 1000) {
bits = s.split(/\D/);
i = bits[0].length % 3 || 3;
bits[0] = bits[0].slice(0,i) +
bits[0].slice(i).replace(/(\d{3})/g, sep + '$1');
s = bits.join(cfg.decimalSeparator);
}
s = cfg.prefix + s + cfg.suffix;
return neg ? cfg.negativeFormat.replace(/#/,s) : s;
}
};
YAHOO.util.Number.format.defaults = {
decimalSeparator : '.',
decimalPlaces : null,
thousandsSeparator : '',
prefix : '',
suffix : '',
negativeFormat : '-#'
};
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(function () {
var xPad=function (x, pad, r)
{
if(typeof r === 'undefined')
{
r=10;
}
for( ; parseInt(x, 10)<r && r>1; r/=10) {
x = pad.toString() + x;
}
return x.toString();
};
/**
* The static Date class provides helper functions to deal with data of type Date.
*
* @namespace YAHOO.util
* @requires yahoo
* @class Date
* @static
*/
var Dt = {
formats: {
a: function (d, l) { return l.a[d.getDay()]; },
A: function (d, l) { return l.A[d.getDay()]; },
b: function (d, l) { return l.b[d.getMonth()]; },
B: function (d, l) { return l.B[d.getMonth()]; },
C: function (d) { return xPad(parseInt(d.getFullYear()/100, 10), 0); },
d: ['getDate', '0'],
e: ['getDate', ' '],
g: function (d) { return xPad(parseInt(Dt.formats.G(d)%100, 10), 0); },
G: function (d) {
var y = d.getFullYear();
var V = parseInt(Dt.formats.V(d), 10);
var W = parseInt(Dt.formats.W(d), 10);
if(W > V) {
y++;
} else if(W===0 && V>=52) {
y--;
}
return y;
},
H: ['getHours', '0'],
I: function (d) { var I=d.getHours()%12; return xPad(I===0?12:I, 0); },
j: function (d) {
var gmd_1 = new Date('' + d.getFullYear() + '/1/1 GMT');
var gmdate = new Date('' + d.getFullYear() + '/' + (d.getMonth()+1) + '/' + d.getDate() + ' GMT');
var ms = gmdate - gmd_1;
var doy = parseInt(ms/60000/60/24, 10)+1;
return xPad(doy, 0, 100);
},
k: ['getHours', ' '],
l: function (d) { var I=d.getHours()%12; return xPad(I===0?12:I, ' '); },
m: function (d) { return xPad(d.getMonth()+1, 0); },
M: ['getMinutes', '0'],
p: function (d, l) { return l.p[d.getHours() >= 12 ? 1 : 0 ]; },
P: function (d, l) { return l.P[d.getHours() >= 12 ? 1 : 0 ]; },
s: function (d, l) { return parseInt(d.getTime()/1000, 10); },
S: ['getSeconds', '0'],
u: function (d) { var dow = d.getDay(); return dow===0?7:dow; },
U: function (d) {
var doy = parseInt(Dt.formats.j(d), 10);
var rdow = 6-d.getDay();
var woy = parseInt((doy+rdow)/7, 10);
return xPad(woy, 0);
},
V: function (d) {
var woy = parseInt(Dt.formats.W(d), 10);
var dow1_1 = (new Date('' + d.getFullYear() + '/1/1')).getDay();
// First week is 01 and not 00 as in the case of %U and %W,
// so we add 1 to the final result except if day 1 of the year
// is a Monday (then %W returns 01).
