=encoding utf-8 =head1 NAME Time::Moment - Represents a date and time of day with an offset from UTC =head1 SYNOPSIS $tm = Time::Moment->new( year => 2012, month => 12, day => 24, hour => 15, minute => 30, second => 45, nanosecond => 123456789, offset => 0, ); $tm = Time::Moment->now; $tm = Time::Moment->now_utc; $tm = Time::Moment->from_epoch($seconds); $tm = Time::Moment->from_object($object); $tm = Time::Moment->from_string($string); $tm = Time::Moment->from_rd($rd); $tm = Time::Moment->from_jd($jd); $tm = Time::Moment->from_mjd($mjd); $year = $tm->year; # [1, 9999] $quarter = $tm->quarter; # [1, 4] $month = $tm->month; # [1, 12] $week = $tm->week; # [1, 53] $day = $tm->day_of_year; # [1, 366] $day = $tm->day_of_quarter; # [1, 92] $day = $tm->day_of_month; # [1, 31] $day = $tm->day_of_week; # [1=Monday, 7=Sunday] $hour = $tm->hour; # [0, 23] $minute = $tm->minute; # [0, 59] $minute = $tm->minute_of_day; # [0, 1439] $second = $tm->second; # [0, 59] $second = $tm->second_of_day; # [0, 86_399] $millisecond = $tm->millisecond; # [0, 999] $millisecond = $tm->millisecond_of_day; # [0, 86_399_999] $microsecond = $tm->microsecond; # [0, 999_999] $microsecond = $tm->microsecond_of_day; # [0, 86_399_999_999] $nanosecond = $tm->nanosecond; # [0, 999_999_999] $nanosecond = $tm->nanosecond_of_day; # [0, 86_399_999_999_999] $epoch = $tm->epoch; $offset = $tm->offset; # [-1080, 1080] (±18:00) $jd = $tm->jd; # Julian Date $mjd = $tm->mjd; # Modified Julian Date $rd = $tm->rd; # Rata Die $tm2 = $tm1->with($adjuster); $tm2 = $tm1->with_year($year); $tm2 = $tm1->with_quarter($quarter); $tm2 = $tm1->with_month($month); $tm2 = $tm1->with_week($week); $tm2 = $tm1->with_day_of_year($day); $tm2 = $tm1->with_day_of_quarter($day); $tm2 = $tm1->with_day_of_month($day); $tm2 = $tm1->with_day_of_week($day); $tm2 = $tm1->with_hour($hour); $tm2 = $tm1->with_minute($minute); $tm2 = $tm1->with_minute_of_day($minute); $tm2 = $tm1->with_second($second); $tm2 = $tm1->with_second_of_day($second); $tm2 = $tm1->with_millisecond($millisecond); $tm2 = $tm1->with_millisecond_of_day($millisecond); $tm2 = $tm1->with_microsecond($microsecond); $tm2 = $tm1->with_microsecond_of_day($microsecond); $tm2 = $tm1->with_nanosecond($nanosecond); $tm2 = $tm1->with_nanosecond_of_day($nanosecond); $tm2 = $tm1->with_offset_same_instant($offset); $tm2 = $tm1->with_offset_same_local($offset); $tm2 = $tm1->with_precision($precision); $tm2 = $tm1->plus_years($years); $tm2 = $tm1->plus_months($months); $tm2 = $tm1->plus_weeks($weeks); $tm2 = $tm1->plus_days($days); $tm2 = $tm1->plus_hours($hours); $tm2 = $tm1->plus_minutes($minutes); $tm2 = $tm1->plus_seconds($seconds); $tm2 = $tm1->plus_milliseconds($milliseconds); $tm2 = $tm1->plus_microseconds($microseconds); $tm2 = $tm1->plus_nanoseconds($nanoseconds); $tm2 = $tm1->minus_years($years); $tm2 = $tm1->minus_months($months); $tm2 = $tm1->minus_weeks($weeks); $tm2 = $tm1->minus_days($days); $tm2 = $tm1->minus_hours($hours); $tm2 = $tm1->minus_minutes($minutes); $tm2 = $tm1->minus_seconds($seconds); $tm2 = $tm1->minus_milliseconds($milliseconds); $tm2 = $tm1->minus_microseconds($microseconds); $tm2 = $tm1->minus_nanoseconds($nanoseconds); $years = $tm1->delta_years($tm2); $months = $tm1->delta_months($tm2); $weeks = $tm1->delta_weeks($tm2); $days = $tm1->delta_days($tm2); $hours = $tm1->delta_hours($tm2); $minutes = $tm1->delta_minutes($tm2); $seconds = $tm1->delta_seconds($tm2); $milliseconds = $tm1->delta_milliseconds($tm2); $microseconds = $tm1->delta_microseconds($tm2); $nanoseconds = $tm1->delta_nanoseconds($tm2); $tm2 = $tm1->at_utc; $tm2 = $tm1->at_midnight; # T00:00:00.0 $tm2 = $tm1->at_noon; # T12:00:00.0 $tm2 = $tm1->at_last_day_of_year; $tm2 = $tm1->at_last_day_of_quarter; $tm2 = $tm1->at_last_day_of_month; $boolean = $tm1->is_before($tm2); $boolean = $tm1->is_after($tm2); $boolean = $tm1->is_equal($tm2); $integer = $tm1->compare($tm2); $boolean = $tm->is_leap_year; $string = $tm->to_string; $string = $tm->strftime($format); $integer = $tm->length_of_year; # [365, 366] $integer = $tm->length_of_quarter; # [90, 92] $integer = $tm->length_of_month; # [28, 31] $integer = $tm->length_of_week_year; # [52, 53] @values = $tm->utc_rd_values; $seconds = $tm->utc_rd_as_seconds; @values = $tm->local_rd_values; $seconds = $tm->local_rd_as_seconds; $integer = $tm1 <=> $tm2; $boolean = $tm1 == $tm2; $boolean = $tm1 != $tm2; $boolean = $tm1 < $tm2; $boolean = $tm1 > $tm2; $boolean = $tm1 <= $tm2; $boolean = $tm1 >= $tm2; $string = "$tm"; =head1 DESCRIPTION C is an immutable object representing a date and time of day with an offset from UTC in the ISO 8601 calendar system. Time is measured in nanoseconds since C<0001-01-01T00Z>. In C leap seconds are ignored. It is assumed that there are exactly C<86,400,000,000,000> nanoseconds per day. C can represent all epoch integers from C<-62,135,596,800> to C<253,402,300,799>; this range suffices to measure times to nanosecond precision for any instant that is within C<0001-01-01T00:00:00Z> to C<9999-12-31T23:59:59Z>. =head1 CONSTRUCTORS =head2 new $tm = Time::Moment->new( year => 2012, month => 12, day => 24, hour => 15, minute => 30, second => 45, nanosecond => 123456789, offset => 0, ); Constructs an instance of C from the given components. B =over 4 =item year The year [1, 9999]. =item month The month of the year [1, 12]. =item day The day of the month [1, 31]. The day must be valid for the year and month, otherwise an exception is raised. =item hour The hour of the day [0, 23]. =item minute The minute of the hour [0, 59]. =item second The second of the minute [0, 59]. =item nanosecond The nanosecond of the second [0, 999_999_999]. =item offset The offset from UTC in minutes [-1080, 1080] (±18:00). =back =head2 now $tm = Time::Moment->now; Constructs an instance of C that is set to the current date and time from the system clock in the system time zone, with the offset set to the system's time zone offset from UTC. =head2 now_utc $tm = Time::Moment->now_utc; Constructs an instance of C that is set to the current date and time from the system clock in the UTC time zone. =head2 