// ========================================================================== // Project: SproutCore - JavaScript Application Framework // Copyright: ©2006-2011 Strobe Inc. and contributors. // Portions ©2008-2010 Apple Inc. All rights reserved. // License: Licensed under MIT license (see license.js) // ========================================================================== /** Standard error thrown by SC.Scanner when it runs out of bounds @property {Error} */ SC.SCANNER_OUT_OF_BOUNDS_ERROR = new Error("Out of bounds."); /** Standard error thrown by SC.Scanner when you pass a value not an integer. @property {Error} */ SC.SCANNER_INT_ERROR = new Error("Not an int."); /** Standard error thrown by SC.SCanner when it cannot find a string to skip. @property {Error} */ SC.SCANNER_SKIP_ERROR = new Error("Did not find the string to skip."); /** Standard error thrown by SC.Scanner when it can any kind a string in the matching array. */ SC.SCANNER_SCAN_ARRAY_ERROR = new Error("Did not find any string of the given array to scan."); /** Standard error thrown when trying to compare two dates in different timezones. @property {Error} */ SC.DATETIME_COMPAREDATE_TIMEZONE_ERROR = new Error("Can't compare the dates of two DateTimes that don't have the same timezone."); /** Standard ISO8601 date format @property {String} */ SC.DATETIME_ISO8601 = '%Y-%m-%dT%H:%M:%S%Z'; /** @class A Scanner reads a string and interprets the characters into numbers. You assign the scanner's string on initialization and the scanner progresses through the characters of that string from beginning to end as you request items. Scanners are used by DateTime to convert strings into DateTime objects. @extends SC.Object @since SproutCore 1.0 @author Martin Ottenwaelter */ SC.Scanner = SC.Object.extend( /** @scope SC.Scanner.prototype */ { /** The string to scan. You usually pass it to the create method: {{{ SC.Scanner.create({string: 'May, 8th'}); }}} @property @type {String} */ string: null, /** The current scan location. It is incremented by the scanner as the characters are processed. The default is 0: the beginning of the string. @property @type {integer} */ scanLocation: 0, /** Reads some characters from the string, and increments the scan location accordingly. @param {integer} len the amount of characters to read @throws {SC.SCANNER_OUT_OF_BOUNDS_ERROR} if asked to read too many characters @returns {String} the characters */ scan: function(len) { if (this.scanLocation + len > this.length) throw SC.SCANNER_OUT_OF_BOUNDS_ERROR; var str = this.string.substr(this.scanLocation, len); this.scanLocation += len; return str; }, /** Reads some characters from the string and interprets it as an integer. @param {integer} min_len the minimum amount of characters to read @param {integer} max_len optionally the maximum amount of characters to read (defaults to the minimum) @throws {SC.SCANNER_INT_ERROR} if asked to read non numeric characters @returns {integer} the scanned integer */ scanInt: function(min_len, max_len) { if (max_len === undefined) max_len = min_len; var str = this.scan(max_len); var re = new RegExp("^\\d{" + min_len + "," + max_len + "}"); var match = str.match(re); if (!match) throw SC.SCANNER_INT_ERROR; if (match[0].length < max_len) { this.scanLocation += match[0].length - max_len; } return parseInt(match[0], 10); }, /** Attempts to skip a given string. @param {String} str the string to skip @throws {SC.SCANNER_SKIP_ERROR} if the given string could not be scanned @returns {Boolean} YES if the given string was successfully scanned */ skipString: function(str) { if (this.scan(str.length) !== str) throw SC.SCANNER_SKIP_ERROR; return YES; }, /** Attempts to scan any string in a given array. @param {Array} ary the array of strings to scan @throws {SC.SCANNER_SCAN_ARRAY_ERROR} if no string of the given array is found @returns {integer} the index of the scanned string of the given array */ scanArray: function(ary) { for (var i = 0, len = ary.length; i < len; i++) { if (this.scan(ary[i].length) === ary[i]) { return i; } this.scanLocation -= ary[i].length; } throw SC.SCANNER_SCAN_ARRAY_ERROR; } }); /** @class A class representation of a date and time. It's basically a wrapper around the Date javascript object, KVO friendly and with common date/time manipulation methods. This object differs from the standard JS Date object, however, in that it supports time zones other than UTC and that local to the machine on which it is running. Any