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=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.
=begin testing
ok (require RT::Date);
=end testing
=head1 METHODS
=cut
package RT::Date;
use Time::Local;
use RT::Base;
use strict;
use vars qw/@ISA/;
@ISA = qw/RT::Base/;
use vars qw($MINUTE $HOUR $DAY $WEEK $MONTH $YEAR);
$MINUTE = 60;
$HOUR = 60 * $MINUTE;
$DAY = 24 * $HOUR;
$WEEK = 7 * $DAY;
$MONTH = 4 * $WEEK;
$YEAR = 365 * $DAY;
# {{{ sub new
sub new {
my $proto = shift;
my $class = ref($proto) || $proto;
my $self = {};
bless ($self, $class);
$self->CurrentUser(@_);
$self->Unix(0);
return $self;
}
# }}}
# {{{ sub Set
=head2 sub Set
takes a param hash with the fields 'Format' and 'Value'
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.
=begin testing
use_ok(RT::Date);
my $date = RT::Date->new($RT::SystemUser);
$date->Set(Format => 'unix', Value => '0');
ok ($date->ISO eq '1970-01-01 00:00:00', "Set a date to midnight 1/1/1970 GMT");
=end testing
=cut
sub Set {
my $self = shift;
my %args = ( Format => 'unix',
Value => time,
@_ );
if ( !$args{'Value'}
|| ( ( $args{'Value'} =~ /^\d*$/ ) and ( $args{'Value'} == 0 ) ) ) {
$self->Unix(-1);
return ( $self->Unix() );
}
if ( $args{'Format'} =~ /^unix$/i ) {
$self->Unix( $args{'Value'} );
}
elsif ( $args{'Format'} =~ /^(sql|datemanip|iso)$/i ) {
$args{'Value'} =~ s!/!-!g;
if (( $args{'Value'} =~ /^(\d{4}?)(\d\d)(\d\d)(\d\d)(\d\d)(\d\d)$/ )
|| ( $args{'Value'} =~
/^(\d{4}?)-(\d\d)-(\d\d) (\d\d):(\d\d):(\d\d)$/ )
|| ( $args{'Value'} =~
/^(\d{4}?)-(\d\d)-(\d\d) (\d\d):(\d\d):(\d\d)\+00$/ )
|| ($args{'Value'} =~ /^(\d{4}?)(\d\d)(\d\d)(\d\d):(\d\d):(\d\d)$/ )
) {
my $year = $1;
my $mon = $2;
my $mday = $3;
my $hours = $4;
my $min = $5;
my $sec = $6;
#timegm expects month as 0->11
$mon--;
#now that we've parsed it, deal with the case where everything
#was 0
if ( $mon == -1 ) {
$self->Unix(-1);
}
else {
#Dateamnip strings aren't in GMT.
if ( $args{'Format'} =~ /^datemanip$/i ) {
$self->Unix(
timelocal( $sec, $min, $hours, $mday, $mon, $year ) );
}
#ISO and SQL dates are in GMT
else {
$self->Unix(
timegm( $sec, $min, $hours, $mday, $mon, $year ) );
}
$self->Unix(-1) unless $self->Unix;
}
}
else {
use Carp;
Carp::cluck;
$RT::Logger->debug(
"Couldn't parse date $args{'Value'} as a $args{'Format'}");
}
}
elsif ( $args{'Format'} =~ /^unknown$/i ) {
require Time::ParseDate;
#Convert it to an ISO format string
my $date = Time::ParseDate::parsedate($args{'Value'},
UK => $RT::DateDayBeforeMonth,
PREFER_PAST => $RT::AmbiguousDayInPast,
PREFER_FUTURE => !($RT::AmbiguousDayInPast));
#This date has now been set to a date in the _local_ timezone.