from_epoch $tm = Time::Moment->from_epoch($seconds); $tm = Time::Moment->from_epoch($seconds, $nanosecond); $tm = Time::Moment->from_epoch($seconds [, nanosecond => 0] [, precision => 6]); Constructs an instance of C from the given I from the epoch of 1970-01-01T00Z. Fractional seconds is supported if the constructor is invoked with I only, the default precision is 6 (microseconds). B =over 4 =item nanosecond $tm = Time::Moment->from_epoch($seconds, nanosecond => 0); The optional parameter I [0, 999_999_999] specifies the nanosecond of the second. =item precision $tm = Time::Moment->from_epoch($seconds, precision => 6); The optional parameter I [0, 9] specifies the precision of the fractional seconds. The default precision is 6 (microseconds). =back =head2 from_object $tm = Time::Moment->from_object($object); Constructs an instance of C from the given I. If the given object is an instance of C it's returned otherwise an attempt is made to coerce the given object to an instance of C. C implements coercion handlers for the following object types: =over 4 =item L $tm = Time::Moment->from_object( DateTime->now ); The given C object must be within the supported range and must have a time zone or an offset from UTC, coercing from the 'floating' time zone is not supported. =item L $tm = Time::Moment->from_object( scalar Time::Piece::localtime() ); The given C object must be within the supported date range. =back The coercion scheme is extensible and implemented as documented in L: $tm = Params::Coerce::coerce('Time::Moment', scalar Time::Piece::localtime()); $tm = Params::Coerce::coerce('Time::Moment', DateTime->now); C also implements a coercion handler from C to C and C: $dt = Params::Coerce::coerce('DateTime', Time::Moment->now); $tp = Params::Coerce::coerce('Time::Piece', Time::Moment->now); =head2 from_string $tm = Time::Moment->from_string($string); $tm = Time::Moment->from_string($string [, lenient => false]); Constructs an instance of C from the given I. The string must consist of a complete date representation and time of day followed by a zone designator. The time of day may be reduced to hour of the day, the second of the minute may have a decimal fraction. The decimal sign can be either the comma [,] or the full stop [.]. A decimal fraction must have at least one digit and may have a total of nine digits, if the fractional precision is greater than nine digits, the value will be truncated. The following are examples of complete date and time of day representations: Basic format: Example: YYYYMMDDThhmmssZ 20121224T121530Z YYYYMMDDThhmmss±hhmm 20121224T121530+0100 YYYYMMDDThhmmss±hh 20121224T121530+01 YYYYMMDDThhmmss.ssZ 20121224T121530.500Z YYYYMMDDThhmmss.ss±hhmm 20121224T121530.500+0100 YYYYMMDDThhmmss.ss±hh 20121224T121530.500+01 YYYYMMDDThhZ 20121224T12Z (reduced accuracy) YYYYMMDDThhmmZ 20121224T1215Z (reduced accuracy) YYYYMMDDThhmm±hhmm 20121224T1215+0100 (reduced accuracy) YYYYMMDDThhmm±hh 20121224T1215+01 (reduced accuracy) Extended format: Example: YYYY-MM-DDThh:mm:ssZ 2012-12-24T12:15:30Z YYYY-MM-DDThh:mm:ss±hh:mm 2012-12-24T12:15:30+01:00 YYYY-MM-DDThh:mm:ss±hh 2012-12-24T12:15:30+01 YYYY-MM-DDThh:mm:ss.ssZ 2012-12-24T12:15:30.500Z YYYY-MM-DDThh:mm:ss.ss±hh:mm 2012-12-24T12:15:30.500+01:00 YYYY-MM-DDThh:mm:ss.ss±hh 2012-12-24T12:15:30.500+01 YYYY-MM-DDThhZ 2012-12-24T12Z (reduced accuracy) YYYY-MM-DDThh:mmZ 2012-12-24T12:15Z (reduced accuracy) YYYY-MM-DDThh:mm±hh:mm 2012-12-24T12:15+01:00 (reduced accuracy) YYYY-MM-DDThh:mm±hh 2012-12-24T12:15+01 (reduced accuracy) Where representations using calendar dates are shown, ordinal dates or week dates may be substituted. This ISO 8601 profile correspond to a subset of ISO 8601:2004 4.3 Date and time of day. If the optional boolean parameter I is true, the following examples are also accepted: YYYY-MM-DD hh:mm:ssZ 2012-12-24 12:15:30Z YYYY-MM-DD hh:mm:ssz 2012-12-24 12:15:30z YYYY-MM-DD hh:mm:ss±hhmm 2012-12-24 12:15:30+0100 YYYY-MM-DD hh:mm:ss±hh:mm 2012-12-24 12:15:30+01:00 YYYY-MM-DD hh:mm:ss±hh 2012-12-24 12:15:30+01 YYYY-MM-DD hh:mm:ss.ssZ 2012-12-24 12:15:30.500Z YYYY-MM-DD hh:mm:ss.ssz 2012-12-24 12:15:30.500z YYYY-MM-DD hh:mm:ss.ss±hhmm 2012-12-24 12:15:30.500+0100 YYYY-MM-DD hh:mm:ss.ss±hh:mm 2012-12-24 12:15:30.500+01:00 YYYY-MM-DD hh:mm:ss.ss±hh 2012-12-24 12:15:30.500+01 YYYY-MM-DD hh:mmZ 2012-12-24 12:15Z YYYY-MM-DD hh:mmz 2012-12-24 12:15z YYYY-MM-DD hh:mm±hhmm 2012-12-24 12:15+0100 YYYY-MM-DD hh:mm±hh:mm 2012-12-24 12:15+01:00 YYYY-MM-DD hh:mm±hh 2012-12-24 12:15+01 YYYY-MM-DD hh:mm:ss ±hh:mm 2012-12-24 12:15:30 +01:00 YYYY-MM-DD hh:mm:ss ±hhmm 2012-12-24 12:15:30 +0100 YYYY-MM-DD hh:mm:ss ±hh 2012-12-24 12:15:30 +01 YYYY-MM-DD hh:mm:ss GMT 2012-12-24 12:15:30 GMT YYYY-MM-DD hh:mm:ss GMT±hh 2012-12-24 12:15:30 GMT+01 YYYY-MM-DD hh:mm:ss UTC 2012-12-24 12:15:30 UTC YYYY-MM-DD hh:mm:ss UTC±hh 2012-12-24 12:15:30 UTC+01 YYYY-MM-DD hh:mm:ss.ss ±hhmm 2012-12-24 12:15:30.500 +0100 YYYY-MM-DD hh:mm:ss.ss ±hh:mm 2012-12-24 12:15:30.500 +01:00 YYYY-MM-DD hh:mm:ss.ss ±hh 2012-12-24 12:15:30.500 +01 YYYY-MM-DD hh:mm ±hh:mm 2012-12-24 12:15 +01:00 YYYY-MM-DD hh:mm ±hhmm 2012-12-24 12:15 +0100 YYYY-MM-DD hh:mm ±hh 2012-12-24 12:15 +01 The string representation may consist of a mixture of the basic format and the extended format. The time designator [T] may be in lower case [t] or replaced with a single space. A single space is also accepted between the time of day and the zone designator. The UTC designator [Z] may also be in lower case [z]. The literal string GMT or UTC may be used as a UTC designator and may have an offset. Usage of these string representations is strongly discouraged as they do not conform to the ISO 8601 standard. =head2 from_rd $tm = Time::Moment->from_rd($rd); $tm = Time::Moment->from_rd($rd [, offset => 0] [, precision => 3] [, epoch => 0]); Constructs an instance of C from the given Rata Die. The Rata Die is a count of days elapsed since 0000-12-31T00. The fractional part corresponds to the fraction of the day after midnight. The minimum acceptable Rata Die is C<1> which corresponds to 0001-01-01T00. B =over 4 =item offset $tm = Time::Moment->from_rd($rd, offset => 0); The optional parameter I [-1080, 1080] (±18:00) specifies the offset from UTC in minutes. The default offset is 0. =item precision $tm = Time::Moment->from_rd($rd, precision => 3); The optional parameter I [0, 9] specifies the precision of the fractional seconds. The default precision is 3 (milliseconds). =item epoch $tm = Time::Moment->from_rd($rd, epoch => 0); The optional parameter I specifies the epoch date relative to 0000-12-31T00. The epoch date for the Rata Die is C<0>. =back =head2 from_jd $tm = Time::Moment->from_jd($jd); $tm = Time::Moment->from_jd($jd [, precision => 3] [, epoch => -1721424.5]); Constructs an instance of C from the given Julian Date. The Julian Date is a count of days elapsed since -4713-11-24T12Z. The fractional part corresponds to the fraction of the day after noon. The minimum acceptable Julian Date is C<1721425.5> which corresponds to 0001-01-01T00Z. B =over 4 =item precision $tm = Time::Moment->from_jd($jd, precision => 3); The optional parameter I [0, 9] specifies the precision of the fractional seconds. The default precision is 3 (milliseconds). =item epoch $tm = Time::Moment->from_jd($jd, epoch => -1721424.5); The optional parameter I specifies the epoch date relative to 0000-12-31T00Z. The epoch date for the Julian Date is C<-1721424.5>. =back =head2 from_mjd $tm = Time::Moment->from_mjd($mjd); $tm = Time::Moment->from_mjd($mjd [, precision => 3] [, epoch => 678576]); Constructs an instance of C from the given Modified Julian Date. The Modified Julian Date is a count of days elapsed since 1858-11-17T00Z. The fractional part corresponds to the fraction of the day after midnight. The minimum acceptable Modified Julian Date is C<-678575> which corresponds to 0001-01-01T00Z. B =over 4 =item precision $tm = Time::Moment->from_mjd($mjd, precision => 3); The optional parameter I [0, 9] specifies the precision of the fractional seconds. The default precision is 3 (milliseconds). =item epoch $tm = Time::Moment->from_mjd($mjd, epoch => 678576); The optional parameter I specifies the epoch date relative to 0000-12-31T00Z. The epoch date for the Modified Julian Date is C<678576>. =back =head1 INSTANCE METHODS =head2 year $year = $tm->year; Returns the year [1, 9999]. =head2 quarter $quarter = $tm->quarter; Returns the quarter of the year [1, 4]. =head2 month $month = $tm->month; Returns the month of the year [1, 12]. =head2 week $week = $tm->week; Returns the week of the year [1, 53]. =head2 day_of_year $day = $tm->day_of_year; Returns the day of the year [1, 366]. =head2 day_of_quarter $day = $tm->day_of_quarter; Returns the day of the quarter [1, 92]. =head2 day_of_month $day = $tm->day_of_month; Returns the day of the month [1, 31]. =head2 day_of_week $day = $tm->day_of_week; Returns the day of the week [1=Monday, 7=Sunday]. =head2 hour $hour = $tm->hour; Returns the hour of the day [0, 23]. =head2 minute $minute = $tm->minute; Returns the minute of the hour [0, 59]. =head2 minute_of_day $minute = $tm->minute_of_day; Returns the minute of the day [0, 1439]. =head2 second $second = $tm->second; Returns the second of the minute [0, 59]. =head2 second_of_day $second = $tm->second_of_day; Returns the second of the day [0, 86_399]. =head2 millisecond $millisecond = $tm->millisecond; Returns the millisecond of the second [0, 999]. =head2 millisecond_of_day $millisecond = $tm->millisecond_of_day; Returns the millisecond of the day [0, 86_399_999]. =head2 microsecond $microsecond = $tm->microsecond; Returns the microsecond of the second [0, 999_999]. =head2 microsecond_of_day $microsecond = $tm->microsecond_of_day; Returns the microsecond of the day [0, 86_399_999_999]. =head2 nanosecond $nanosecond = $tm->nanosecond; Returns the nanosecond of the second [0, 999_999_999]. =head2 nanosecond_of_day $nanosecond = $tm->nanosecond_of_day; Returns the nanosecond of the day [0, 86_399_999_999_999]. =head2 epoch $epoch = $tm->epoch; Returns the number of integral seconds from the epoch of 1970-01-01T00Z. =head2 offset $offset = $tm->offset; Returns the offset from UTC in minutes [-1080, 1080] (±18:00). =head2 precision $precision = $tm->precision; Returns the precision of the time of the day [-3, 9]. Please see L for an explanation of the returned precision value. =head2 jd $jd = $tm->jd; $jd = $tm->jd([precision => 3]); Returns the Julian Date. The Julian Date is a count of days elapsed since -4713-11-24T12Z. The fractional part corresponds to the fraction of the day after noon. The optional named parameter I [0, 9] specifies the precision of the fractional seconds. The default precision is 3 (milliseconds). =head2 mjd $mjd = $tm->mjd; $mjd = $tm->mjd([precision => 3]); Returns the Modified Julian Date. The Modified Julian Date is a count of days elapsed since 1858-11-17T00Z. The fractional part corresponds to the fraction of the day after midnight. The optional named parameter I [0, 9] specifies the precision of the fractional seconds. The default precision is 3 (milliseconds). =head2 rd $rd = $tm->rd; $rd = $tm->rd([precision => 3]); Returns the Rata Die. The Rata Die is a count of days elapsed since 0000-12-31T00. The fractional part corresponds to the fraction of the day after midnight. The optional named parameter I [0, 9] specifies the precision of the fractional seconds. The default precision is 3 (milliseconds). =head2 with $tm2 = $tm1->with($adjuster); Returns a copy of this instance adjusted by the given I. The adjuster is a CODE reference invoked with an instance of Time::Moment and is expected to return an instance of Time::Moment. Please see L for available adjusters. =head2 with_year $tm2 = $tm1->with_year($year); Returns a copy of this instance with the given I [1, 9999] altered. The day of the month of the date is unchanged unless the day does not exist in the month. In that case, the day is set to the last day of the month. =head2 with_quarter $tm2 = $tm1->with_quarter($quarter); Returns a copy of this instance with the given I of the year [1, 4] altered. The day of the month of the date is unchanged unless the day does not exist in