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b6b202b6bb
The -*- file variable lines -*- establish per-file settings that Emacs will pick up. This patch makes the following changes to those lines (and touches nothing else): - Never set the buffer's mode. Years ago, Emacs did not have a good JavaScript mode, so it made sense to use Java or C++ mode in .js files. However, Emacs has had js-mode for years now; it's perfectly serviceable, and is available and enabled by default in all major Emacs packagings. Selecting a mode in the -*- file variable line -*- is almost always the wrong thing to do anyway. It overrides Emacs's default choice, which is (now) reasonable; and even worse, it overrides settings the user might have made in their '.emacs' file for that file extension. It's only useful when there's something specific about that particular file that makes a particular mode appropriate. - Correctly propagate settings that establish the correct indentation level for this file: c-basic-offset and js2-basic-offset should be js-indent-level. Whatever value they're given should be preserved; different parts of our tree use different indentation styles. - We don't use tabs in Mozilla JS code. Always set indent-tabs-mode: nil. Remove tab-width: settings, at least in files that don't contain tab characters. - Remove js2-mode settings that belong in the user's .emacs file, like js2-skip-preprocessor-directives.
145 lines
5.4 KiB
JavaScript
145 lines
5.4 KiB
JavaScript
/* -*- indent-tabs-mode: nil; js-indent-level: 2 -*- */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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const HOURS_TO_MINUTES = 60;
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const MINUTES_TO_SECONDS = 60;
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const SECONDS_TO_MILLISECONDS = 1000;
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const MINUTES_TO_MILLISECONDS = MINUTES_TO_SECONDS * SECONDS_TO_MILLISECONDS;
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const HOURS_TO_MILLISECONDS = HOURS_TO_MINUTES * MINUTES_TO_MILLISECONDS;
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this.EXPORTED_SYMBOLS = ["ISO8601DateUtils"];
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debug("*** loading ISO8601DateUtils\n");
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this.ISO8601DateUtils = {
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/**
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* XXX Thunderbird's W3C-DTF function
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*
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* Converts a W3C-DTF (subset of ISO 8601) date string to a Javascript
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* date object. W3C-DTF is described in this note:
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* http://www.w3.org/TR/NOTE-datetime IETF is obtained via the Date
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* object's toUTCString() method. The object's toString() method is
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* insufficient because it spells out timezones on Win32
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* (f.e. "Pacific Standard Time" instead of "PST"), which Mail doesn't
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* grok. For info, see
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* http://lxr.mozilla.org/mozilla/source/js/src/jsdate.c#1526.
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*/
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parse: function ISO8601_parse(aDateString) {
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var dateString = aDateString;
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if (!dateString.match('-')) {
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// Workaround for server sending
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// dates such as: 20030530T11:18:50-08:00
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// instead of: 2003-05-30T11:18:50-08:00
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var year = dateString.slice(0, 4);
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var month = dateString.slice(4, 6);
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var rest = dateString.slice(6, dateString.length);
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dateString = year + "-" + month + "-" + rest;
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}
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var parts = dateString.match(/(\d{4})(-(\d{2,3}))?(-(\d{2}))?(T(\d{2}):(\d{2})(:(\d{2})(\.(\d+))?)?(Z|([+-])(\d{2}):(\d{2}))?)?/);
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// Here's an example of a W3C-DTF date string and what .match returns for it.
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//
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// date: 2003-05-30T11:18:50.345-08:00
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// date.match returns array values:
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//
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// 0: 2003-05-30T11:18:50-08:00,
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// 1: 2003,
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// 2: -05,
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// 3: 05,
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// 4: -30,
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// 5: 30,
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// 6: T11:18:50-08:00,
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// 7: 11,
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// 8: 18,
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// 9: :50,
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// 10: 50,
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// 11: .345,
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// 12: 345,
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// 13: -08:00,
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// 14: -,
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// 15: 08,
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// 16: 00
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// Create a Date object from the date parts. Note that the Date
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// object apparently can't deal with empty string parameters in lieu
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// of numbers, so optional values (like hours, minutes, seconds, and
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// milliseconds) must be forced to be numbers.
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var date = new Date(parts[1], parts[3] - 1, parts[5], parts[7] || 0,
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parts[8] || 0, parts[10] || 0, parts[12] || 0);
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// We now have a value that the Date object thinks is in the local
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// timezone but which actually represents the date/time in the
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// remote timezone (f.e. the value was "10:00 EST", and we have
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// converted it to "10:00 PST" instead of "07:00 PST"). We need to
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// correct that. To do so, we're going to add the offset between
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// the remote timezone and UTC (to convert the value to UTC), then
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// add the offset between UTC and the local timezone //(to convert
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// the value to the local timezone).
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// Ironically, W3C-DTF gives us the offset between UTC and the
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// remote timezone rather than the other way around, while the
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// getTimezoneOffset() method of a Date object gives us the offset
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// between the local timezone and UTC rather than the other way
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// around. Both of these are the additive inverse (i.e. -x for x)
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// of what we want, so we have to invert them to use them by
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// multipying by -1 (f.e. if "the offset between UTC and the remote
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// timezone" is -5 hours, then "the offset between the remote
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// timezone and UTC" is -5*-1 = 5 hours).
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// Note that if the timezone portion of the date/time string is
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// absent (which violates W3C-DTF, although ISO 8601 allows it), we
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// assume the value to be in UTC.
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// The offset between the remote timezone and UTC in milliseconds.
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var remoteToUTCOffset = 0;
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if (parts[13] && parts[13] != "Z") {
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var direction = (parts[14] == "+" ? 1 : -1);
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if (parts[15])
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remoteToUTCOffset += direction * parts[15] * HOURS_TO_MILLISECONDS;
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if (parts[16])
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remoteToUTCOffset += direction * parts[16] * MINUTES_TO_MILLISECONDS;
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}
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remoteToUTCOffset = remoteToUTCOffset * -1; // invert it
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// The offset between UTC and the local timezone in milliseconds.
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var UTCToLocalOffset = date.getTimezoneOffset() * MINUTES_TO_MILLISECONDS;
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UTCToLocalOffset = UTCToLocalOffset * -1; // invert it
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date.setTime(date.getTime() + remoteToUTCOffset + UTCToLocalOffset);
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return date;
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},
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create: function ISO8601_create(aDate) {
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function zeropad (s, l) {
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s = s.toString(); // force it to a string
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while (s.length < l) {
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s = '0' + s;
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}
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return s;
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}
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var myDate;
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// if d is a number, turn it into a date
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if (typeof aDate == 'number') {
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myDate = new Date()
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myDate.setTime(aDate);
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} else {
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myDate = aDate;
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}
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// YYYY-MM-DDThh:mm:ssZ
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var result = zeropad(myDate.getUTCFullYear (), 4) +
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zeropad(myDate.getUTCMonth () + 1, 2) +
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zeropad(myDate.getUTCDate (), 2) + 'T' +
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zeropad(myDate.getUTCHours (), 2) + ':' +
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zeropad(myDate.getUTCMinutes (), 2) + ':' +
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zeropad(myDate.getUTCSeconds (), 2) + 'Z';
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return result;
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}
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}
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