// We also need to subtract 1 if the day 1 of the year is
// Friday-Sunday, so the resulting equation becomes:
var idow = woy + (dow1_1 > 4 || dow1_1 <= 1 ? 0 : 1);
if(idow === 53 && (new Date('' + d.getFullYear() + '/12/31')).getDay() < 4)
{
idow = 1;
}
else if(idow === 0)
{
idow = Dt.formats.V(new Date('' + (d.getFullYear()-1) + '/12/31'));
}
return xPad(idow, 0);
},
w: 'getDay',
W: function (d) {
var doy = parseInt(Dt.formats.j(d), 10);
var rdow = 7-Dt.formats.u(d);
var woy = parseInt((doy+rdow)/7, 10);
return xPad(woy, 0, 10);
},
y: function (d) { return xPad(d.getFullYear()%100, 0); },
Y: 'getFullYear',
z: function (d) {
var o = d.getTimezoneOffset();
var H = xPad(parseInt(Math.abs(o/60), 10), 0);
var M = xPad(Math.abs(o%60), 0);
return (o>0?'-':'+') + H + M;
},
Z: function (d) {
var tz = d.toString().replace(/^.*:\d\d( GMT[+-]\d+)? \(?([A-Za-z ]+)\)?\d*$/, '$2').replace(/[a-z ]/g, '');
if(tz.length > 4) {
tz = Dt.formats.z(d);
}
return tz;
},
'%': function (d) { return '%'; }
},
aggregates: {
c: 'locale',
D: '%m/%d/%y',
F: '%Y-%m-%d',
h: '%b',
n: '\n',
r: 'locale',
R: '%H:%M',
t: '\t',
T: '%H:%M:%S',
x: 'locale',
X: 'locale'
//'+': '%a %b %e %T %Z %Y'
},
/**
* Takes a native JavaScript Date and formats to string for display to user.
*
* @method format
* @param oDate {Date} Date.
* @param oConfig {Object} (Optional) Object literal of configuration values:
* <dl>
* <dt>format <String></dt>
* <dd>
* <p>
* Any strftime string is supported, such as "%I:%M:%S %p". strftime has several format specifiers defined by the Open group at
* <a href="http://www.opengroup.org/onlinepubs/007908799/xsh/strftime.html">http://www.opengroup.org/onlinepubs/007908799/xsh/strftime.html</a>
* </p>
* <p>
* PHP added a few of its own, defined at <a href="http://www.php.net/strftime">http://www.php.net/strftime</a>
* </p>
* <p>
* This javascript implementation supports all the PHP specifiers and a few more. The full list is below:
* </p>
* <dl>
* <dt>%a</dt> <dd>abbreviated weekday name according to the current locale</dd>
* <dt>%A</dt> <dd>full weekday name according to the current locale</dd>
* <dt>%b</dt> <dd>abbreviated month name according to the current locale</dd>
* <dt>%B</dt> <dd>full month name according to the current locale</dd>
* <dt>%c</dt> <dd>preferred date and time representation for the current locale</dd>
* <dt>%C</dt> <dd>century number (the year divided by 100 and truncated to an integer, range 00 to 99)</dd>
* <dt>%d</dt> <dd>day of the month as a decimal number (range 01 to 31)</dd>
* <dt>%D</dt> <dd>same as %m/%d/%y</dd>
* <dt>%e</dt> <dd>day of the month as a decimal number, a single digit is preceded by a space (range ' 1' to '31')</dd>
* <dt>%F</dt> <dd>same as %Y-%m-%d (ISO 8601 date format)</dd>
* <dt>%g</dt> <dd>like %G, but without the century</dd>
* <dt>%G</dt> <dd>The 4-digit year corresponding to the ISO week number</dd>
* <dt>%h</dt> <dd>same as %b</dd>
* <dt>%H</dt> <dd>hour as a decimal number using a 24-hour clock (range 00 to 23)</dd>
* <dt>%I</dt> <dd>hour as a decimal number using a 12-hour clock (range 01 to 12)</dd>
* <dt>%j</dt> <dd>day of the year as a decimal number (range 001 to 366)</dd>
* <dt>%k</dt> <dd>hour as a decimal number using a 24-hour clock (range 0 to 23); single digits are preceded by a blank. (See also %H.)</dd>
* <dt>%l</dt> <dd>hour as a decimal number using a 12-hour clock (range 1 to 12); single digits are preceded by a blank. (See also %I.) </dd>
* <dt>%m</dt> <dd>month as a decimal number (range 01 to 12)</dd>
* <dt>%M</dt> <dd>minute as a decimal number</dd>
* <dt>%n</dt> <dd>newline character</dd>
* <dt>%p</dt> <dd>either `AM' or `PM' according to the given time value, or the corresponding strings for the current locale</dd>
* <dt>%P</dt> <dd>like %p, but lower case</dd>
* <dt>%r</dt> <dd>time in a.m. and p.m. notation equal to %I:%M:%S %p</dd>
* <dt>%R</dt> <dd>time in 24 hour notation equal to %H:%M</dd>
* <dt>%s</dt> <dd>number of seconds since the Epoch, ie, since 1970-01-01 00:00:00 UTC</dd>