the month of the quarter. In that case, the day is set to the last day of the month. =head2 with_month $tm2 = $tm1->with_month($month); Returns a copy of this instance with the given I of the year [1, 12] altered. The day of the month of the date is unchanged unless the day does not exist in the given month. In that case, the day is set to the last day of the given month. =head2 with_week $tm2 = $tm1->with_week($week); Returns a copy of this instance with the given I of the year [1, 53] altered. The week must be valid for the year, otherwise an exception is raised. =head2 with_day_of_year $tm2 = $tm1->with_day_of_year($day); Returns a copy of this instance with the given I of the year [1, 366] altered. The day must be valid for the year, otherwise an exception is raised. =head2 with_day_of_quarter $tm2 = $tm1->with_day_of_quarter($day); Returns a copy of this instance with the given I of the quarter [1, 92] altered. The day must be valid for the year and quarter, otherwise an exception is raised. =head2 with_day_of_month $tm2 = $tm1->with_day_of_month($day); Returns a copy of this instance with the given I of the month [1, 31] altered. The day must be valid for the year and month, otherwise an exception is raised. =head2 with_day_of_week $tm2 = $tm1->with_day_of_week($day); Returns a copy of this instance with the given I of the week [1=Monday, 7=Sunday] altered. =head2 with_hour $tm2 = $tm1->with_hour($hour); Returns a copy of this instance with the given I of the day [0, 23] altered. =head2 with_minute $tm2 = $tm1->with_minute($minute); Returns a copy of this instance with the given I of the hour [0, 59] altered. =head2 with_minute_of_day $tm2 = $tm1->with_minute_of_day($minute); Returns a copy of this instance with the given I of the day [0, 1439] altered, any lower-order time elements is unaltered. =head2 with_second $tm2 = $tm1->with_second($second); Returns a copy of this instance with the given I of the minute [0, 59] altered. =head2 with_second_of_day $tm2 = $tm1->with_second_of_day($second); Returns a copy of this instance with the given I of the day [0, 86_399] altered, any lower-order time elements is unaltered. =head2 with_millisecond $tm2 = $tm1->with_millisecond($millisecond); Returns a copy of this instance with the given I of the second [0, 999] altered. The nanosecond of the second is replaced with the given I multiplied by 1,000,000. =head2 with_millisecond_of_day $tm2 = $tm1->with_millisecond_of_day($millisecond); Returns a copy of this instance with the given I of the day [0, 86_400_000] altered. A millisecond value of 86_400_000 (T24:00) is normalized to midnight of the following day, any lower-order time elements is truncated. =head2 with_microsecond $tm2 = $tm1->with_microsecond($microsecond); Returns a copy of this instance with the given I of the second [0, 999_999] altered. The nanosecond of the second is replaced with the given I multiplied by 1,000. =head2 with_microsecond_of_day $tm2 = $tm1->with_microsecond_of_day($microsecond); Returns a copy of this instance with the given I of the day [0, 86_400_000_000] altered. A microsecond value of 86_400_000_000 (T24:00) is normalized to midnight of the following day, any lower-order time elements is truncated. =head2 with_nanosecond $tm2 = $tm1->with_nanosecond($nanosecond); Returns a copy of this instance with the given I of the second [0, 999_999_999] altered. =head2 with_nanosecond_of_day $tm2 = $tm1->with_nanosecond_of_day($nanosecond); Returns a copy of this instance with the given I of the day [0, 86_400_000_000_000] altered. A nanosecond value of 86_400_000_000_000 (T24:00) is normalized to midnight of the following day. =head2 with_offset_same_instant $tm2 = $tm1->with_offset_same_instant($offset); Returns a copy of this instance with the given I from UTC in minutes [-1080, 1080] (±18:00) altered. The resulting time is at the same instant. $tm = Time::Moment->from_string('2012-12-24T15-05') ->with_offset_same_instant(0); say $tm; # 2012-12-24T20Z =head2 with_offset_same_local $tm2 = $tm1->with_offset_same_local($offset); Returns a copy of this instance with the given I from UTC in minutes [-1080, 1080] (±18:00) altered. The resulting time has the same local time. $tm = Time::Moment->from_string('2012-12-24T15-05') ->with_offset_same_local(0); say $tm; # 2012-12-24T15Z =head2 with_precision $tm2 = $tm1->with_precision($precision); Returns a copy of this instance with the time of the day altered to the given I [-3, 9]. A precision value between [0, 9] alters the precision of the fractional seconds. A precision of C<-1> truncates to minute of the hour; C<-2> truncates to hour of the day; C<-3> truncates to midnight of the day. $tm = Time::Moment->from_string('2012-12-24T12:30:45.123456789Z'); say $tm->with_precision(6); # T12:30:45.123456Z say $tm->with_precision(3); # T12:30:45.123Z say $tm->with_precision(0); # T12:30:45Z say $tm->with_precision(-1); # T12:30:00Z say $tm->with_precision(-2); # T12:00:00Z say $tm->with_precision(-3); # T00:00:00Z =head2 plus_years $tm2 = $tm1->plus_years($years); Returns a copy of this instance with the given number of I added. The day of the month of the date is unchanged unless the day does not exist in the resulting month. In that case, the day is set to the last day of the resulting month. For example, 2012-02-29 plus one year results in 2013-02-28. =head2 plus_months $tm2 = $tm1->plus_months($months); Returns a copy of this instance with the given number of I added. The day of the month of the date is unchanged unless the day does not exist in the resulting month. In that case, the day is set to the last day of the resulting month. For example, 2013-01-31 plus one month results in 2013-02-28; 2013-02-28 plus one month results in 2013-03-28. =head2 plus_weeks $tm2 = $tm1->plus_weeks($weeks); Returns a copy of this instance with the given number of I added. =head2 plus_days $tm2 = $tm1->plus_days($days); Returns a copy of this instance with the given number of I added. =head2 plus_hours $tm2 = $tm1->plus_hours($hours); Returns a copy of this instance with the given number of I added. =head2 