/* * Licensed under the GNU Lesser General Public License Version 3 * * This library is free software: you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation, either version 3 of the license, or * (at your option) any later version. * * This software is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with this library. If not, see . */ // generated automatically - do not change module glib.DateTime; private import gi.glib; public import gi.glibtypes; private import glib.ConstructionException; private import glib.Str; private import glib.TimeVal; private import glib.TimeZone; /** * `GDateTime` is an opaque structure whose members * cannot be accessed directly. * * Since: 2.26 */ public class DateTime { /** the main Gtk struct */ protected GDateTime* gDateTime; protected bool ownedRef; /** Get the main Gtk struct */ public GDateTime* getDateTimeStruct() { return gDateTime; } /** the main Gtk struct as a void* */ protected void* getStruct() { return cast(void*)gDateTime; } /** * Sets our main struct and passes it to the parent class. */ public this (GDateTime* gDateTime, bool ownedRef = false) { this.gDateTime = gDateTime; this.ownedRef = ownedRef; } /** * Creates a DateTime corresponding to the given Unix time t * Unix time is the number of seconds that have elapsed since 1970-01-01 * 00:00:00 UTC, regardless of the local time offset. * * This call can fail (ConstructionException) if t represents a time outside * of the supported range of GDateTime. * You should release the return value by calling unref() * when you are done with it * * Params: * t = the Unix time * utc = If true use utc else use the local timezone. * * Throws: ConstructionException GTK+ fails to create the object. * * Since: 2.26 */ public this (long t, bool utc = true) { GDateTime* p; if ( utc ) { p = g_date_time_new_from_unix_utc(t); } else { p = g_date_time_new_from_unix_local(t); } if(p is null) { throw new ConstructionException("null returned by g_date_time_new_from_unix_local(t)"); } this(cast(GDateTime*) p); } /** * Creates a DateTime corresponding to the given TimeVal tv. * The time contained in a TimeVal is always stored in the form of * seconds elapsed since 1970-01-01 00:00:00 UTC, regardless of the * local time offset. * * This call can fail (ConstructionException) if tv represents a time outside * of the supported range of DateTime. * You should release the return value by calling unref() * when you are done with it. * * Params: * tv = a GTimeVal * utc = If true use utc else use the local timezone. * * Throws: ConstructionException GTK+ fails to create the object. * * Since: 2.26 */ public this (ref GTimeVal tv, bool utc = true) { GDateTime* p; if ( utc ) { p = g_date_time_new_from_timeval_utc(&tv); } else { p = g_date_time_new_from_timeval_local(&tv); } if(p is null) { throw new ConstructionException("null returned by g_date_time_new_from_timeval_local((tv is null) ? null : tv.getTimeValStruct())"); } this(cast(GDateTime*) p); } /** */ override bool opEquals(Object rhs) { DateTime date = cast(DateTime)rhs; if ( date is null ) return false; return equal(this, date) != 0; } /** */ override int opCmp(Object rhs) { DateTime date = cast(DateTime)rhs; if ( date is null ) return int.min; return compare(this, date); } /** */ override nothrow @trusted hash_t toHash() { return hash(); } /** * Hashes datetime into a guint, suitable for use within GHashTable. * Since 2.26 * Params: * datetime = a GDateTime * Returns: a guint containing the hash */ public nothrow @trusted uint hash() { try { return g_date_time_hash(gDateTime); } catch(Exception e) { return 0; } } /** */ /** * Creates a new #GDateTime corresponding to the given date and time in * the time zone @tz. * * The @year must be between 1 and 9999, @month between 1 and 12 and @day * between 1 and 28, 29, 30 or 31 depending on the month and the year. * * @hour must be between 0 and 23 and @minute must be between 0 and 59. * * @seconds must be at least 0.0 and must be strictly less than 60.0. * It will be rounded down to the nearest microsecond. * * If the given time is not representable in the given time zone (for * example, 02:30 on March 14th 2010 in Toronto, due to daylight savings * time) then the time will be rounded up to the nearest existing time * (in this case, 03:00). If this matters to you then you should verify * the return value for containing the same as the numbers you gave. * * In the case that the given time is ambiguous in the given time zone * (for