* <dt>%S</dt> <dd>second as a decimal number</dd>
* <dt>%t</dt> <dd>tab character</dd>
* <dt>%T</dt> <dd>current time, equal to %H:%M:%S</dd>
* <dt>%u</dt> <dd>weekday as a decimal number [1,7], with 1 representing Monday</dd>
* <dt>%U</dt> <dd>week number of the current year as a decimal number, starting with the
* first Sunday as the first day of the first week</dd>
* <dt>%V</dt> <dd>The ISO 8601:1988 week number of the current year as a decimal number,
* range 01 to 53, where week 1 is the first week that has at least 4 days
* in the current year, and with Monday as the first day of the week.</dd>
* <dt>%w</dt> <dd>day of the week as a decimal, Sunday being 0</dd>
* <dt>%W</dt> <dd>week number of the current year as a decimal number, starting with the
* first Monday as the first day of the first week</dd>
* <dt>%x</dt> <dd>preferred date representation for the current locale without the time</dd>
* <dt>%X</dt> <dd>preferred time representation for the current locale without the date</dd>
* <dt>%y</dt> <dd>year as a decimal number without a century (range 00 to 99)</dd>
* <dt>%Y</dt> <dd>year as a decimal number including the century</dd>
* <dt>%z</dt> <dd>numerical time zone representation</dd>
* <dt>%Z</dt> <dd>time zone name or abbreviation</dd>
* <dt>%%</dt> <dd>a literal `%' character</dd>
* </dl>
* </dd>
* </dl>
* @param sLocale {String} (Optional) The locale to use when displaying days of week,
* months of the year, and other locale specific strings. The following locales are
* built in:
* <dl>
* <dt>en</dt>
* <dd>English</dd>
* <dt>en-US</dt>
* <dd>US English</dd>
* <dt>en-GB</dt>
* <dd>British English</dd>
* <dt>en-AU</dt>
* <dd>Australian English (identical to British English)</dd>
* </dl>
* More locales may be added by subclassing of YAHOO.util.DateLocale.
* See YAHOO.util.DateLocale for more information.
* @return {String} Formatted date for display.
* @sa YAHOO.util.DateLocale
*/
format : function (oDate, oConfig, sLocale) {
oConfig = oConfig || {};
if(!(oDate instanceof Date)) {
return YAHOO.lang.isValue(oDate) ? oDate : "";
}
var format = oConfig.format || "%m/%d/%Y";
// Be backwards compatible, support strings that are
// exactly equal to YYYY/MM/DD, DD/MM/YYYY and MM/DD/YYYY
if(format === 'YYYY/MM/DD') {
format = '%Y/%m/%d';
} else if(format === 'DD/MM/YYYY') {
format = '%d/%m/%Y';
} else if(format === 'MM/DD/YYYY') {
format = '%m/%d/%Y';
}
// end backwards compatibility block
sLocale = sLocale || "en";
// Make sure we have a definition for the requested locale, or default to en.
if(!(sLocale in YAHOO.util.DateLocale)) {
if(sLocale.replace(/-[a-zA-Z]+$/, '') in YAHOO.util.DateLocale) {
sLocale = sLocale.replace(/-[a-zA-Z]+$/, '');
} else {
sLocale = "en";
}
}
var aLocale = YAHOO.util.DateLocale[sLocale];
var replace_aggs = function (m0, m1) {
var f = Dt.aggregates[m1];
return (f === 'locale' ? aLocale[m1] : f);
};
var replace_formats = function (m0, m1) {
var f = Dt.formats[m1];
if(typeof f === 'string') { // string => built in date function
return oDate[f]();
} else if(typeof f === 'function') { // function => our own function
return f.call(oDate, oDate, aLocale);
} else if(typeof f === 'object' && typeof f[0] === 'string') { // built in function with padding
return xPad(oDate[f[0]](), f[1]);
} else {
return m1;
}
};
// First replace aggregates (run in a loop because an agg may be made up of other aggs)
while(format.match(/%[cDFhnrRtTxX]/)) {
format = format.replace(/%([cDFhnrRtTxX])/g, replace_aggs);
}
// Now replace formats (do not run in a loop otherwise %%a will be replace with the value of %a)
var str = format.replace(/%([aAbBCdegGHIjklmMpPsSuUVwWyYzZ%])/g, replace_formats);
replace_aggs = replace_formats = undefined;
return str;
}
};
YAHOO.namespace("YAHOO.util");
YAHOO.util.Date = Dt;
/**
* The DateLocale class is a container and base class for all
* localised date strings used by YAHOO.util.Date. It is used
* internally, but may be extended to provide new date localisations.