plus_minutes $tm2 = $tm1->plus_minutes($minutes); Returns a copy of this instance with the given number of I added. =head2 plus_seconds $tm2 = $tm1->plus_seconds($seconds); Returns a copy of this instance with the given number of I added. =head2 plus_milliseconds $tm2 = $tm1->plus_milliseconds($milliseconds); Returns a copy of this instance with the given number of I added. =head2 plus_microseconds $tm2 = $tm1->plus_microseconds($microseconds); Returns a copy of this instance with the given number of I added. =head2 plus_nanoseconds $tm2 = $tm1->plus_nanoseconds($nanoeconds); Returns a copy of this instance with the given number of I added. =head2 minus_years $tm2 = $tm1->minus_years($years); Returns a copy of this instance with the given number of I subtracted. The day of the month of the date is unchanged unless the day does not exist in the resulting month. In that case, the day is set to the last day of the resulting month. For example, 2012-02-29 minus one year results in 2011-02-28. =head2 minus_months $tm2 = $tm1->minus_months($months); Returns a copy of this instance with the given number of I subtracted. The day of the month of the date is unchanged unless the day does not exist in the resulting month. In that case, the day is set to the last day of the resulting month. For example, 2013-03-31 minus one month results in 2013-02-28; 2013-02-28 minus one month results in 2013-01-28. =head2 minus_weeks $tm2 = $tm1->minus_weeks($weeks); Returns a copy of this instance with the given number of I subtracted. =head2 minus_days $tm2 = $tm1->minus_days($days); Returns a copy of this instance with the given number of I subtracted. =head2 minus_hours $tm2 = $tm1->minus_hours($hours); Returns a copy of this instance with the given number of I subtracted. =head2 minus_minutes $tm2 = $tm1->minus_minutes($minutes); Returns a copy of this instance with the given number of I subtracted. =head2 minus_seconds $tm2 = $tm1->minus_seconds($seconds); Returns a copy of this instance with the given number of I subtracted. =head2 minus_milliseconds $tm2 = $tm1->minus_milliseconds($milliseconds); Returns a copy of this instance with the given number of I subtracted. =head2 minus_microseconds $tm2 = $tm1->minus_microseconds($microseconds); Returns a copy of this instance with the given number of I subtracted. =head2 minus_nanoseconds $tm2 = $tm1->minus_nanoseconds($nanoseconds); Returns a copy of this instance with the given number of I subtracted. =head2 delta_years $years = $tm->delta_years($other); Returns the difference between the local date of this moment and the I in terms of complete years. The result will be negative if the local date of the I moment is before this. =head2 delta_months $months = $tm->delta_months($other); Returns the difference between the local date of this moment and the I in terms of complete months. The result will be negative if the local date of the I moment is before this. =head2 delta_weeks $weeks = $tm->delta_weeks($other); Returns the difference between the local date of this moment and the I in terms of complete weeks. The result will be negative if the local date of the I moment is before this. =head2 delta_days $days = $tm->delta_days($other); Returns the difference between the local date of this moment and the I in terms of complete days. The result will be negative if the local date of the I moment is before this. =head2 delta_hours $hours = $tm->delta_hours($other); Returns the difference between the instant of this moment and the I in terms of complete hours. The result will be negative if the instant of the I moment is before this. =head2 delta_minutes $minutes = $tm->delta_minutes($other); Returns the difference between the instant of this moment and the I in terms of complete minutes. The result will be negative if the instant of the I moment is before this. =head2 delta_seconds $seconds = $tm->delta_seconds($other); Returns the difference between the instant of this moment and the I in terms of complete seconds. The result will be negative if the instant of the I moment is before this. =head2 delta_milliseconds $milliseconds = $tm->delta_milliseconds($other); Returns the difference between the instant of this moment and the I in terms of complete milliseconds. The result will be negative if the instant of the I moment is before this. =head2 delta_microseconds $microseconds = $tm->delta_microseconds($other); Returns the difference between the instant of this moment and the I in terms of complete microseconds. The result will be negative if the instant of the I moment is before this. =head2 delta_nanoseconds $nanoseconds = $tm->delta_nanoseconds($other); Returns the difference between the instant of this moment and the I in terms of complete nanoseconds. The result will be negative if the instant of the I moment is before this. =head2 at_utc $tm2 = $tm1->at_utc; Returns a copy of this instance with the offset from UTC set to zero. This method is equivalent to: $tm2 = $tm1->with_offset_same_instant(0); =head2 at_midnight $tm2 = $tm1->at_midnight; Returns a copy of this instance with the time of day set to midnight, T00:00:00.0. This method is equivalent to: $tm2 = $tm1->with_hour(0) ->with_minute(0) ->with_second(0) ->with_nanosecond(0); =head2 at_noon $tm2 = $tm1->at_noon; Returns a copy of this instance with the time of day set to noon, T12:00:00.0. This method is equivalent to: $tm2 = $tm1->with_hour(12) ->with_minute(0) ->with_second(0) ->with_nanosecond(0); =head2 at_last_day_of_year $tm2 = $tm1->at_last_day_of_year; Returns a copy of this instance with the date adjusted to the last day of the year, the time of the day is unaltered. =head2 at_last_day_of_quarter $tm2 = $tm1->at_last_day_of_quarter; Returns a copy of this instance with the date adjusted to the last day of the quarter, the time of the day is unaltered. =head2 at_last_day_of_month $tm2 = $tm1->at_last_day_of_month; Returns a copy of this instance with the date adjusted to the last day of the month, the time of the day is unaltered. =head2 is_before $boolean = $tm->is_before($other); Returns a boolean indicating whether