# BEGIN BPS TAGGED BLOCK {{{ # # COPYRIGHT: # # This software is Copyright (c) 1996-2019 Best Practical Solutions, LLC # # # (Except where explicitly superseded by other copyright notices) # # # LICENSE: # # This work is made available to you under the terms of Version 2 of # the GNU General Public License. A copy of that license should have # been provided with this software, but in any event can be snarfed # from www.gnu.org. # # This work 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 # General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA # 02110-1301 or visit their web page on the internet at # http://www.gnu.org/licenses/old-licenses/gpl-2.0.html. # # # CONTRIBUTION SUBMISSION POLICY: # # (The following paragraph is not intended to limit the rights granted # to you to modify and distribute this software under the terms of # the GNU General Public License and is only of importance to you if # you choose to contribute your changes and enhancements to the # community by submitting them to Best Practical Solutions, LLC.) # # By intentionally submitting any modifications, corrections or # derivatives to this work, or any other work intended for use with # Request Tracker, to Best Practical Solutions, LLC, you confirm that # you are the copyright holder for those contributions and you grant # Best Practical Solutions, LLC a nonexclusive, worldwide, irrevocable, # royalty-free, perpetual, license to use, copy, create derivative # works based on those contributions, and sublicense and distribute # those contributions and any derivatives thereof. # # END BPS TAGGED BLOCK }}} =head1 NAME RT::Date - a simple Object Oriented date. =head1 SYNOPSIS use RT::Date =head1 DESCRIPTION RT Date is a simple Date Object designed to be speedy and easy for RT to use. The fact that it assumes that a time of 0 means "never" is probably a bug. =head1 METHODS =cut package RT::Date; use strict; use warnings; use base qw/RT::Base/; use DateTime; use Time::Local; use POSIX qw(tzset); use vars qw($MINUTE $HOUR $DAY $WEEK $MONTH $YEAR); $MINUTE = 60; $HOUR = 60 * $MINUTE; $DAY = 24 * $HOUR; $WEEK = 7 * $DAY; $MONTH = 30.4375 * $DAY; $YEAR = 365.25 * $DAY; our @MONTHS = ( 'Jan', # loc 'Feb', # loc 'Mar', # loc 'Apr', # loc 'May', # loc 'Jun', # loc 'Jul', # loc 'Aug', # loc 'Sep', # loc 'Oct', # loc 'Nov', # loc 'Dec', # loc ); our @DAYS_OF_WEEK = ( 'Sun', # loc 'Mon', # loc 'Tue', # loc 'Wed', # loc 'Thu', # loc 'Fri', # loc 'Sat', # loc ); our @FORMATTERS = ( 'DefaultFormat', # loc 'ISO', # loc 'W3CDTF', # loc 'RFC2822', # loc 'RFC2616', # loc 'iCal', # loc 'LocalizedDateTime', # loc ); =head2 new Object constructor takes one argument C object. =cut sub new { my $proto = shift; my $class = ref($proto) || $proto; my $self = {}; bless ($self, $class); $self->CurrentUser(@_); $self->Unix(0); return $self; } =head2 Set Takes a param hash with the fields C, C and C. If $args->{'Format'} is 'unix', takes the number of seconds since the epoch. If $args->{'Format'} is ISO, tries to parse an ISO date. If $args->{'Format'} is 'unknown', require Time::ParseDate and make it figure things out. This is a heavyweight operation that should never be called from within RT's core. But it's really useful for something like the textbox date entry where we let the user do whatever they want. If $args->{'Value'} is 0, assumes you mean never. =cut sub Set { my $self = shift; my %args = ( Format => 'unix', Value => time, Timezone => 'user', @_ ); return $self->Unix(0) unless $args{'Value'} && $args{'Value'} =~ /\S/; my $format = lc $args{'Format'}; if ( $format eq 'unix' ) { return $self->Unix( $args{'Value'} ); } elsif ( ($format eq 'sql' || $format eq 'iso') && $args{'Value'} =~ /^(\d{4})-(\d\d)-(\d\d) (\d\d):(\d\d):(\d\d)$/ ) { local $@; my $u = eval { Time::Local::timegm($6, $5, $4, $3, $2-1, $1) } || 0; $RT::Logger->warning("Invalid date $args{'Value'}: $@") if $@ && !