*
* To create your own DateLocale, follow these steps:
* <ol>
* <li>Find an existing locale that matches closely with your needs</li>
* <li>Use this as your base class. Use YAHOO.util.DateLocale if nothing
* matches.</li>
* <li>Create your own class as an extension of the base class using
* YAHOO.lang.merge, and add your own localisations where needed.</li>
* </ol>
* See the YAHOO.util.DateLocale['en-US'] and YAHOO.util.DateLocale['en-GB']
* classes which extend YAHOO.util.DateLocale['en'].
*
* For example, to implement locales for French french and Canadian french,
* we would do the following:
* <ol>
* <li>For French french, we have no existing similar locale, so use
* YAHOO.util.DateLocale as the base, and extend it:
* <pre>
* YAHOO.util.DateLocale['fr'] = YAHOO.lang.merge(YAHOO.util.DateLocale, {
* a: ['dim', 'lun', 'mar', 'mer', 'jeu', 'ven', 'sam'],
* A: ['dimanche', 'lundi', 'mardi', 'mercredi', 'jeudi', 'vendredi', 'samedi'],
* b: ['jan', 'fév', 'mar', 'avr', 'mai', 'jun', 'jui', 'aoû', 'sep', 'oct', 'nov', 'déc'],
* B: ['janvier', 'février', 'mars', 'avril', 'mai', 'juin', 'juillet', 'août', 'septembre', 'octobre', 'novembre', 'décembre'],
* c: '%a %d %b %Y %T %Z',
* p: ['', ''],
* P: ['', ''],
* x: '%d.%m.%Y',
* X: '%T'
* });
* </pre>
* </li>
* <li>For Canadian french, we start with French french and change the meaning of \%x:
* <pre>
* YAHOO.util.DateLocale['fr-CA'] = YAHOO.lang.merge(YAHOO.util.DateLocale['fr'], {
* x: '%Y-%m-%d'
* });
* </pre>
* </li>
* </ol>
*
* With that, you can use your new locales:
* <pre>
* var d = new Date("2008/04/22");
* YAHOO.util.Date.format(d, {format: "%A, %d %B == %x"}, "fr");
* </pre>
* will return:
* <pre>
* mardi, 22 avril == 22.04.2008
* </pre>
* And
* <pre>
* YAHOO.util.Date.format(d, {format: "%A, %d %B == %x"}, "fr-CA");
* </pre>
* Will return:
* <pre>
* mardi, 22 avril == 2008-04-22
* </pre>
* @namespace YAHOO.util
* @requires yahoo
* @class DateLocale
*/
YAHOO.util.DateLocale = {
a: ['Sun', 'Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat'],
A: ['Sunday', 'Monday', 'Tuesday', 'Wednesday', 'Thursday', 'Friday', 'Saturday'],
b: ['Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec'],
B: ['January', 'February', 'March', 'April', 'May', 'June', 'July', 'August', 'September', 'October', 'November', 'December'],
c: '%a %d %b %Y %T %Z',
p: ['AM', 'PM'],
P: ['am', 'pm'],
r: '%I:%M:%S %p',
x: '%d/%m/%y',
X: '%T'
};
YAHOO.util.DateLocale['en'] = YAHOO.lang.merge(YAHOO.util.DateLocale, {});
YAHOO.util.DateLocale['en-US'] = YAHOO.lang.merge(YAHOO.util.DateLocale['en'], {
c: '%a %d %b %Y %I:%M:%S %p %Z',
x: '%m/%d/%Y',
X: '%I:%M:%S %p'
});
YAHOO.util.DateLocale['en-GB'] = YAHOO.lang.merge(YAHOO.util.DateLocale['en'], {
r: '%l:%M:%S %P %Z'
});
YAHOO.util.DateLocale['en-AU'] = YAHOO.lang.merge(YAHOO.util.DateLocale['en']);
})();