#since ISO dates are known to be in GMT (for RT's purposes);
$RT::Logger->debug( "RT::Date used date::parse to make "
. $args{'Value'}
. " $date\n" );
return ( $self->Set( Format => 'unix', Value => "$date" ) );
}
else {
die "Unknown Date format: " . $args{'Format'} . "\n";
}
return ( $self->Unix() );
}
# }}}
# {{{ sub SetToMidnight
=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<server> or C<UTC>
=cut
sub SetToMidnight {
my $self = shift;
my %args = ( Timezone => 'UTC', @_ );
if ( lc $args{'Timezone'} eq 'server' ) {
$self->Unix( Time::Local::timelocal( 0,0,0,(localtime $self->Unix)[3..7] ) );
} else {
$self->Unix( Time::Local::timegm( 0,0,0,(gmtime $self->Unix)[3..7] ) );
}
return ($self->Unix);
}
# }}}
# {{{ sub SetToNow
sub SetToNow {
my $self = shift;
return($self->Set(Format => 'unix', Value => time))
}
# }}}
# {{{ sub Diff
=head2 Diff
Takes either an RT::Date object or the date in unixtime format as a string
Returns the differnce between $self and that time as a number of seconds
=cut
sub Diff {
my $self = shift;
my $other = shift;
if (ref($other) eq 'RT::Date') {
$other=$other->Unix;
}
return ($self->Unix - $other);
}
# }}}
# {{{ sub DiffAsString
=head2 sub DiffAsString
Takes either an RT::Date object or the date in unixtime format as a string
Returns the differnce between $self and that time as a number of seconds as
as string fit for human consumption
=cut
sub DiffAsString {
my $self = shift;
my $other = shift;
if ($other < 1) {
return ("");
}
if ($self->Unix < 1) {
return("");
}
my $diff = $self->Diff($other);
return ($self->DurationAsString($diff));
}
# }}}
# {{{ sub DurationAsString
=head2 DurationAsString
Takes a number of seconds. returns a string describing that duration
=cut
sub DurationAsString {
my $self = shift;
my $duration = shift;
my ( $negative, $s );
$negative = 1 if ( $duration < 0 );
$duration = abs($duration);
my $time_unit;
if ( $duration < $MINUTE ) {
$s = $duration;
$time_unit = $self->loc("sec");
}
elsif ( $duration < ( 2 * $HOUR ) ) {
$s = int( $duration / $MINUTE );
$time_unit = $self->loc("min");
}
elsif ( $duration < ( 2 * $DAY ) ) {
$s = int( $duration / $HOUR );
$time_unit = $self->loc("hours");
}
elsif ( $duration < ( 2 * $WEEK ) ) {
$s = int( $duration / $DAY );
$time_unit = $self->loc("days");
}
elsif ( $duration < ( 2 * $MONTH ) ) {
$s = int( $duration / $WEEK );
$time_unit = $self->loc("weeks");
}
elsif ( $duration < $YEAR ) {
$s = int( $duration / $MONTH );
$time_unit = $self->loc("months");
}
else {
$s = int( $duration / $YEAR );
$time_unit = $self->loc("years");
}
if ($negative) {
return $self->loc( "[_1] [_2] ago", $s, $time_unit );
}
else {
return $self->loc( "[_1] [_2]", $s, $time_unit );
}
}
# }}}
# {{{ sub AgeAsString
=head2 sub AgeAsString
Takes nothing
Returns a string that's the differnce between the time in the object and now
=cut
sub AgeAsString {
my $self = shift;
return ($self->DiffAsString(time));
}
# }}}
# {{{ sub AsString
=head2 sub AsString
Returns the object\'s time as a string with the current timezone.