time zone can be specified when creating an SC.DateTime object, e.g // Creates a DateTime representing 5am in Washington, DC and 10am in London var d = SC.DateTime.create({ hour: 5, timezone: 300 }); // -5 hours from UTC var e = SC.DateTime.create({ hour: 10, timezone: 0 }); // same time, specified in UTC and it is true that d.isEqual(e). The time zone specified upon creation is permanent, and any calls to get() on that instance will return values expressed in that time zone. So, d.get('hour') returns 5. e.get('hour') returns 10. but d.get('milliseconds') === e.get('milliseconds') is true, since they are technically the same position in time. @extends SC.Object @extends SC.Freezable @extends SC.Copyable @author Martin Ottenwaelter @author Jonathan Lewis @author Josh Holt @since SproutCore 1.0 */ SC.DateTime = SC.Object.extend(SC.Freezable, SC.Copyable, /** @scope SC.DateTime.prototype */ { /** @private Internal representation of a date: the number of milliseconds since January, 1st 1970 00:00:00.0 UTC. @property @type {Integer} */ _ms: 0, /** @read-only The offset, in minutes, between UTC and the object's timezone. All calls to get() will use this time zone to translate date/time values into the zone specified here. @property @type {Integer} */ timezone: 0, /** A DateTime instance is frozen by default for better performance. @property @type {Boolean} */ isFrozen: YES, /** Returns a new DateTime object where one or more of the elements have been changed according to the options parameter. The time options (hour, minute, sec, usec) reset cascadingly, so if only the hour is passed, then minute, sec, and usec is set to 0. If the hour and minute is passed, then sec and usec is set to 0. (Parts copied from the Ruby On Rails documentation) If a time zone is passed in the options hash, all dates and times are assumed to be local to it, and the returned DateTime instance has that time zone. If none is passed, it defaults to SC.DateTime.timezone. Note that passing only a time zone does not affect the actual milliseconds since Jan 1, 1970, only the time zone in which it is expressed when displayed. @see SC.DateTime#create for the list of options you can pass @returns {DateTime} copy of receiver */ adjust: function(options, resetCascadingly) { var timezone; options = options ? SC.clone(options) : {}; timezone = (options.timezone !== undefined) ? options.timezone : (this.timezone !== undefined) ? this.timezone : 0; return this.constructor._adjust(options, this._ms, timezone, resetCascadingly)._createFromCurrentState(); }, /** Returns a new DateTime object advanced according the the given parameters. Don't use floating point values, it might give unpredicatble results. @see SC.DateTime#create for the list of options you can pass @param {Hash} options the amount of date/time to advance the receiver @returns {DateTime} copy of the receiver */ advance: function(options) { return this.constructor._advance(options, this._ms, this.timezone)._createFromCurrentState(); }, /** Generic getter. The properties you can get are: - 'year' - 'month' (January is 1, contrary to JavaScript Dates for which January is 0) - 'day' - 'dayOfWeek' (Sunday is 0) - 'hour' - 'minute' - 'second' - 'millisecond' - 'milliseconds', the number of milliseconds since January, 1st 1970 00:00:00.0 UTC - 'isLeapYear', a boolean value indicating whether the receiver's year is a leap year - 'daysInMonth', the number of days of the receiver's current month - 'dayOfYear', January 1st is 1, December 31th is 365 for a common year - 'week' or 'week1', the week number of the current year, starting with the first Sunday as the first day of the first week (00..53) - 'week0', the week number of the current year, starting with the first Monday as the first day of the first week (00..53) - 'lastMonday', 'lastTuesday', etc., 'nextMonday', 'nextTuesday', etc., the date of the last or next weekday in comparison to the receiver. @param {String} key the property name to get @return the value asked for */ unknownProperty: function(key) { return this.constructor._get(key, this._ms, this.timezone); }, /** Formats the receiver according to the given format string. Should behave like the C strftime function. The format parameter can contain the following characters: - %a - The abbreviated weekday name (``Sun'') - %A - The full weekday name (``Sunday'') - %b - The abbreviated month name (``Jan'') - %B - The full month name (``January'') - %c - The preferred local date and