example, 01:30 on November 7th 2010 in Toronto, due to daylight * savings time) then the time falling within standard (ie: * non-daylight) time is taken. * * It not considered a programmer error for the values to this function * to be out of range, but in the case that they are, the function will * return %NULL. * * You should release the return value by calling g_date_time_unref() * when you are done with it. * * Params: * tz = a #GTimeZone * year = the year component of the date * month = the month component of the date * day = the day component of the date * hour = the hour component of the date * minute = the minute component of the date * seconds = the number of seconds past the minute * * Returns: a new #GDateTime, or %NULL * * Since: 2.26 * * Throws: ConstructionException GTK+ fails to create the object. */ public this(TimeZone tz, int year, int month, int day, int hour, int minute, double seconds) { auto p = g_date_time_new((tz is null) ? null : tz.getTimeZoneStruct(), year, month, day, hour, minute, seconds); if(p is null) { throw new ConstructionException("null returned by new"); } this(cast(GDateTime*) p); } /** * Creates a #GDateTime corresponding to this exact instant in the given * time zone @tz. The time is as accurate as the system allows, to a * maximum accuracy of 1 microsecond. * * This function will always succeed unless the system clock is set to * truly insane values (or unless GLib is still being used after the * year 9999). * * You should release the return value by calling g_date_time_unref() * when you are done with it. * * Params: * tz = a #GTimeZone * * Returns: a new #GDateTime, or %NULL * * Since: 2.26 * * Throws: ConstructionException GTK+ fails to create the object. */ public this(TimeZone tz) { auto p = g_date_time_new_now((tz is null) ? null : tz.getTimeZoneStruct()); if(p is null) { throw new ConstructionException("null returned by new_now"); } this(cast(GDateTime*) p); } /** * Creates a copy of @datetime and adds the specified timespan to the copy. * * Params: * timespan = a #GTimeSpan * * Returns: the newly created #GDateTime which should be freed with * g_date_time_unref(). * * Since: 2.26 */ public DateTime add(GTimeSpan timespan) { auto p = g_date_time_add(gDateTime, timespan); if(p is null) { return null; } return new DateTime(cast(GDateTime*) p, true); } /** * Creates a copy of @datetime and adds the specified number of days to the * copy. Add negative values to subtract days. * * Params: * days = the number of days * * Returns: the newly created #GDateTime which should be freed with * g_date_time_unref(). * * Since: 2.26 */ public DateTime addDays(int days) { auto p = g_date_time_add_days(gDateTime, days); if(p is null) { return null; } return new DateTime(cast(GDateTime*) p, true); } /** * Creates a new #GDateTime adding the specified values to the current date and * time in @datetime. Add negative values to subtract. * * Params: * years = the number of years to add * months = the number of months to add * days = the number of days to add * hours = the number of hours to add * minutes = the number of minutes to add * seconds = the number of seconds to add * * Returns: the newly created #GDateTime that should be freed with * g_date_time_unref(). * * Since: 2.26 */ public DateTime addFull(int years, int months, int days, int hours, int minutes, double seconds) { auto p = g_date_time_add_full(gDateTime, years, months, days, hours, minutes, seconds); if(p is null) { return null; } return new DateTime(cast(GDateTime*) p, true); } /** * Creates a copy of @datetime and adds the specified number of hours. * Add negative values to subtract hours. * * Params: * hours = the number of hours to add * * Returns: the newly created #GDateTime which should be freed with * g_date_time_unref(). * * Since: 2.26 */ public DateTime addHours(int hours) { auto p = g_date_time_add_hours(gDateTime, hours); if(p is null) { return null; } return new DateTime(cast(GDateTime*) p, true); } /** * Creates a copy of @datetime adding the specified number of minutes. * Add negative values to subtract minutes. * * Params: * minutes = the number of minutes to add * * Returns: the newly created #GDateTime which should be freed with * g_date_time_unref(). * * Since: 2.26 */ public DateTime addMinutes(int minutes) { auto p = g_date_time_add_minutes(gDateTime, minutes); if(p is null) { return null; } return new DateTime(cast(GDateTime*) p, true); } /** * Creates a copy of @datetime and adds the specified