or not the instant of this time is before the I time. =head2 is_after $boolean = $tm->is_after($other); Returns a boolean indicating whether or not the instant of this time is after the I time. =head2 is_equal $boolean = $tm->is_equal($other); Returns a boolean indicating whether or not the instant of this time is equal the I time. =head2 compare $integer = $tm->compare($other); $integer = $tm->compare($other [, precision => 9]); Returns an integer indicating whether the instant of this time is before, after or equal the I time. Returns a value less than zero if this time is before the other; zero if this date is equal the other time; a value greater than zero if this time is after the other time. The optional parameter I [-3, 9] specifies the precision of the comparison. The default precision is 9 (nanoseconds). Please see L for an explanation of the precision value. =head2 is_leap_year $boolean = $tm->is_leap_year; Returns a boolean indicating whether or not the year of the local date of this moment is a leap year. =head2 to_string $string = $tm->to_string; $string = $tm->to_string([reduced => false]); Returns a string representation of the instance. If the optional named boolean parameter I is true a shorter representation is attempted. The string will be in one of the following representations: YYYY-MM-DDThh:mm (only if reduced => true) YYYY-MM-DDThh:mm:ss YYYY-MM-DDThh:mm:ss.fff YYYY-MM-DDThh:mm:ss.ffffff YYYY-MM-DDThh:mm:ss.fffffffff Followed by a zone designator in one of the following representations: Z ±hh (only if reduced => true) ±hh:mm The shortest representation will be used where the omitted parts are implied to be zero. =head2 strftime $string = $tm->strftime($format); Formats time according to the conversion specifications in the given C<$format> string. The format string consists of zero or more conversion specifications and ordinary characters. All ordinary characters are copied directly into the resulting string. A conversion specification consists of a percent sign C<%> and one other character. The following conversion specifications are supported: =over 4 =item C<%a> Replaced by the C locale's abbreviated day of the week name. Example: Mon, Tue, ..., Sun. =item C<%A> Replaced by the C locale's full day of the week name. Example: Monday, Tuesday, ..., Sunday. =item C<%b> Replaced by the C locale's abbreviated month name. Example: Jan, Feb, ..., Dec. =item C<%B> Replaced by the C locale's full month name. Example: January, February, ..., December. =item C<%c> Replaced by the C locale's date and time representation. Equivalent to C<"%a %b %e %H:%M:%S %Y">. =item C<%C> Replaced by the year divided by 100 and truncated to an integer, as a decimal number [00, 99]. =item C<%d> Replaced by the day of the month as a decimal number [01, 31]. =item C<%D> Equivalent to C<"%m/%d/%y">. =item C<%e> Replaced by the day of the month as a decimal number [1, 31]; a single digit is preceded by a space. =item C<%f> Replaced by the fractional second including the preceding decimal point or by an empty string if no fractional seconds are present. This conversion specification permits use of an optional maximum field width [0, 9] where the default field width of 0 will use the shortest of the following representations: .fff (millisecond) .ffffff (microsecond) .fffffffff (nanosecond) Example: $tm = Time::Moment->from_string('2012-12-24T15:30:45.123456Z'); $tm->strftime('%f'); # '.123456' $tm->strftime('%3f'); # '.123' $tm->strftime('%9f'); # '.123456000' $tm = Time::Moment->from_string('2012-12-24T15:30:45Z'); $tm->strftime('%f'); # '' $tm->strftime('%3f'); # '' C<%3f> is replaced by decimal point and exactly three fractional digits (zero-padded on the right or truncated if needed) if fractional seconds are present. I>. =item C<%F> Equivalent to C<"%Y-%m-%d">. =item C<%g> Replaced by the last 2 digits of the year of the week as a decimal number [00, 99]. =item C<%G> Replaced by the week-based year as a decimal number [0001, 9999]. =item C<%h> Equivalent to C<%b>. =item C<%H> Replaced by the hour of day (24-hour clock) as a decimal number [00, 23]. =item C<%I> Replaced by the hour of day (12-hour clock) as a decimal number [01, 12]. =item C<%j> Replaced by the day of the year as a decimal number [001, 366]. =item C<%k> Replaced by the hour of day (24-hour clock) as a decimal number [1, 23]; a single digit is preceded by a space. I>. =item C<%l> Replaced by the hour of day (12-hour clock) as a decimal number [1, 12]; a single digit is preceded by a space. I>. =item C<%m> Replaced by the month of the year as a decimal number [01, 12]. =item C<%M> Replaced by the minute of hour as a decimal number [00, 59]. =item C<%n> Replaced by a character. =item C<%N> Replaced by the fractional second as a decimal number. This conversion specification permits use of an optional maximum field width [0, 9] where the default field width of 0 will use the shortest of the following representations: fff (millisecond) ffffff (microsecond) fffffffff (nanosecond) Example: $tm = Time::Moment->from_string('2012-12-24T15:30:45.123456Z'); $tm->strftime('%N'); # '123456' $tm->strftime('%3N'); # '123' $tm->strftime('%9N'); # '123456000' C<%3N> is replaced by exactly three fractional digits (zero-padded on the right or truncated if needed). I>. =item C<%p> Replaced by the C locale's meridian notation. Example: AM, PM. =item C<%r> Replaced by the C locale's time in a.m. and p.m. notation. Equivalent to C<"%I:%M:%S %p">. =item C<%R> Replaced by the time in 24-hour notation. Equivalent to C<"%H:%M">. =item C<%s> Replaced by the number of seconds from the epoch of 1970-01-01T00:00:00Z as a decimal number. I>. =item C<%S> Replaced by the second of hour as a decimal number [00, 59]. =item C<%t> Replaced by a character. =item C<%T> Replaced by the time of day. Equivalent to C<"%H:%M:%S">. =item C<%u> Replaced by the day of the week as a decimal number [1, 7], with 1 representing Monday. =item C<%U> Replaced by the week number of the year as a decimal number [00, 53]. The first Sunday of January is the first day of week 1; days in the new year before