time representation - %d - Day of the month (01..31) - %h - Hour of the day, 24-hour clock (0..23) - %H - Hour of the day, 24-hour clock (00..23) - %i - Hour of the day, 12-hour clock (1..12) - %I - Hour of the day, 12-hour clock (01..12) - %j - Day of the year (001..366) - %m - Month of the year (01..12) - %M - Minute of the hour (00..59) - %p - Meridian indicator (``AM'' or ``PM'') - %S - Second of the minute (00..60) - %U - Week number of the current year, starting with the first Sunday as the first day of the first week (00..53) - %W - Week number of the current year, starting with the first Monday as the first day of the first week (00..53) - %w - Day of the week (Sunday is 0, 0..6) - %x - Preferred representation for the date alone, no time - %X - Preferred representation for the time alone, no date - %y - Year without a century (00..99) - %Y - Year with century - %Z - Time zone (ISO 8601 formatted) - %% - Literal ``%'' character @param {String} format the format string @return {String} the formatted string */ toFormattedString: function(fmt) { return this.constructor._toFormattedString(fmt, this._ms, this.timezone); }, /** Formats the receiver according ISO 8601 standard. It is equivalent to calling toFormattedString with the '%Y-%m-%dT%H:%M:%S%Z' format string. @return {String} the formatted string */ toISO8601: function(){ return this.constructor._toFormattedString(SC.DATETIME_ISO8601, this._ms, this.timezone); }, /** @private Creates a string representation of the receiver. (Debuggers call all the time the toString method. Because of the way DateTime is designed, calling SC.DateTime._toFormattedString would have a nasty side effect. We shouldn't therefore call any of SC.DateTime's methods from toString) @returns {String} */ toString: function() { return "UTC: " + new Date(this._ms).toUTCString() + ", timezone: " + this.timezone; }, /** Returns YES if the passed DateTime is equal to the receiver, ie: if their number of milliseconds since January, 1st 1970 00:00:00.0 UTC are equal. This is the preferred method for testing equality. @see SC.DateTime#compare @param {SC.DateTime} aDateTime the DateTime to compare to @returns {Boolean} */ isEqual: function(aDateTime) { return SC.DateTime.compare(this, aDateTime) === 0; }, /** Returns a copy of the receiver. Because of the way DateTime is designed, it just returns the receiver. @returns {DateTime} */ copy: function() { return this; }, /** Returns a copy of the receiver with the timezone set to the passed timezone. The returned value is equal to the receiver (ie SC.Compare returns 0), it is just the timezone representation that changes. If you don't pass any argument, the target timezone is assumed to be 0, ie UTC. Note that this method does not change the underlying position in time, but only the time zone in which it is displayed. In other words, the underlying number of milliseconds since Jan 1, 1970 does not change. @return {DateTime} */ toTimezone: function(timezone) { if (timezone === undefined) timezone = 0; return this.advance({ timezone: timezone - this.timezone }); } }); // Class Methods SC.DateTime.mixin(SC.Comparable, /** @scope SC.DateTime */ { /** The default format (ISO 8601) in which DateTimes are stored in a record. Change this value if your backend sends and receives dates in another format. This value can also be customized on a per-attribute basis with the format property. For example: SC.Record.attr(SC.DateTime, { format: '%d/%m/%Y %H:%M:%S' }) @property @type {String} */ recordFormat: SC.DATETIME_ISO8601, /** The localized day names. Add the key '_SC.DateTime.dayNames' and its value to your strings.js file to add support for another language than English. @property @type {Array} */ dayNames: '_SC.DateTime.dayNames'.loc().w(), /** @private The English day names used for the 'lastMonday', 'nextTuesday', etc., getters. @property @type {Array} */ _englishDayNames: 'Sunday Monday Tuesday Wednesday Thursday Friday Saturday'.w(), /** The localized abbreviated day names. Add the key '_SC.DateTime.abbreviatedDayNames' and its value to your strings.js file to add support for another language than English. @property @type {Array} */ abbreviatedDayNames: '_SC.DateTime.abbreviatedDayNames'.loc().w(), /** The localized month names. Add the key '_SC.DateTime.monthNames' and its value to your strings.js file to add support for another language than English. @property @type {Array} */ monthNames: '_SC.DateTime.monthNames'.loc().w(), /** The