$u; return $self->Unix( $u > 0 ? $u : 0 ); } elsif ( $format =~ /^(sql|datemanip|iso)$/ ) { $args{'Value'} =~ s!/!-!g; if ( ( $args{'Value'} =~ /^(\d{4})?(\d\d)(\d\d)(\d\d)(\d\d)(\d\d)$/ ) || ( $args{'Value'} =~ /^(\d{4})?(\d\d)(\d\d)(\d\d):(\d\d):(\d\d)$/ ) || ( $args{'Value'} =~ /^(?:(\d{4})-)?(\d\d)-(\d\d) (\d\d):(\d\d):(\d\d)$/ ) || ( $args{'Value'} =~ /^(?:(\d{4})-)?(\d\d)-(\d\d) (\d\d):(\d\d):(\d\d)\+00$/ ) ) { my ($year, $mon, $mday, $hours, $min, $sec) = ($1, $2, $3, $4, $5, $6); # use current year if string has no value $year ||= (localtime time)[5] + 1900; #timegm expects month as 0->11 $mon--; #now that we've parsed it, deal with the case where everything was 0 return $self->Unix(0) if $mon < 0 || $mon > 11; my $tz = lc $args{'Format'} eq 'datemanip'? 'user': 'utc'; $self->Unix( $self->Timelocal( $tz, $sec, $min, $hours, $mday, $mon, $year ) ); $self->Unix(0) unless $self->Unix > 0; } else { $RT::Logger->warning( "Couldn't parse date '$args{'Value'}' as a $args{'Format'} format" ); return $self->Unix(0); } } elsif ( $format eq 'unknown' ) { require Time::ParseDate; # the module supports only legacy timezones like PDT or EST... # so we parse date as GMT and later apply offset, this only # should be applied to absolute times, so compensate shift in NOW my $now = time; $now += ($self->Localtime( $args{Timezone}, $now ))[9]; my ($date, $error) = Time::ParseDate::parsedate( $args{'Value'}, GMT => 1, NOW => $now, UK => RT->Config->Get('DateDayBeforeMonth'), PREFER_PAST => RT->Config->Get('AmbiguousDayInPast'), PREFER_FUTURE => RT->Config->Get('AmbiguousDayInFuture'), ); unless ( defined $date ) { $RT::Logger->warning( "Couldn't parse date '$args{'Value'}' by Time::ParseDate" ); return $self->Unix(0); } # apply timezone offset $date -= ($self->Localtime( $args{Timezone}, $date ))[9]; $RT::Logger->debug( "RT::Date used Time::ParseDate to make '$args{'Value'}' $date\n" ); return $self->Unix($date || 0); } else { $RT::Logger->error( "Unknown Date format: $args{'Format'}\n" ); return $self->Unix(0); } return $self->Unix; } =head2 SetToNow Set the object's time to the current time. Takes no arguments and returns unix time. =cut sub SetToNow { return $_[0]->Unix(time); } =head2 SetToMidnight [Timezone => 'utc'] Sets the date to midnight (at the beginning of the day). Returns the unixtime at midnight. Arguments: =over 4 =item Timezone Timezone context C, C or C. See also L. =back =cut sub SetToMidnight { my $self = shift; my %args = ( Timezone => '', @_ ); my $new = $self->Timelocal( $args{'Timezone'}, 0,0,0,($self->Localtime( $args{'Timezone'} ))[3..9] ); return $self->Unix( $new ); } =head2 SetToStart PERIOD[, Timezone => 'utc' ] Set to the beginning of the current PERIOD, which can be "year", "month", "day", "hour", or "minute". =cut sub SetToStart { my $self = shift; my $p = uc(shift); my %args = @_; my $tz = $args{'Timezone'} || ''; my @localtime = $self->Localtime($tz); #remove 'offset' so that DST is figured based on the resulting time. pop @localtime; # This is the cleanest way to implement it, I swear. { $localtime[0]=0; last if ($p eq 'MINUTE'); $localtime[1]=0; last if ($p eq 'HOUR'); $localtime[2]=0; last if ($p eq 'DAY'); $localtime[3]=1; last if ($p eq 'MONTH'); $localtime[4]=0; last if ($p eq 'YEAR'); $RT::Logger->warning("Couldn't find start date of '$p'."); return; } my $new = $self->Timelocal($tz, @localtime); return $self->Unix($new); } =head2 Diff Takes either an C object or the date