number of months to the * copy. Add negative values to subtract months. * * Params: * months = the number of months * * Returns: the newly created #GDateTime which should be freed with * g_date_time_unref(). * * Since: 2.26 */ public DateTime addMonths(int months) { auto p = g_date_time_add_months(gDateTime, months); if(p is null) { return null; } return new DateTime(cast(GDateTime*) p, true); } /** * Creates a copy of @datetime and adds the specified number of seconds. * Add negative values to subtract seconds. * * Params: * seconds = the number of seconds to add * * Returns: the newly created #GDateTime which should be freed with * g_date_time_unref(). * * Since: 2.26 */ public DateTime addSeconds(double seconds) { auto p = g_date_time_add_seconds(gDateTime, seconds); if(p is null) { return null; } return new DateTime(cast(GDateTime*) p, true); } /** * Creates a copy of @datetime and adds the specified number of weeks to the * copy. Add negative values to subtract weeks. * * Params: * weeks = the number of weeks * * Returns: the newly created #GDateTime which should be freed with * g_date_time_unref(). * * Since: 2.26 */ public DateTime addWeeks(int weeks) { auto p = g_date_time_add_weeks(gDateTime, weeks); if(p is null) { return null; } return new DateTime(cast(GDateTime*) p, true); } /** * Creates a copy of @datetime and adds the specified number of years to the * copy. Add negative values to subtract years. * * Params: * years = the number of years * * Returns: the newly created #GDateTime which should be freed with * g_date_time_unref(). * * Since: 2.26 */ public DateTime addYears(int years) { auto p = g_date_time_add_years(gDateTime, years); if(p is null) { return null; } return new DateTime(cast(GDateTime*) p, true); } /** * Calculates the difference in time between @end and @begin. The * #GTimeSpan that is returned is effectively @end - @begin (ie: * positive if the first parameter is larger). * * Params: * begin = a #GDateTime * * Returns: the difference between the two #GDateTime, as a time * span expressed in microseconds. * * Since: 2.26 */ public GTimeSpan difference(DateTime begin) { return g_date_time_difference(gDateTime, (begin is null) ? null : begin.getDateTimeStruct()); } /** * Creates a newly allocated string representing the requested @format. * * The format strings understood by this function are a subset of the * strftime() format language as specified by C99. The \%D, \%U and \%W * conversions are not supported, nor is the 'E' modifier. The GNU * extensions \%k, \%l, \%s and \%P are supported, however, as are the * '0', '_' and '-' modifiers. * * In contrast to strftime(), this function always produces a UTF-8 * string, regardless of the current locale. Note that the rendering of * many formats is locale-dependent and may not match the strftime() * output exactly. * * The following format specifiers are supported: * * - \%a: the abbreviated weekday name according to the current locale * - \%A: the full weekday name according to the current locale * - \%b: the abbreviated month name according to the current locale * - \%B: the full month name according to the current locale * - \%c: the preferred date and time representation for the current locale * - \%C: the century number (year/100) as a 2-digit integer (00-99) * - \%d: the day of the month as a decimal number (range 01 to 31) * - \%e: the day of the month as a decimal number (range 1 to 31) * - \%F: equivalent to `%Y-%m-%d` (the ISO 8601 date format) * - \%g: the last two digits of the ISO 8601 week-based year as a * decimal number (00-99). This works well with \%V and \%u. * - \%G: the ISO 8601 week-based year as a decimal number. This works * well with \%V and \%u. * - \%h: equivalent to \%b * - \%H: the hour as a decimal number using a 24-hour clock (range 00 to 23) * - \%I: the hour as a decimal number using a 12-hour clock (range 01 to 12) * - \%j: the day of the year as a decimal number (range 001 to 366) * - \%k: the hour (24-hour clock) as a decimal number (range 0 to 23); * single digits are preceded by a blank * - \%l: the hour (12-hour clock) as a decimal number (range 1 to 12); * single digits are preceded by a blank * - \%m: the month as a decimal number (range 01 to 12) * - \%M: the minute as a decimal number (range 00 to 59) * - \%p: either "AM" or "PM" according to the given time value, or the * corresponding strings for the current locale. Noon is treated as * "PM" and midnight as "AM". * - \%P: like \%p