localized abbreviated month names. Add the key '_SC.DateTime.abbreviatedMonthNames' and its value to your strings.js file to add support for another language than English. @property @type {Array} */ abbreviatedMonthNames: '_SC.DateTime.abbreviatedMonthNames'.loc().w(), /** @private The unique internal Date object used to make computations. Better performance is obtained by having only one Date object for the whole application and manipulating it with setTime() and getTime(). Note that since this is used for internal calculations across many DateTime instances, it is not guaranteed to store the date/time that any one DateTime instance represents. So it might be that this._date.getTime() !== this._ms Be sure to set it before using for internal calculations if necessary. @property @type {Date} */ _date: new Date(), /** @private The offset, in minutes, between UTC and the currently manipulated DateTime instance. @property @type {Integer} */ _tz: 0, /** The offset, in minutes, between UTC and the local system time. This property is computed at loading time and should never be changed. @property @type {Integer} */ timezone: new Date().getTimezoneOffset(), /** @private A cache of SC.DateTime instances. If you attempt to create a SC.DateTime instance that has already been created, then it will return the cached value. @property @type {Array} */ _dt_cache: {}, /** @private The index of the lastest cached value. Used with _DT_CACHE_MAX_LENGTH to limit the size of the cache. @property @type {Integer} */ _dt_cache_index: -1, /** @private The maximum length of _dt_cache. If this limit is reached, then the cache is overwritten, starting with the oldest element. @property @type {Integer} */ _DT_CACHE_MAX_LENGTH: 1000, /** @private Both args are optional, but will only overwrite _date and _tz if defined. This method does not affect the DateTime instance's actual time, but simply initializes the one _date instance to a time relevant for a calculation. (this._date is just a resource optimization) This is mainly used as a way to store a recursion starting state during internal calculations. 'milliseconds' is time since Jan 1, 1970. 'timezone' is the current time zone we want to be working in internally. Returns a hash of the previous milliseconds and time zone in case they are wanted for later restoration. */ _setCalcState: function(ms, timezone) { var previous = { milliseconds: this._date.getTime(), timezone: this._tz }; if (ms !== undefined) this._date.setTime(ms); if (timezone !== undefined) this._tz = timezone; return previous; }, /** By this time, any time zone setting on 'hash' will be ignored. 'timezone' will be used, or the last this._tz. */ _setCalcStateFromHash: function(hash, timezone) { var tz = (timezone !== undefined) ? timezone : this._tz; // use the last-known time zone if necessary var ms = this._toMilliseconds(hash, this._ms, tz); // convert the hash (local to specified time zone) to milliseconds (in UTC) return this._setCalcState(ms, tz); // now call the one we really wanted }, /** @private @see SC.DateTime#unknownProperty */ _get: function(key, start, timezone) { var ms, tz, doy, m, y, firstDayOfWeek, dayOfWeek, dayOfYear, prefix, suffix; var currentWeekday, targetWeekday; var d = this._date; var originalTime, v = null; // Set up an absolute date/time using the given milliseconds since Jan 1, 1970. // Only do it if we're given a time value, though, otherwise we want to use the // last one we had because this _get() method is recursive. // // Note that because these private time calc methods are recursive, and because all DateTime instances // share an internal this._date and this._tz state for doing calculations, methods // that modify this._date or this._tz should restore the last state before exiting // to avoid obscure calculation bugs. So we save the original state here, and restore // it before returning at the end. originalTime = this._setCalcState(start, timezone); // save so we can restore it to how it was before we got here // Check this first because it is an absolute value -- no tweaks necessary when calling for milliseconds if (key === 'milliseconds') { v = d.getTime(); } else if (key === 'timezone') { v = this._tz; } // 'nextWeekday' or 'lastWeekday'. // We want to do this calculation in local time, before shifting UTC below. if (v === null) { prefix = key.slice(0, 4); suffix = key.slice(4); if (prefix === 'last' || prefix === 'next') { currentWeekday = this._get('dayOfWeek', start, timezone); targetWeekday = this._englishDayNames.indexOf(suffix); if (targetWeekday >= 0) { var delta = targetWeekday - currentWeekday; if (prefix === 'last' && delta >= 0) delta -= 7; if (prefix === 'next' && delta < 0) delta += 7; this._advance({ day: delta }, start, timezone); v = this._createFromCurrentState(); } } } if (v === null) { // need to adjust for alternate display time zone. // Before calculating, we need to get everything into a common time zone to // negate the effects of local machine time (so we can use all the 'getUTC...