in unixtime format as a string, if nothing is specified uses the current time. Returns the differnce between the time in the current object and that time as a number of seconds. Returns C if any of two compared values is incorrect or not set. =cut sub Diff { my $self = shift; my $other = shift; $other = time unless defined $other; if ( UNIVERSAL::isa( $other, 'RT::Date' ) ) { $other = $other->Unix; } return undef unless $other=~ /^\d+$/ && $other > 0; my $unix = $self->Unix; return undef unless $unix > 0; return $unix - $other; } =head2 DiffAsString Takes either an C object or the date in unixtime format as a string, if nothing is specified uses the current time. Returns the differnce between C<$self> and that time as a number of seconds as a localized string fit for human consumption. Returns empty string if any of two compared values is incorrect or not set. =cut sub DiffAsString { my $self = shift; my $diff = $self->Diff( @_ ); return '' unless defined $diff; return $self->DurationAsString( $diff ); } =head2 DurationAsString Takes a number of seconds. Returns a localized string describing that duration. Takes optional named arguments: =over 4 =item * Show How many elements to show, how precise it should be. Default is 1, most vague variant. =item * Short Turn on short notation with one character units, for example "3M 2d 1m 10s". =back =cut sub DurationAsString { my $self = shift; my $duration = int shift; my %args = ( Show => 1, Short => 0, @_ ); unless ( $duration ) { return $args{Short}? $self->loc("0s") : $self->loc("0 seconds"); } my $negative; $negative = 1 if $duration < 0; $duration = abs $duration; my @res; my $coef = 2; my $i = 0; while ( $duration > 0 && ++$i <= $args{'Show'} ) { my ($locstr, $unit); if ( $duration < $MINUTE ) { $locstr = $args{Short} ? '[_1]s' # loc : '[quant,_1,second,seconds]'; # loc $unit = 1; } elsif ( $duration < ( $coef * $HOUR ) ) { $locstr = $args{Short} ? '[_1]m' # loc : '[quant,_1,minute,minutes]'; # loc $unit = $MINUTE; } elsif ( $duration < ( $coef * $DAY ) ) { $locstr = $args{Short} ? '[_1]h' # loc : '[quant,_1,hour,hours]'; # loc $unit = $HOUR; } elsif ( $duration < ( $coef * $WEEK ) ) { $locstr = $args{Short} ? '[_1]d' # loc : '[quant,_1,day,days]'; # loc $unit = $DAY; } elsif ( $duration < ( $coef * $MONTH ) ) { $locstr = $args{Short} ? '[_1]W' # loc : '[quant,_1,week,weeks]'; # loc $unit = $WEEK; } elsif ( $duration < $YEAR ) { $locstr = $args{Short} ? '[_1]M' # loc : '[quant,_1,month,months]'; # loc $unit = $MONTH; } else { $locstr = $args{Short} ? '[_1]Y' # loc : '[quant,_1,year,years]'; # loc $unit = $YEAR; } my $value = int( $duration / $unit + ($i < $args{'Show'}? 0 : 0.5) ); $duration -= int( $value * $unit ); push @res, $self->loc($locstr, $value); $coef = 1; } if ( $negative ) { return $self->loc( "[_1] ago", join ' ', @res ); } else { return join ' ', @res; } } =head2 AgeAsString Takes nothing. Returns a string that's the difference between the time in the object and now. =cut sub AgeAsString { return $_[0]->DiffAsString } =head2 AsString Returns the object's time as a localized string with curent user's preferred format and timezone. If the current user didn't choose preferred format then system wide setting is used or L if the latter is not specified. See config option C. =cut sub AsString { my $self = shift; my %args = (@_); return $self->loc("Not set") unless $self->IsSet; my $format = RT->Config->Get( 'DateTimeFormat', $self->CurrentUser ) || 'DefaultFormat'; $format = { Format => $format } unless ref $format; %args = (%$format, %args); return $self->Get( Timezone => 'user', %args ); } =head2 GetWeekday DAY Takes an integer day of week and returns a