but lowercase: "am" or "pm" or a corresponding string for * the current locale * - \%r: the time in a.m. or p.m. notation * - \%R: the time in 24-hour notation (\%H:\%M) * - \%s: the number of seconds since the Epoch, that is, since 1970-01-01 * 00:00:00 UTC * - \%S: the second as a decimal number (range 00 to 60) * - \%t: a tab character * - \%T: the time in 24-hour notation with seconds (\%H:\%M:\%S) * - \%u: the ISO 8601 standard day of the week as a decimal, range 1 to 7, * Monday being 1. This works well with \%G and \%V. * - \%V: the ISO 8601 standard 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 new year. See g_date_time_get_week_of_year(). * This works well with \%G and \%u. * - \%w: the day of the week as a decimal, range 0 to 6, Sunday being 0. * This is not the ISO 8601 standard format -- use \%u instead. * - \%x: the preferred date representation for the current locale without * the time * - \%X: the preferred time representation for the current locale without * the date * - \%y: the year as a decimal number without the century * - \%Y: the year as a decimal number including the century * - \%z: the time zone as an offset from UTC (+hhmm) * - \%:z: the time zone as an offset from UTC (+hh:mm). * This is a gnulib strftime() extension. Since: 2.38 * - \%::z: the time zone as an offset from UTC (+hh:mm:ss). This is a * gnulib strftime() extension. Since: 2.38 * - \%:::z: the time zone as an offset from UTC, with : to necessary * precision (e.g., -04, +05:30). This is a gnulib strftime() extension. Since: 2.38 * - \%Z: the time zone or name or abbreviation * - \%\%: a literal \% character * * Some conversion specifications can be modified by preceding the * conversion specifier by one or more modifier characters. The * following modifiers are supported for many of the numeric * conversions: * * - O: Use alternative numeric symbols, if the current locale supports those. * - _: Pad a numeric result with spaces. This overrides the default padding * for the specifier. * - -: Do not pad a numeric result. This overrides the default padding * for the specifier. * - 0: Pad a numeric result with zeros. This overrides the default padding * for the specifier. * * Params: * format = a valid UTF-8 string, containing the format for the * #GDateTime * * Returns: a newly allocated string formatted to the requested format * or %NULL in the case that there was an error. The string * should be freed with g_free(). * * Since: 2.26 */ public string format(string format) { auto retStr = g_date_time_format(gDateTime, Str.toStringz(format)); scope(exit) Str.freeString(retStr); return Str.toString(retStr); } /** * Retrieves the day of the month represented by @datetime in the gregorian * calendar. * * Returns: the day of the month * * Since: 2.26 */ public int getDayOfMonth() { return g_date_time_get_day_of_month(gDateTime); } /** * Retrieves the ISO 8601 day of the week on which @datetime falls (1 is * Monday, 2 is Tuesday... 7 is Sunday). * * Returns: the day of the week * * Since: 2.26 */ public int getDayOfWeek() { return g_date_time_get_day_of_week(gDateTime); } /** * Retrieves the day of the year represented by @datetime in the Gregorian * calendar. * * Returns: the day of the year * * Since: 2.26 */ public int getDayOfYear() { return g_date_time_get_day_of_year(gDateTime); } /** * Retrieves the hour of the day represented by @datetime * * Returns: the hour of the day * * Since: 2.26 */ public int getHour() { return g_date_time_get_hour(gDateTime); } /** * Retrieves the microsecond of the date represented by @datetime * * Returns: the microsecond of the second * * Since: 2.26 */ public int getMicrosecond() { return g_date_time_get_microsecond(gDateTime); } /** * Retrieves the minute of the hour represented by @datetime * * Returns: the minute of the hour * * Since: 2.26 */ public int getMinute() { return g_date_time_get_minute(gDateTime); } /** * Retrieves the month of the year represented by @datetime in the Gregorian * calendar. * * Returns: the month represented by @datetime * * Since: 2.26 */ public int getMonth() { return g_date_time_get_month(gDateTime); } /** * Retrieves the second of the minute represented by @datetime * * Returns: the second represented by @datetime * * Since: 2.26 */ public int getSecond() { return g_date_time_get_second(gDateTime); } /** * Retrieves the number of seconds since the start of the last minute, * including the fractional part. * * Returns: the number of seconds * * Since: 