() methods on Date). if (timezone !== undefined) { this._setCalcState(d.getTime() - (timezone * 60000), 0); // make this instance's time zone the new UTC temporarily } // simple keys switch (key) { case 'year': v = d.getUTCFullYear(); //TODO: investigate why some libraries do getFullYear().toString() or getFullYear()+"" break; case 'month': v = d.getUTCMonth()+1; // January is 0 in JavaScript break; case 'day': v = d.getUTCDate(); break; case 'dayOfWeek': v = d.getUTCDay(); break; case 'hour': v = d.getUTCHours(); break; case 'minute': v = d.getUTCMinutes(); break; case 'second': v = d.getUTCSeconds(); break; case 'millisecond': v = d.getUTCMilliseconds(); break; } // isLeapYear if ((v === null) && (key === 'isLeapYear')) { y = this._get('year'); v = (y%4 === 0 && y%100 !== 0) || y%400 === 0; } // daysInMonth if ((v === null) && (key === 'daysInMonth')) { switch (this._get('month')) { case 4: case 6: case 9: case 11: v = 30; break; case 2: v = this._get('isLeapYear') ? 29 : 28; break; default: v = 31; break; } } // dayOfYear if ((v === null) && (key === 'dayOfYear')) { ms = d.getTime(); // save time doy = this._get('day'); this._setCalcStateFromHash({ day: 1 }); for (m = this._get('month') - 1; m > 0; m--) { this._setCalcStateFromHash({ month: m }); doy += this._get('daysInMonth'); } d.setTime(ms); // restore time v = doy; } // week, week0 or week1 if ((v === null) && (key.slice(0, 4) === 'week')) { // firstDayOfWeek should be 0 (Sunday) or 1 (Monday) firstDayOfWeek = key.length === 4 ? 1 : parseInt(key.slice('4'), 10); dayOfWeek = this._get('dayOfWeek'); dayOfYear = this._get('dayOfYear') - 1; if (firstDayOfWeek === 0) { v = parseInt((dayOfYear - dayOfWeek + 7) / 7, 10); } else { v = parseInt((dayOfYear - (dayOfWeek - 1 + 7) % 7 + 7) / 7, 10); } } } // restore the internal calculation state in case someone else was in the // middle of a calculation (we might be recursing). this._setCalcState(originalTime.milliseconds, originalTime.timezone); return v; }, /** Sets the internal calculation state to something specified. */ _adjust: function(options, start, timezone, resetCascadingly) { var opts = options ? SC.clone(options) : {}; var ms = this._toMilliseconds(options, start, timezone, resetCascadingly); this._setCalcState(ms, timezone); return this; // for chaining }, /** @private @see SC.DateTime#advance */ _advance: function(options, start, timezone) { var opts = options ? SC.clone(options) : {}; var tz; for (var key in opts) { opts[key] += this._get(key, start, timezone); } // The time zone can be advanced by a delta as well, so try to use the // new value if there is one. tz = (opts.timezone !== undefined) ? opts.timezone : timezone; // watch out for zero, which is acceptable as a time zone return this._adjust(opts, start, tz, NO); }, /* @private Converts a standard date/time options hash to an integer representing that position in time relative to Jan 1, 1970 */ _toMilliseconds: function(options, start, timezone, resetCascadingly) { var opts = options ? SC.clone(options) : {}; var d = this._date; var previousMilliseconds = d.getTime(); // rather than create a new Date object, we'll reuse the instance we have for calculations, then restore it var ms, tz; // Initialize our internal for-calculations Date object to our current date/time. // Note that this object was created in the local machine time zone, so when we set // its params later, it will be assuming these values to be in the same time zone as it is. // It's ok for start to be null, in which case we'll just keep whatever we had in 'd' before. if (!SC.none(start)) { d.setTime(start); // using milliseconds here specifies an absolute location in time, regardless of time zone, so that's nice } // We have to get all time expressions, both in 'options' (assume to be in time zone 'timezone') // and in 'd', to the same time zone before we can any calculations correctly. So because the Date object provides // a suite of UTC getters and setters, we'll temporarily redefine 'timezone' as our new // 'UTC', so we don't have to worry about local machine time. We do this by subtracting // milliseconds for the time zone offset. Then we'll do all our calculations, then convert // it back to real UTC. // (Zero time zone is considered a valid value.) tz = (timezone !