localized string for that day of week. Valid values are from range 0-6, Note that B<0 is sunday>. =cut sub GetWeekday { my $self = shift; my $dow = shift; return $self->loc($DAYS_OF_WEEK[$dow]) if $DAYS_OF_WEEK[$dow]; return ''; } =head2 GetMonth MONTH Takes an integer month and returns a localized string for that month. Valid values are from from range 0-11. =cut sub GetMonth { my $self = shift; my $mon = shift; return $self->loc($MONTHS[$mon]) if $MONTHS[$mon]; return ''; } =head2 AddSeconds SECONDS Takes a number of seconds and returns the new unix time. Negative value can be used to substract seconds. =cut sub AddSeconds { my $self = shift; my $delta = shift or return $self->Unix; $self->Set(Format => 'unix', Value => ($self->Unix + $delta)); return ($self->Unix); } =head2 AddDays [DAYS] Adds C<24 hours * DAYS> to the current time. Adds one day when no argument is specified. Negative value can be used to substract days. Returns new unix time. =cut sub AddDays { my $self = shift; my $days = shift; $days = 1 unless defined $days; return $self->AddSeconds( $days * $DAY ); } =head2 AddDay Adds 24 hours to the current time. Returns new unix time. =cut sub AddDay { return $_[0]->AddSeconds($DAY) } =head2 AddMonth Adds one month to the current time. Returns new unix time. =cut sub AddMonth { my $self = shift; my %args = @_; my @localtime = $self->Localtime($args{'Timezone'}); # remove offset, as with SetToStart pop @localtime; $localtime[4]++; #month if ( $localtime[4] == 12 ) { $localtime[4] = 0; $localtime[5]++; #year } my $new = $self->Timelocal($args{'Timezone'}, @localtime); return $self->Unix($new); } =head2 Unix [unixtime] Optionally takes a date in unix seconds since the epoch format. Returns the number of seconds since the epoch =cut sub Unix { my $self = shift; if (@_) { my $time = int(shift || 0); if ($time < 0) { RT->Logger->notice("Passed a unix time less than 0, forcing to 0: [$time]"); $time = 0; } $self->{'time'} = int $time; } return $self->{'time'}; } =head2 DateTime Alias for L method. Arguments C and C are fixed to true values, other arguments could be used as described in L. =cut sub DateTime { my $self = shift; unless (defined $self) { use Carp; Carp::confess("undefined $self"); } return $self->Get( @_, Date => 1, Time => 1 ); } =head2 Date Takes Format argument which allows you choose date formatter. Pass throught other arguments to the formatter method. Returns the object's formatted date. Default formatter is ISO. =cut sub Date { my $self = shift; return $self->Get( @_, Date => 1, Time => 0 ); } =head2 Time =cut sub Time { my $self = shift; return $self->Get( @_, Date => 0, Time => 1 ); } =head2 Get Returns a formatted and localized string that represents the time of the current object. =cut sub Get { my $self = shift; my %args = (Format => 'ISO', @_); my $formatter = $args{'Format'}; unless ( $self->ValidFormatter($formatter) ) { RT->Logger->warning("Invalid date formatter '$formatter', falling back to ISO"); $formatter = 'ISO'; } $formatter = 'ISO' unless $self->can($formatter); return $self->$formatter( %args ); } =head2 Output formatters Fomatter is a method that returns date and time in different configurable format. Each method takes several arguments: =over 1 =item Date =item Time =item Timezone - Timezone context C, C or C =back Formatters may also add own arguments to the list, for example in RFC2822 format day of time in output is optional so it understands boolean argument C. =head3 Formatters Returns an array of available formatters. =cut sub Formatters { my $self = shift; return @FORMATTERS; } =head3 ValidFormatter FORMAT Returns a true value if C is a known formatter. Otherwise returns false. =cut sub ValidFormatter { my $self = shift; my $format = shift; return (grep { $_ eq $format } $self->Formatters and $self->can($format)) ? 