this are in week 0. =item C<%V> Replaced by the week number of the year (Monday as the first day of the week) as a decimal number [01, 53]. If the week containing 1 January has four or more days in the new year, then it is considered week 1. Otherwise, it is the last week of the previous year, and the next week is week 1. Both January 4th and the first Thursday of January are always in week 1. =item C<%w> Replaced by the day of the week as a decimal number [0, 6], with 0 representing Sunday. =item C<%W> Replaced by the week number of the year as a decimal number [00, 53]. The first Monday of January is the first day of week 1; days in the new year before this are in week 0. =item C<%x> Replaced by the C locale's date representation. Equivalent to C<"%m/%d/%y">. =item C<%X> Replaced by the C locale's time representation. Equivalent to C<"%H:%M:%S">. =item C<%y> Replaced by the last two digits of the year as a decimal number [00, 99]. =item C<%Y> Replaced by the year as a decimal number [0001, 9999]. =item C<%z> Replaced by the offset from UTC in the ISO 8601 basic format (±hhmm). =item C<%:z> Replaced by the offset from UTC in the ISO 8601 extended format (±hh:mm). =item C<%Z> Replaced by the offset from UTC in the ISO 8601 extended format or by UTC designator (±hh:mm or Z). =item C<%%> Replaced by %. =back =head2 length_of_year $integer = $tm->length_of_year; Returns the length of the year in days [365, 366]. =head2 length_of_quarter $integer = $tm->length_of_quarter; Returns the length of the quarter of the year in days [90, 92]. =head2 length_of_month $integer = $tm->length_of_month; Returns the length of the month of the year in days [28, 31]. =head2 length_of_week_year $integer = $tm->length_of_week_year; Returns the length of the week of the year in weeks [52, 53]. =head2 utc_rd_values ($rdn, $sod, $nanosecond) = $tm->utc_rd_values; Returns a list of three elements: =over 4 =item C<$rdn> The number of integral days from the Rata Die epoch of 0000-12-31. =item C<$sod> The second of the day [0, 86_399]. =item C<$nanosecond> The nanosecond of the second [0, 999_999_999]. =back =head2 utc_rd_as_seconds $seconds = $tm->utc_rd_as_seconds; Returns the number of integral seconds from the Rata Die epoch of 0000-12-31T00:00:00Z. =head2 local_rd_values ($rdn, $sod, $nanosecond) = $tm->local_rd_values; Returns a list of three elements: =over 4 =item C<$rdn> The number of integral days from the Rata Die epoch of 0000-12-31. =item C<$sod> The second of the day [0, 86_399]. =item C<$nanosecond> The nanosecond of the second [0, 999_999_999]. =back =head2 local_rd_as_seconds $seconds = $tm->local_rd_as_seconds; Returns the number of integral seconds from the Rata Die epoch of 0000-12-31T00:00:00. =head1 OVERLOADED OPERATORS =head2 stringification $string = "$tm"; The C<$string> will be in one of the following representations: YYYY-MM-DDThh:mm:ss YYYY-MM-DDThh:mm:ss.fff YYYY-MM-DDThh:mm:ss.ffffff YYYY-MM-DDThh:mm:ss.fffffffff Followed by a zone designator in one of the following representations: Z ±hh:mm The shortest representation will be used where the omitted parts are implied to be zero. This representation is conformant with ISO 8601 profiles, such as: =over 4 =item * L =item * L =item * L =item * L =item * L =back The C method or the C format string C<"%Y-%m-%dT%H:%M:%S%f%Z"> produces an equivalent string representation: "$tm" eq $tm->to_string; "$tm" eq $tm->strftime("%Y-%m-%dT%H:%M:%S%f%Z"); The total length of the string representation will be between 20 and 35 characters (inclusive). =head2 comparison $integer = $tm1 <=> $tm2; $boolean = $tm1 == $tm2; $boolean = $tm1 != $tm2; $boolean = $tm1 < $tm2; $boolean = $tm1 > $tm2; $boolean = $tm1 <= $tm2; $boolean = $tm1 >= $tm2; =head1 SERIALIZATION =head2 Storable The serialized representation of a C is a string of 16 bytes that contains MAGIC (2 bytes), time zone offset from UTC (2 bytes), the number of days from Rata Die (4 bytes), second of the day (4 bytes) and nanosecond of the second (4 bytes). The total size of the serialized C instance using C is 34 bytes. =head2 JSON C implements a C method that returns the L representation of the instance. =head2 CBOR C implements a C method that returns the L representation of the instance using tag C<0> (I). See L, L and C for an example how to roundtrip instances of C. =head2 Sereal L version 2.030 or later implements support for the generic serialization protocol C. =head2 FREEZE/THAW C implements a C method that returns the L representation of the instance and a C method according to the serialization protocol specified in L. =head1 EXAMPLE FORMAT STRINGS =head2 ISO 8601 - Data elements and interchange formats =head3 Date Calendar date - 24 December 2012 Basic format: Example: %Y%m%d 20121224 %y%m 201212 (reduced accuracy) Extended format: Example: %Y-%m-%d 2012-12-24 %Y-%m 2012-12 (reduced accuracy) Ordinal date - 24 December 2012 Basic format: Example: %Y%j 2012359 Extended format: Example: %Y-%j 2012-359 Week date - Monday, 24 December 2012 Basic format: Example: %GW%V%u 2012W521 %GW%V 2012W52 (reduced accuracy) Extended format: Example: %G-W%V-%u 2012-W52-1 %G-W%V 2012-W52 (reduced accuracy) =head3 Time of day Local time - 30 minutes and 45 seconds past 15 hours Basic format: Example: %H%M%S 153045 %H%M 1530 (reduced accuracy) Extended format: Example: %H:%M:%S 15:30:45 %H:%M 15:30 (reduced accuracy) Local time with decimal fractions - 30 minutes and 45 and a half second past 15 hours Basic format: Example: %H%M%S%f 153045.500 %H%M%S.%1N 153045.5 Extended format: Example: %H:%M:%S%f 15:30:45.500 %H:%M:%S.