== undefined) ? timezone : (this.timezone !== undefined) ? this.timezone : 0; d.setTime(d.getTime() - (tz * 60000)); // redefine 'UTC' to establish a new local absolute so we can use all the 'getUTC...()' Date methods // the time options (hour, minute, sec, millisecond) // reset cascadingly (see documentation) if (resetCascadingly === undefined || resetCascadingly === YES) { if ( !SC.none(opts.hour) && SC.none(opts.minute)) { opts.minute = 0; } if (!(SC.none(opts.hour) && SC.none(opts.minute)) && SC.none(opts.second)) { opts.second = 0; } if (!(SC.none(opts.hour) && SC.none(opts.minute) && SC.none(opts.second)) && SC.none(opts.millisecond)) { opts.millisecond = 0; } } // Get the current values for any not provided in the options hash. // Since everything is in 'UTC' now, use the UTC accessors. We do this because, // according to javascript Date spec, you have to set year, month, and day together // if you're setting any one of them. So we'll use the provided Date.UTC() method // to get milliseconds, and we need to get any missing values first... if (SC.none(opts.year)) opts.year = d.getUTCFullYear(); if (SC.none(opts.month)) opts.month = d.getUTCMonth() + 1; // January is 0 in JavaScript if (SC.none(opts.day)) opts.day = d.getUTCDate(); if (SC.none(opts.hour)) opts.hour = d.getUTCHours(); if (SC.none(opts.minute)) opts.minute = d.getUTCMinutes(); if (SC.none(opts.second)) opts.second = d.getUTCSeconds(); if (SC.none(opts.millisecond)) opts.millisecond = d.getUTCMilliseconds(); // Ask the JS Date to calculate milliseconds for us (still in redefined UTC). It // is best to set them all together because, for example, a day value means different things // to the JS Date object depending on which month or year it is. It can now handle that stuff // internally as it's made to do. ms = Date.UTC(opts.year, opts.month - 1, opts.day, opts.hour, opts.minute, opts.second, opts.millisecond); // Now that we've done all our calculations in a common time zone, add back the offset // to move back to real UTC. d.setTime(ms + (tz * 60000)); ms = d.getTime(); // now get the corrected milliseconds value // Restore what was there previously before leaving in case someone called this method // in the middle of another calculation. d.setTime(previousMilliseconds); return ms; }, /** Returns a new DateTime object advanced according the the given parameters. The parameters can be: - none, to create a DateTime instance initialized to the current date and time in the local timezone, - a integer, the number of milliseconds since January, 1st 1970 00:00:00.0 UTC - a options hash that can contain any of the following properties: year, month, day, hour, minute, second, millisecond, timezone Note that if you attempt to create a SC.DateTime instance that has already been created, then, for performance reasons, a cached value may be returned. The timezone option is the offset, in minutes, between UTC and local time. If you don't pass a timezone option, the date object is created in the local timezone. If you want to create a UTC+2 (CEST) date, for example, then you should pass a timezone of -120. @param options one of the three kind of parameters descibed above @returns {DateTime} the DateTime instance that corresponds to the passed parameters, possibly fetched from cache */ create: function() { var arg = arguments.length === 0 ? {} : arguments[0]; var timezone; // if simply milliseconds since Jan 1, 1970 are given, just use those if (SC.typeOf(arg) === SC.T_NUMBER) { arg = { milliseconds: arg }; } // Default to local machine time zone if none is given timezone = (arg.timezone !== undefined) ? arg.timezone : this.timezone; if (timezone === undefined) timezone = 0; // Desired case: create with milliseconds if we have them. // If we don't, convert what we have to milliseconds and recurse. if (!SC.none(arg.milliseconds)) { // quick implementation of a FIFO set for the cache var key = 'nu' + arg.milliseconds + timezone, cache = this._dt_cache; var ret = cache[key]; if (!ret) { var previousKey, idx = this._dt_cache_index, C = this; ret = cache[key] = new C([{ _ms: arg.milliseconds, timezone: timezone }]); idx = this._dt_cache_index = (idx + 1) % this._DT_CACHE_MAX_LENGTH; previousKey = cache[idx]; if (previousKey !