1 : 0; } =head3 DefaultFormat =cut sub DefaultFormat { my $self = shift; my %args = ( Date => 1, Time => 1, Timezone => '', Seconds => 1, @_, ); # 0 1 2 3 4 5 6 7 8 9 my ($sec,$min,$hour,$mday,$mon,$year,$wday,$ydaym,$isdst,$offset) = $self->Localtime($args{'Timezone'}); $wday = $self->GetWeekday($wday); $mon = $self->GetMonth($mon); $_ = sprintf "%02d", $_ foreach $mday, $hour, $min, $sec; if( $args{'Date'} && !$args{'Time'} ) { return $self->loc('[_1] [_2] [_3] [_4]', $wday,$mon,$mday,$year); } elsif( !$args{'Date'} && $args{'Time'} ) { if( $args{'Seconds'} ) { return $self->loc('[_1]:[_2]:[_3]', $hour,$min,$sec); } else { return $self->loc('[_1]:[_2]', $hour,$min); } } else { if( $args{'Seconds'} ) { return $self->loc('[_1] [_2] [_3] [_4]:[_5]:[_6] [_7]', $wday,$mon,$mday,$hour,$min,$sec,$year); } else { return $self->loc('[_1] [_2] [_3] [_4]:[_5] [_6]', $wday,$mon,$mday,$hour,$min,$year); } } } =head2 LocaleObj Returns the L object representing the current user's locale. =cut sub LocaleObj { my $self = shift; my $lang = $self->CurrentUser->UserObj->Lang; unless ($lang) { require I18N::LangTags::Detect; $lang = ( I18N::LangTags::Detect::detect(), 'en' )[0]; } return DateTime::Locale->load($lang); } =head3 LocalizedDateTime Returns date and time as string, with user localization. Supports arguments: C and C which may contains date and time format as specified in L (default to C and C), C and C which may be set to 0 if you want full Day/Month names instead of abbreviated ones. =cut sub LocalizedDateTime { my $self = shift; my %args = ( Date => 1, Time => 1, Timezone => '', DateFormat => '', TimeFormat => '', AbbrDay => 1, AbbrMonth => 1, @_, ); # Require valid names for the format methods my $date_format = $args{DateFormat} =~ /^\w+$/ ? $args{DateFormat} : 'date_format_full'; my $time_format = $args{TimeFormat} =~ /^\w+$/ ? $args{TimeFormat} : 'time_format_medium'; my $formatter = $self->LocaleObj; $date_format = $formatter->$date_format; $time_format = $formatter->$time_format; $date_format =~ s/EEEE/EEE/g if ( $args{'AbbrDay'} ); $date_format =~ s/MMMM/MMM/g if ( $args{'AbbrMonth'} ); my ($sec,$min,$hour,$mday,$mon,$year,$wday,$ydaym,$isdst,$offset) = $self->Localtime($args{'Timezone'}); $mon++; my $tz = $self->Timezone($args{'Timezone'}); # FIXME : another way to call this module without conflict with local # DateTime method? my $dt = DateTime::->new( locale => $formatter, time_zone => $tz, year => $year, month => $mon, day => $mday, hour => $hour, minute => $min, second => $sec, nanosecond => 0, ); if ( $args{'Date'} && !$args{'Time'} ) { return $dt->format_cldr($date_format); } elsif ( !$args{'Date'} && $args{'Time'} ) { return $dt->format_cldr($time_format); } else { return $dt->format_cldr($date_format) . " " . $dt->format_cldr($time_format); } } =head3 ISO Returns the object's date in ISO format C. ISO format is locale-independent, but adding timezone offset info is not implemented yet. Supports arguments: C, C, C and C. See L for description of arguments. =cut sub ISO { my $self = shift; my %args = ( Date => 1, Time => 1, Timezone => '', Seconds => 1, @_, ); # 0 1 2 3 4 5 6 7 8 9 my ($sec,$min,$hour,$mday,$mon,$year,$wday,$ydaym,$isdst,$offset) = $self->Localtime($args{'Timezone'}); #the month needs incrementing, as gmtime returns 0-11 $mon++; my $res = ''; $res .= sprintf("%04d-%02d-%02d", $year, $mon, $mday) if $args{'Date'}; $res .= sprintf(' %02d:%02d', $hour, $min) if $args{'Time'}; $res .