2.26 */ public double getSeconds() { return g_date_time_get_seconds(gDateTime); } /** * Determines the time zone abbreviation to be used at the time and in * the time zone of @datetime. * * For example, in Toronto this is currently "EST" during the winter * months and "EDT" during the summer months when daylight savings * time is in effect. * * Returns: the time zone abbreviation. The returned * string is owned by the #GDateTime and it should not be * modified or freed * * Since: 2.26 */ public string getTimezoneAbbreviation() { return Str.toString(g_date_time_get_timezone_abbreviation(gDateTime)); } /** * Determines the offset to UTC in effect at the time and in the time * zone of @datetime. * * The offset is the number of microseconds that you add to UTC time to * arrive at local time for the time zone (ie: negative numbers for time * zones west of GMT, positive numbers for east). * * If @datetime represents UTC time, then the offset is always zero. * * Returns: the number of microseconds that should be added to UTC to * get the local time * * Since: 2.26 */ public GTimeSpan getUtcOffset() { return g_date_time_get_utc_offset(gDateTime); } /** * Returns the ISO 8601 week-numbering year in which the week containing * @datetime falls. * * This function, taken together with g_date_time_get_week_of_year() and * g_date_time_get_day_of_week() can be used to determine the full ISO * week date on which @datetime falls. * * This is usually equal to the normal Gregorian year (as returned by * g_date_time_get_year()), except as detailed below: * * For Thursday, the week-numbering year is always equal to the usual * calendar year. For other days, the number is such that every day * within a complete week (Monday to Sunday) is contained within the * same week-numbering year. * * For Monday, Tuesday and Wednesday occurring near the end of the year, * this may mean that the week-numbering year is one greater than the * calendar year (so that these days have the same week-numbering year * as the Thursday occurring early in the next year). * * For Friday, Saturday and Sunday occurring near the start of the year, * this may mean that the week-numbering year is one less than the * calendar year (so that these days have the same week-numbering year * as the Thursday occurring late in the previous year). * * An equivalent description is that the week-numbering year is equal to * the calendar year containing the majority of the days in the current * week (Monday to Sunday). * * Note that January 1 0001 in the proleptic Gregorian calendar is a * Monday, so this function never returns 0. * * Returns: the ISO 8601 week-numbering year for @datetime * * Since: 2.26 */ public int getWeekNumberingYear() { return g_date_time_get_week_numbering_year(gDateTime); } /** * Returns the ISO 8601 week number for the week containing @datetime. * The ISO 8601 week number is the same for every day of the week (from * Moday through Sunday). That can produce some unusual results * (described below). * * The first week of the year is week 1. This is the week that contains * the first Thursday of the year. Equivalently, this is the first week * that has more than 4 of its days falling within the calendar year. * * The value 0 is never returned by this function. Days contained * within a year but occurring before the first ISO 8601 week of that * year are considered as being contained in the last week of the * previous year. Similarly, the final days of a calendar year may be * considered as being part of the first ISO 8601 week of the next year * if 4 or more days of that week are contained within the new year. * * Returns: the ISO 8601 week number for @datetime. * * Since: 2.26 */ public int getWeekOfYear() { return g_date_time_get_week_of_year(gDateTime); } /** * Retrieves the year represented by @datetime in the Gregorian calendar. * * Returns: the year represented by @datetime * * Since: 2.26 */ public int getYear() { return g_date_time_get_year(gDateTime); } /** * Retrieves the Gregorian day, month, and year of a given #GDateTime. * * Params: * year = the return location for the gregorian year, or %NULL. * month = the return location for the month of the year, or %NULL. * day = the return location for the day of the month, or %NULL. * * Since: 2.26 */ public void getYmd(out int year, out int month, out int day) { g_date_time_get_ymd(gDateTime, &year, &month, &day); } /** * Determines if daylight savings time is in effect at the time and