== undefined && cache[previousKey]) delete cache[previousKey]; cache[idx] = key; } return ret; } // otherwise, convert what we have to milliseconds and try again else { var now = new Date(); return this.create({ // recursive call with new arguments milliseconds: this._toMilliseconds(arg, now.getTime(), timezone, arg.resetCascadingly), timezone: timezone }); } }, /** @private Calls the create() method with the current internal _date value. @return {DateTime} the DateTime instance returned by create() */ _createFromCurrentState: function() { return this.create({ milliseconds: this._date.getTime(), timezone: this._tz }); }, /** Returns a DateTime object created from a given string parsed with a given format. Returns null if the parsing fails. @see SC.DateTime#toFormattedString for a description of the format parameter @param {String} str the string to parse @param {String} fmt the format to parse the string with @returns {DateTime} the DateTime corresponding to the string parameter */ parse: function(str, fmt) { // Declared as an object not a literal since in some browsers the literal // retains state across function calls var re = new RegExp('(?:%([aAbBcdHIjmMpSUWwxXyYZ%])|(.))', "g"); var d, parts, opts = {}, check = {}, scanner = SC.Scanner.create({string: str}); if (SC.none(fmt)) fmt = SC.DATETIME_ISO8601; try { while ((parts = re.exec(fmt)) !== null) { switch(parts[1]) { case 'a': check.dayOfWeek = scanner.scanArray(this.abbreviatedDayNames); break; case 'A': check.dayOfWeek = scanner.scanArray(this.dayNames); break; case 'b': opts.month = scanner.scanArray(this.abbreviatedMonthNames) + 1; break; case 'B': opts.month = scanner.scanArray(this.monthNames) + 1; break; case 'c': throw "%c is not implemented"; case 'd': opts.day = scanner.scanInt(1, 2); break; case 'H': opts.hour = scanner.scanInt(1, 2); break; case 'I': opts.hour = scanner.scanInt(1, 2); break; case 'j': throw "%j is not implemented"; case 'm': opts.month = scanner.scanInt(1, 2); break; case 'M': opts.minute = scanner.scanInt(1, 2); break; case 'p': opts.meridian = scanner.scanArray(['AM', 'PM']); break; case 'S': opts.second = scanner.scanInt(1, 2); break; case 'U': throw "%U is not implemented"; case 'W': throw "%W is not implemented"; case 'w': throw "%w is not implemented"; case 'x': throw "%x is not implemented"; case 'X': throw "%X is not implemented"; case 'y': opts.year = scanner.scanInt(2); opts.year += (opts.year > 70 ? 1900 : 2000); break; case 'Y': opts.year = scanner.scanInt(4); break; case 'Z': var modifier = scanner.scan(1); if (modifier === 'Z') { opts.timezone = 0; } else if (modifier === '+' || modifier === '-' ) { var h = scanner.scanInt(2); if (scanner.scan(1) !== ':') scanner.scan(-1); var m = scanner.scanInt(2); opts.timezone = (modifier === '+' ? -1 : 1) * (h*60 + m); } break; case '%': scanner.skipString('%'); break; default: scanner.skipString(parts[0]); break; } } } catch (e) { console.log('SC.DateTime.createFromString ' + e.toString()); return null; } if (!SC.none(opts.meridian) && !SC.none(opts.hour)) { if (opts.meridian === 1) opts.hour = (opts.hour + 12) % 24; delete opts.meridian; } d = SC.DateTime.create(opts); if (!SC.none(check.dayOfWeek) && d.get('dayOfWeek') !== check.dayOfWeek) { return null; } return d; }, /** @private Converts the x parameter into a string padded with 0s so that the string’s length is at least equal to the len parameter. @param x the object to convert to a string @param {Integer} the minimum length of the returned string @returns {String} the padded string */ _pad: function(x, len) { var str = '' + x; if (len === undefined) len = 2; while (str.length < len) str = '0' + str; return str; }, /** @private @see SC.DateTime#_toFormattedString */ __toFormattedString: function(part, start, timezone) { var hour, offset; // Note: all calls to _get() here should include only one // argument, since _get() is built for recursion and behaves differently // if arguments 2 and 3 are included. // // This method is simply a helper for this._toFormattedString() (one underscore); // this is only called from there, and _toFormattedString() has already // set up the appropriate internal date/time/timezone state for it. switch(part[1]) { case 'a': return this.abbreviatedDayNames[this._get('dayOfWeek')]; case 'A': return this.dayNames[this._get('dayOfWeek')]; case 'b': return this.abbreviatedMonthNames[this._get('month')-1]; case 'B': return this.monthNames[this._get('month')-1]; case 'c': return this._date.toString(); case 'd': return this._pad(this._get('day')); case 'D': return this._get('day'); case 'h': return this._get('hour'); case 'H': return this._pad(this._get('hour')); case 'i': hour = this._get('hour'); return (hour === 12 || hour === 0) ? 