= sprintf(':%02d', $sec) if $args{'Time'} && $args{'Seconds'}; $res =~ s/^\s+//; return $res; } =head3 W3CDTF Returns the object's date and time in W3C date time format (L). Format is locale-independent and is close enough to ISO, but note that date part is B and output string has timezone offset mark in C<[+-]hh:mm> format. Supports arguments: C, C and C. See L for description of arguments. =cut sub W3CDTF { my $self = shift; my %args = ( Time => 1, Timezone => '', Seconds => 1, @_, Date => 1, ); # 0 1 2 3 4 5 6 7 8 9 my ($sec,$min,$hour,$mday,$mon,$year,$wday,$ydaym,$isdst,$offset) = $self->Localtime( $args{'Timezone'} ); #the month needs incrementing, as gmtime returns 0-11 $mon++; my $res = ''; $res .= sprintf("%04d-%02d-%02d", $year, $mon, $mday); if ( $args{'Time'} ) { $res .= sprintf('T%02d:%02d', $hour, $min); $res .= sprintf(':%02d', $sec) if $args{'Seconds'}; if ( $offset ) { $res .= sprintf "%s%02d:%02d", $self->_SplitOffset( $offset ); } else { $res .= 'Z'; } } return $res; }; =head3 RFC2822 (MIME) Returns the object's date and time in RFC2822 format, for example C. Format is locale-independent as required by RFC. Time part always has timezone offset in digits with sign prefix. Supports arguments: C, C, C, C and C. See L for description of arguments. =cut sub RFC2822 { my $self = shift; my %args = ( Date => 1, Time => 1, Timezone => '', DayOfWeek => 1, Seconds => 1, @_, ); # 0 1 2 3 4 5 6 7 8 9 my ($sec,$min,$hour,$mday,$mon,$year,$wday,$ydaym,$isdst,$offset) = $self->Localtime($args{'Timezone'}); my ($date, $time) = ('',''); $date .= "$DAYS_OF_WEEK[$wday], " if $args{'DayOfWeek'} && $args{'Date'}; $date .= sprintf("%02d %s %04d", $mday, $MONTHS[$mon], $year) if $args{'Date'}; if ( $args{'Time'} ) { $time .= sprintf("%02d:%02d", $hour, $min); $time .= sprintf(":%02d", $sec) if $args{'Seconds'}; $time .= sprintf " %s%02d%02d", $self->_SplitOffset( $offset ); } return join ' ', grep $_, ($date, $time); } =head3 RFC2616 (HTTP) Returns the object's date and time in RFC2616 (HTTP/1.1) format, for example C. While the RFC describes version 1.1 of HTTP, but the same form date can be used in version 1.0. Format is fixed-length, locale-independent and always represented in GMT which makes it quite useless for users, but any date in HTTP transfers must be presented using this format. HTTP-date = rfc1123 | ... rfc1123 = wkday "," SP date SP time SP "GMT" date = 2DIGIT SP month SP 4DIGIT ; day month year (e.g., 02 Jun 1982) time = 2DIGIT ":" 2DIGIT ":" 2DIGIT ; 00:00:00 - 23:59:59 wkday = "Mon" | "Tue" | "Wed" | "Thu" | "Fri" | "Sat" | "Sun" month = "Jan" | "Feb" | "Mar" | "Apr" | "May" | "Jun" | "Jul" | "Aug" | "Sep" | "Oct" | "Nov" | "Dec" Supports arguments: C and C, but you should use them only for some personal reasons, RFC2616 doesn't define any optional parts. See L for description of arguments. =cut sub RFC2616 { my $self = shift; my %args = ( Date => 1, Time => 1, @_, Timezone => 'utc', Seconds => 1, DayOfWeek => 1, ); my $res = $self->RFC2822( %args ); $res =~ s/\s*[+-]\d\d\d\d$/ GMT/ if $args{'Time'}; return $res; } =head4 iCal Returns the object's date and time in iCalendar format. If only date requested then user's timezone is used, otherwise it's UTC. Supports arguments: C and C. See L for description of arguments. =cut sub iCal { my $self = shift; my %args = ( Date => 1, Time => 1, @_, ); my $res; if ( $args{'Date'} && !$args{'Time'} ) { my (undef, undef, undef, $mday, $mon, $year) = $self->Localtime( 'user' ); $res = sprintf( '%04d%02d%02d', $year, $mon+1, $mday ); } elsif ( !