%1N 15:30:45.5 Local time and the difference from UTC - 30 minutes and 45 seconds past 15 hours, one hour ahead of UTC Basic format: Example: %H%M%S%z 153045+0100 Extended format: Example: %H:%M:%S%Z 15:30:45+01:00 =head3 Date and time of day Combinations of calendar date and time of day Basic format: Example: %Y%m%dT%H%M%S%z 20121224T153045+0100 %Y%m%dT%H%M%S%f%z 20121224T153045.500+0100 %Y%m%dT%H%M%z 20121224T1530+0100 (reduced accuracy) Extended format: Example: %Y-%m-%dT%H:%M:%S%Z 2012-12-24T15:30:45+01:00 %Y-%m-%dT%H:%M:%S%f%Z 2012-12-24T15:30:45.500+01:00 %Y-%m-%dT%H:%M%Z 2012-12-24T15:30+01:00 (reduced accuracy) Combinations of ordinal date and time of day Basic format: Example: %Y%jT%H%M%S%z 2012359T153045+0100 %Y%jT%H%M%S%f%z 2012359T153045.500+0100 %Y%jT%H%M%z 2012359T1530+0100 (reduced accuracy) Extended format: Example: %Y-%jT%H:%M:%S%Z 2012-359T15:30:45+01:00 %Y-%jT%H:%M:%S%f%Z 2012-359T15:30:45.500+01:00 %Y-%jT%H:%M%Z 2012-359T15:30+01:00 (reduced accuracy) Combinations of week date and time of day Basic format: Example: %GW%V%uT%H%M%S%z 2012W521T153045+0100 %GW%V%uT%H%M%S%f%z 2012W521T153045.500+0100 %GW%V%uT%H%M%f%z 2012W521T1530+0100 (reduced accuracy) Extended format: Example: %G-W%V-%uT%H:%M:%S%Z 2012-W52-1T15:30:45+01:00 %G-W%V-%uT%H:%M:%S%f%Z 2012-W52-1T15:30:45.500+01:00 %G-W%V-%uT%H:%M%Z 2012-W52-1T15:30+01:00 (reduced accuracy) =head2 ISO 9075 - Information technology - Database languages - SQL Literal values from Part 2: Foundation (SQL/Foundation) Date: Example: %Y-%m-%d 2012-12-24 Time: Example: %H:%M:%S 15:30:45 %H:%M:%S%f 15:30:45.500 Timestamp: Example: %Y-%m-%d %H:%M:%S 2012-12-24 15:30:45 %Y-%m-%d %H:%M:%S %:z 2012-12-24 15:30:45 +01:00 %Y-%m-%d %H:%M:%S%f 2012-12-24 15:30:45.500 %Y-%m-%d %H:%M:%S%f %:z 2012-12-24 15:30:45.500 +01:00 =head2 RFC 1123 - Requirements for Internet Hosts L as updated by L. Format: Example: %a, %d %b %Y %H:%M:%S %z Mon, 24 Dec 2012 15:30:45 +0100 =head2 RFC 2616 - HTTP/1.1 L. Format: Example: %a, %d %b %Y %H:%M:%S GMT Mon, 24 Dec 2012 14:30:45 GMT An HTTP date value represents time as an instance of UTC: $string = $tm->at_utc->strftime("%a, %d %b %Y %H:%M:%S GMT"); =head2 RFC 5322 - Internet Message Format L. Format: Example: %a, %d %b %Y %H:%M:%S %z Mon, 24 Dec 2012 15:30:45 +0100 %a, %d %b %Y %H:%M %z Mon, 24 Dec 2012 15:30 +0100 %d %b %Y %H:%M:%S %z 24 Dec 2012 15:30:45 +0100 %d %b %Y %H:%M %z 24 Dec 2012 15:30 +0100 =head1 TIME ZONES An instance of C represents an unambiguous point in time, but it's not time zone aware. When performing arithmetic on the local date/time or altering the components of the local date/time it may be necessary to use a time zone to convert to the correct representation. C is API compatible with L and L. =head2 Converting from instant time to designated time zone $tm = Time::Moment->new( year => 2012, month => 12, day => 24, hour => 15 ); $zone = DateTime::TimeZone->new(name => 'America/New_York'); $offset = $zone->offset_for_datetime($tm) / 60; say $tm->with_offset_same_instant($offset); # 2012-12-24T10-05 =head2 Converting from local time to designated time zone $tm = Time::Moment->new( year => 2012, month => 12, day => 24, hour => 15 ); $zone = DateTime::TimeZone->new(name => 'America/New_York'); $offset = $zone->offset_for_local_datetime($tm) / 60; say $tm->with_offset_same_local($offset); # 2012-12-24T15-05 =head2 The Effect of Daylight Saving Time The time zone I has 01:00 UTC as standard time, and 02:00 UTC as daylight savings time, with transition dates according to the L. $zone = DateTime::TimeZone->new(name => 'Europe/Brussels'); sub convert_from_instant { my ($tm, $zone) = @_; my $offset = $zone->offset_for_datetime($tm) / 60; return $tm->with_offset_same_instant($offset); } sub convert_from_local { my ($tm, $zone) = @_; my $offset = $zone->offset_for_local_datetime($tm) / 60; return $tm->with_offset_same_local($offset); } European Summer Time begins (clocks go forward) at 01:00 UTC on the last Sunday in March, in 2014 the transition date was March 30. $tm1 = Time::Moment->from_string('2014-03-29T12+01'); $tm2 = $tm1->plus_hours(24); say convert_from_instant($tm2, $zone); # 2014-03-30T13+02 say convert_from_local($tm2, $zone); # 2014-03-30T12+02 During the transition from standard time to daylight savings time, the local time interval between 02:00:00 and 02:59:59 does not exist. Local time values in that interval are invalid. C raises an exception when attempting to convert non-existing local time. $tm1 = Time::Moment->from_string('2014-03-29T22+01'); $tm2 = $tm1->plus_hours(4); say convert_from_instant($tm2, $zone); # 2014-03-30T03+02 say convert_from_local($tm2, $zone); # raises an exception European Summer Time ends (clocks go backward) at 01:00 UTC on the last Sunday in October, in 2014 the transition date was October 26. $tm1 = Time::Moment->from_string('2014-10-25T12+02'); $tm2 = $tm1->plus_hours(24); say convert_from_instant($tm2, $zone); # 2014-10-26T11+01 say convert_from_local($tm2, $zone); # 2014-10-26T12+01 During the transition from daylight savings time to standard time, the local time interval between 02:00:00 and 02:59:59 is repeated. Local time values in that interval are ambiguous because they occur twice. When C converts an ambiguous local time it returns the numerically lowest offset (usually the standard one). $tm1 = Time::Moment->from_string('2014-10-25T22+02'); $tm2 = $tm1->plus_hours(4); say convert_from_instant($tm2, $zone); # 2014-10-26T02+02 say convert_from_local($tm2, $zone); # 2014-10-26T02+01 =head1 DIAGNOSTICS =over 4 =item B<(F)> Usage: %s Method called with wrong number of arguments. =item B<(F)> Parameter '%s' is out of range =item B<(F)> Parameter '%s' is out of the range [%d, %d] =item B<(F)> Cannot coerce object of type %s to Time::Moment =item B<(F)> Could not parse the given string =item B<(F)> %s is not an instance of Time::Moment =item B<(F)> A %s object can only be compared to another %s object ('%s', '%s') =back =head1 THREAD SAFETY C is thread safe. =head1 SEE ALSO L L =head1 SUPPORT =head2 Bugs / Feature Requests Please report any bugs or feature requests through the issue tracker at L. You will be notified automatically of any progress on your issue. =head2 SOURCE CODE This is open source software. The code repository is available for public review and contribution under the terms of the license. L git clone https://github.com/chansen/p5-time-moment =head1 AUTHOR Christian Hansen C =head1 COPYRIGHT Copyright 2013-2017 by Christian Hansen. This is free software; you can redistribute it and/or modify it under the same terms as the Perl 5 programming language system itself.