12 : (hour + 12) % 12; case 'I': hour = this._get('hour'); return this._pad((hour === 12 || hour === 0) ? 12 : (hour + 12) % 12); case 'j': return this._pad(this._get('dayOfYear'), 3); case 'm': return this._pad(this._get('month')); case 'M': return this._pad(this._get('minute')); case 'p': return this._get('hour') > 11 ? 'PM' : 'AM'; case 'S': return this._pad(this._get('second')); case 'u': return this._pad(this._get('utc')); //utc case 'U': return this._pad(this._get('week0')); case 'W': return this._pad(this._get('week1')); case 'w': return this._get('dayOfWeek'); case 'x': return this._date.toDateString(); case 'X': return this._date.toTimeString(); case 'y': return this._pad(this._get('year') % 100); case 'Y': return this._get('year'); case 'Z': offset = -1 * timezone; return (offset >= 0 ? '+' : '-') + this._pad(parseInt(Math.abs(offset)/60, 10)) + ':' + this._pad(Math.abs(offset)%60); case '%': return '%'; } }, /** @private @see SC.DateTime#toFormattedString */ _toFormattedString: function(format, start, timezone) { var that = this; var tz = (timezone !== undefined) ? timezone : (this.timezone !== undefined) ? this.timezone : 0; // need to move into local time zone for these calculations this._setCalcState(start - (timezone * 60000), 0); // so simulate a shifted 'UTC' time return format.replace(/\%([aAbBcdDHiIjmMpSUWwxXyYZ\%])/g, function() { var v = that.__toFormattedString.call(that, arguments, start, timezone); return v; }); }, /** This will tell you which of the two passed DateTime is greater than the other, by comparing if their number of milliseconds since January, 1st 1970 00:00:00.0 UTC. @param {SC.DateTime} a the first DateTime instance @param {SC.DateTime} b the second DateTime instance @returns {Integer} -1 if a < b, +1 if a > b, 0 if a == b */ compare: function(a, b) { var ma = a.get('milliseconds'); var mb = b.get('milliseconds'); return ma < mb ? -1 : ma === mb ? 0 : 1; }, /** This will tell you which of the two passed DateTime is greater than the other, by only comparing the date parts of the passed objects. Only dates with the same timezone can be compared. @param {SC.DateTime} a the first DateTime instance @param {SC.DateTime} b the second DateTime instance @returns {Integer} -1 if a < b, +1 if a > b, 0 if a == b @throws {SC.DATETIME_COMPAREDATE_TIMEZONE_ERROR} if the passed arguments don't have the same timezone */ compareDate: function(a, b) { if (a.get('timezone') !== b.get('timezone')) throw SC.DATETIME_COMPAREDATE_TIMEZONE_ERROR; var ma = a.adjust({hour: 0}).get('milliseconds'); var mb = b.adjust({hour: 0}).get('milliseconds'); return ma < mb ? -1 : ma === mb ? 0 : 1; } }); /** Adds a transform to format the DateTime value to a String value according to the passed format string. {{ valueBinding: SC.Binding.dateTime('%Y-%m-%d %H:%M:%S') .from('MyApp.myController.myDateTime'); }} @param {String} format format string @returns {SC.Binding} this */ SC.Binding.dateTime = function(format) { return this.transform(function(value, binding) { return value ? value.toFormattedString(format) : null; }); }; if (SC.RecordAttribute && !SC.RecordAttribute.transforms[SC.guidFor(SC.DateTime)]) { /** Registers a transform to allow SC.DateTime to be used as a record attribute, ie SC.Record.attr(SC.DateTime); Because SC.RecordAttribute is in the datastore framework and SC.DateTime in the foundation framework, and we don't know which framework is being loaded first, this chunck of code is duplicated in both frameworks. IF YOU EDIT THIS CODE MAKE SURE YOU COPY YOUR CHANGES to record_attribute.js. */ SC.RecordAttribute.registerTransform(SC.DateTime, { /** @private Convert a String to a DateTime */ to: function(str, attr) { if (SC.none(str) || SC.instanceOf(str, SC.DateTime)) return str; var format = attr.get('format'); return SC.DateTime.parse(str, format ? format : SC.DateTime.recordFormat); }, /** @private Convert a DateTime to a String */ from: function(dt, attr) { if (SC.none(dt)) return dt; var format = attr.get('format'); return dt.toFormattedString(format ? format : SC.DateTime.recordFormat); } }); }