gecko/js/xpconnect/loader/ISO8601DateUtils.jsm

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/* -*- indent-tabs-mode: nil; js-indent-level: 2 -*- */
2012-05-21 04:12:37 -07:00
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
const HOURS_TO_MINUTES = 60;
const MINUTES_TO_SECONDS = 60;
const SECONDS_TO_MILLISECONDS = 1000;
const MINUTES_TO_MILLISECONDS = MINUTES_TO_SECONDS * SECONDS_TO_MILLISECONDS;
const HOURS_TO_MILLISECONDS = HOURS_TO_MINUTES * MINUTES_TO_MILLISECONDS;
this.EXPORTED_SYMBOLS = ["ISO8601DateUtils"];
debug("*** loading ISO8601DateUtils\n");
this.ISO8601DateUtils = {
/**
* XXX Thunderbird's W3C-DTF function
*
* Converts a W3C-DTF (subset of ISO 8601) date string to a Javascript
* date object. W3C-DTF is described in this note:
* http://www.w3.org/TR/NOTE-datetime IETF is obtained via the Date
* object's toUTCString() method. The object's toString() method is
* insufficient because it spells out timezones on Win32
* (f.e. "Pacific Standard Time" instead of "PST"), which Mail doesn't
* grok. For info, see
* http://lxr.mozilla.org/mozilla/source/js/src/jsdate.c#1526.
*/
parse: function ISO8601_parse(aDateString) {
var dateString = aDateString;
if (!dateString.match('-')) {
// Workaround for server sending
// dates such as: 20030530T11:18:50-08:00
// instead of: 2003-05-30T11:18:50-08:00
var year = dateString.slice(0, 4);
var month = dateString.slice(4, 6);
var rest = dateString.slice(6, dateString.length);
dateString = year + "-" + month + "-" + rest;
}
var parts = dateString.match(/(\d{4})(-(\d{2,3}))?(-(\d{2}))?(T(\d{2}):(\d{2})(:(\d{2})(\.(\d+))?)?(Z|([+-])(\d{2}):(\d{2}))?)?/);
// Here's an example of a W3C-DTF date string and what .match returns for it.
//
// date: 2003-05-30T11:18:50.345-08:00
// date.match returns array values:
//
// 0: 2003-05-30T11:18:50-08:00,
// 1: 2003,
// 2: -05,
// 3: 05,
// 4: -30,
// 5: 30,
// 6: T11:18:50-08:00,
// 7: 11,
// 8: 18,
// 9: :50,
// 10: 50,
// 11: .345,
// 12: 345,
// 13: -08:00,
// 14: -,
// 15: 08,
// 16: 00
// Create a Date object from the date parts. Note that the Date
// object apparently can't deal with empty string parameters in lieu
// of numbers, so optional values (like hours, minutes, seconds, and
// milliseconds) must be forced to be numbers.
var date = new Date(parts[1], parts[3] - 1, parts[5], parts[7] || 0,
parts[8] || 0, parts[10] || 0, parts[12] || 0);
// We now have a value that the Date object thinks is in the local
// timezone but which actually represents the date/time in the
// remote timezone (f.e. the value was "10:00 EST", and we have
// converted it to "10:00 PST" instead of "07:00 PST"). We need to
// correct that. To do so, we're going to add the offset between
// the remote timezone and UTC (to convert the value to UTC), then
// add the offset between UTC and the local timezone //(to convert
// the value to the local timezone).
// Ironically, W3C-DTF gives us the offset between UTC and the
// remote timezone rather than the other way around, while the
// getTimezoneOffset() method of a Date object gives us the offset
// between the local timezone and UTC rather than the other way
// around. Both of these are the additive inverse (i.e. -x for x)
// of what we want, so we have to invert them to use them by
// multipying by -1 (f.e. if "the offset between UTC and the remote
// timezone" is -5 hours, then "the offset between the remote
// timezone and UTC" is -5*-1 = 5 hours).
// Note that if the timezone portion of the date/time string is
// absent (which violates W3C-DTF, although ISO 8601 allows it), we
// assume the value to be in UTC.
// The offset between the remote timezone and UTC in milliseconds.
var remoteToUTCOffset = 0;
if (parts[13] && parts[13] != "Z") {
var direction = (parts[14] == "+" ? 1 : -1);
if (parts[15])
remoteToUTCOffset += direction * parts[15] * HOURS_TO_MILLISECONDS;
if (parts[16])
remoteToUTCOffset += direction * parts[16] * MINUTES_TO_MILLISECONDS;
}
remoteToUTCOffset = remoteToUTCOffset * -1; // invert it
// The offset between UTC and the local timezone in milliseconds.
var UTCToLocalOffset = date.getTimezoneOffset() * MINUTES_TO_MILLISECONDS;
UTCToLocalOffset = UTCToLocalOffset * -1; // invert it
date.setTime(date.getTime() + remoteToUTCOffset + UTCToLocalOffset);
return date;
},
create: function ISO8601_create(aDate) {
function zeropad (s, l) {
s = s.toString(); // force it to a string
while (s.length < l) {
s = '0' + s;
}
return s;
}
var myDate;
// if d is a number, turn it into a date
if (typeof aDate == 'number') {
myDate = new Date()
myDate.setTime(aDate);
} else {
myDate = aDate;
}
// YYYY-MM-DDThh:mm:ssZ
var result = zeropad(myDate.getUTCFullYear (), 4) +
zeropad(myDate.getUTCMonth () + 1, 2) +
zeropad(myDate.getUTCDate (), 2) + 'T' +
zeropad(myDate.getUTCHours (), 2) + ':' +
zeropad(myDate.getUTCMinutes (), 2) + ':' +
zeropad(myDate.getUTCSeconds (), 2) + 'Z';
return result;
}
}