in * the time zone of @datetime. * * Returns: %TRUE if daylight savings time is in effect * * Since: 2.26 */ public bool isDaylightSavings() { return g_date_time_is_daylight_savings(gDateTime) != 0; } /** * Atomically increments the reference count of @datetime by one. * * Returns: the #GDateTime with the reference count increased * * Since: 2.26 */ public DateTime doref() { auto p = g_date_time_ref(gDateTime); if(p is null) { return null; } return new DateTime(cast(GDateTime*) p, true); } /** * Creates a new #GDateTime corresponding to the same instant in time as * @datetime, but in the local time zone. * * This call is equivalent to calling g_date_time_to_timezone() with the * time zone returned by g_time_zone_new_local(). * * Returns: the newly created #GDateTime * * Since: 2.26 */ public DateTime toLocal() { auto p = g_date_time_to_local(gDateTime); if(p is null) { return null; } return new DateTime(cast(GDateTime*) p, true); } /** * Stores the instant in time that @datetime represents into @tv. * * The time contained in a #GTimeVal is always stored in the form of * seconds elapsed since 1970-01-01 00:00:00 UTC, regardless of the time * zone associated with @datetime. * * On systems where 'long' is 32bit (ie: all 32bit systems and all * Windows systems), a #GTimeVal is incapable of storing the entire * range of values that #GDateTime is capable of expressing. On those * systems, this function returns %FALSE to indicate that the time is * out of range. * * On systems where 'long' is 64bit, this function never fails. * * Params: * tv = a #GTimeVal to modify * * Returns: %TRUE if successful, else %FALSE * * Since: 2.26 */ public bool toTimeval(TimeVal tv) { return g_date_time_to_timeval(gDateTime, (tv is null) ? null : tv.getTimeValStruct()) != 0; } /** * Create a new #GDateTime corresponding to the same instant in time as * @datetime, but in the time zone @tz. * * This call can fail in the case that the time goes out of bounds. For * example, converting 0001-01-01 00:00:00 UTC to a time zone west of * Greenwich will fail (due to the year 0 being out of range). * * You should release the return value by calling g_date_time_unref() * when you are done with it. * * Params: * tz = the new #GTimeZone * * Returns: a new #GDateTime, or %NULL * * Since: 2.26 */ public DateTime toTimezone(TimeZone tz) { auto p = g_date_time_to_timezone(gDateTime, (tz is null) ? null : tz.getTimeZoneStruct()); if(p is null) { return null; } return new DateTime(cast(GDateTime*) p, true); } /** * Gives the Unix time corresponding to @datetime, rounding down to the * nearest second. * * Unix time is the number of seconds that have elapsed since 1970-01-01 * 00:00:00 UTC, regardless of the time zone associated with @datetime. * * Returns: the Unix time corresponding to @datetime * * Since: 2.26 */ public long toUnix() { return g_date_time_to_unix(gDateTime); } /** * Creates a new #GDateTime corresponding to the same instant in time as * @datetime, but in UTC. * * This call is equivalent to calling g_date_time_to_timezone() with the * time zone returned by g_time_zone_new_utc(). * * Returns: the newly created #GDateTime * * Since: 2.26 */ public DateTime toUtc() { auto p = g_date_time_to_utc(gDateTime); if(p is null) { return null; } return new DateTime(cast(GDateTime*) p, true); } /** * Atomically decrements the reference count of @datetime by one. * * When the reference count reaches zero, the resources allocated by * @datetime are freed * * Since: 2.26 */ public void unref() { g_date_time_unref(gDateTime); } /** * A comparison function for #GDateTimes that is suitable * as a #GCompareFunc. Both #GDateTimes must be non-%NULL. * * Params: * dt1 = first #GDateTime to compare * dt2 = second #GDateTime to compare * * Returns: -1, 0 or 1 if @dt1 is less than, equal to or greater * than @dt2. * * Since: 2.26 */ public static int compare(DateTime dt1, DateTime dt2) { return g_date_time_compare((dt1 is null) ? null : dt1.getDateTimeStruct(), (dt2 is null) ? null : dt2.getDateTimeStruct()); } /** * Checks to see if @dt1 and @dt2 are equal. * * Equal here means that they represent the same moment after converting * them to the same time zone. * * Params: * dt1 = a #GDateTime * dt2 = a #GDateTime * * Returns: %TRUE if @dt1 and @dt2 are equal * * Since: 2.26 */ public static bool equal(DateTime dt1, DateTime dt2) { return g_date_time_equal((dt1 is null) ? null : dt1.getDateTimeStruct(), (dt2 is null) ? null : dt2.getDateTimeStruct()) != 0; } }