$args{'Date'} && $args{'Time'} ) { my ($sec, $min, $hour) = $self->Localtime( 'utc' ); $res = sprintf( 'T%02d%02d%02dZ', $hour, $min, $sec ); } else { my ($sec, $min, $hour, $mday, $mon, $year) = $self->Localtime( 'utc' ); $res = sprintf( '%04d%02d%02dT%02d%02d%02dZ', $year, $mon+1, $mday, $hour, $min, $sec ); } return $res; } # it's been added by mistake in 3.8.0 sub iCalDate { return (shift)->iCal( Time => 0, @_ ) } sub _SplitOffset { my ($self, $offset) = @_; my $sign = $offset < 0? '-': '+'; $offset = int( (abs $offset) / 60 + 0.001 ); my $mins = $offset % 60; my $hours = int( $offset/60 + 0.001 ); return $sign, $hours, $mins; } =head2 Timezones handling =head3 Localtime $context [$time] Takes one mandatory argument C<$context>, which determines whether we want "user local", "system" or "UTC" time. Also, takes optional argument unix C<$time>, default value is the current unix time. Returns object's date and time in the format provided by perl's builtin functions C and C with two exceptions: =over =item 1) "Year" is a four-digit year, rather than "years since 1900" =item 2) The last element of the array returned is C, which represents timezone offset against C in seconds. =back =cut sub Localtime { my $self = shift; my $tz = $self->Timezone(shift); my $unix = shift || $self->Unix; $unix = 0 unless $unix >= 0; my @local; if ($tz eq 'UTC') { @local = gmtime($unix); } else { { local $ENV{'TZ'} = $tz; ## Using POSIX::tzset fixes a bug where the TZ environment variable ## is cached. POSIX::tzset(); @local = localtime($unix); } POSIX::tzset(); # return back previous value } $local[5] += 1900; # change year to 4+ digits format my $offset = Time::Local::timegm_nocheck(@local) - $unix; return @local, $offset; } =head3 Timelocal $context @time Takes argument C<$context>, which determines whether we should treat C<@time> as "user local", "system" or "UTC" time. C<@time> is array returned by L functions. Only first six elements are mandatory - $sec, $min, $hour, $mday, $mon and $year. You may pass $wday, $yday and $isdst, these are ignored. If you pass C<$offset> as ninth argument, it's used instead of C<$context>. It's done such way as code C<< $self->Timelocal('utc', $self->Localtime('server')) >> doesn't make much sense and most probably would produce unexpected results, so the method ignores 'utc' context and uses the offset returned by the L method. =cut sub Timelocal { my $self = shift; my $tz = shift; if ( defined $_[9] ) { return timegm(@_[0..5]) - $_[9]; } else { $tz = $self->Timezone( $tz ); if ( $tz eq 'UTC' ) { return Time::Local::timegm(@_[0..5]); } else { my $rv; { local $ENV{'TZ'} = $tz; ## Using POSIX::tzset fixes a bug where the TZ environment variable ## is cached. POSIX::tzset(); $rv = Time::Local::timelocal(@_[0..5]); }; POSIX::tzset(); # switch back to previouse value return $rv; } } } =head3 Timezone $context Returns the timezone name for the specified context. C<$context> should be one of these values: =over =item C The current user's Timezone value will be returned. =item C The value of the C RT config option will be returned. =back For any other value of C<$context>, or if the specified context has no defined timezone, C is returned. =cut sub Timezone { my $self = shift; if (@_ == 0) { Carp::carp 'RT::Date->Timezone requires a context argument'; return undef; } my $context = lc(shift); my $tz; if( $context eq 'user' ) { $tz = $self->CurrentUser->UserObj->Timezone; } elsif( $context eq 'server') { $tz = RT->Config->Get('Timezone'); } else { $tz = 'UTC'; } $tz ||= RT->Config->Get('Timezone') || 'UTC'; $tz = 'UTC' if lc $tz eq 'gmt'; return $tz; } =head3 IsSet Returns true if this Date is set in the database, otherwise returns a false value. This avoids needing to compare to 1970-01-01 in any of your code. =cut sub IsSet { my $self = shift; return $self->Unix ? 1 : 0; } RT::Base->_ImportOverlays(); 1;