=cut
sub AsString {
my $self = shift;
return ($self->loc("Not set")) if ($self->Unix <= 0);
my ($sec,$min,$hour,$mday,$mon,$year,$wday,$yday,$isdst) = localtime($self->Unix);
return $self->loc("[_1] [_2] [_3] [_4]:[_5]:[_6] [_7]", $self->GetWeekday($wday), $self->GetMonth($mon), map {sprintf "%02d", $_} ($mday, $hour, $min, $sec), ($year+1900));
}
# }}}
# {{{ GetWeekday
=head2 GetWeekday DAY
Takes an integer day of week and returns a localized string for that day of week
=cut
sub GetWeekday {
my $self = shift;
my $dow = shift;
return $self->loc('Mon.') if ($dow == 1);
return $self->loc('Tue.') if ($dow == 2);
return $self->loc('Wed.') if ($dow == 3);
return $self->loc('Thu.') if ($dow == 4);
return $self->loc('Fri.') if ($dow == 5);
return $self->loc('Sat.') if ($dow == 6);
return $self->loc('Sun.') if ($dow == 0);
}
# }}}
# {{{ GetMonth
=head2 GetMonth DAY
Takes an integer month and returns a localized string for that month
=cut
sub GetMonth {
my $self = shift;
my $mon = shift;
# We do this rather than an array so that we don't call localize 12x what we need to
return $self->loc('Jan.') if ($mon == 0);
return $self->loc('Feb.') if ($mon == 1);
return $self->loc('Mar.') if ($mon == 2);
return $self->loc('Apr.') if ($mon == 3);
return $self->loc('May.') if ($mon == 4);
return $self->loc('Jun.') if ($mon == 5);
return $self->loc('Jul.') if ($mon == 6);
return $self->loc('Aug.') if ($mon == 7);
return $self->loc('Sep.') if ($mon == 8);
return $self->loc('Oct.') if ($mon == 9);
return $self->loc('Nov.') if ($mon == 10);
return $self->loc('Dec.') if ($mon == 11);
}
# }}}
# {{{ sub AddSeconds
=head2 sub AddSeconds
Takes a number of seconds as a string
Returns the new time
=cut
sub AddSeconds {
my $self = shift;
my $delta = shift;
$self->Set(Format => 'unix', Value => ($self->Unix + $delta));
return ($self->Unix);
}
# }}}
# {{{ sub AddDays
=head2 AddDays $DAYS
Adds 24 hours * $DAYS to the current time
=cut
sub AddDays {
my $self = shift;
my $days = shift;
$self->AddSeconds($days * $DAY);
}
# }}}
# {{{ sub AddDay
=head2 AddDay
Adds 24 hours to the current time
=cut
sub AddDay {
my $self = shift;
$self->AddSeconds($DAY);
}
# }}}
# {{{ sub Unix
=head2 sub 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;
$self->{'time'} = shift if (@_);
return ($self->{'time'});
}
# }}}
# {{{ sub ISO
=head2 ISO
Takes nothing
Returns the object's date in ISO format
=cut
sub ISO {
my $self=shift;
my ($sec,$min,$hour,$mday,$mon,$year,$wday,$yday,$isdst, $date) ;
return ('1970-01-01 00:00:00') if ($self->Unix == -1);
# 0 1 2 3 4 5 6 7 8
($sec,$min,$hour,$mday,$mon,$year,$wday,$yday,$isdst) = gmtime($self->Unix);
#make the year YYYY
$year+=1900;
#the month needs incrementing, as gmtime returns 0-11
$mon++;
$date = sprintf("%04d-%02d-%02d %02d:%02d:%02d", $year,$mon,$mday, $hour,$min,$sec);
return ($date);
}
# }}}
# {{{ sub W3CDTF
=head2 W3CDTF
Takes nothing
Returns the object's date in W3C DTF format
=cut
sub W3CDTF {
my $self = shift;
my $date = $self->ISO . 'Z';
$date =~ s/ /T/;
return $date;
};
# }}}
# {{{ sub LocalTimezone
=head2 LocalTimezone
Returns the current timezone. For now, draws off a system timezone, RT::Timezone. Eventually, this may
pull from a 'Timezone' attribute of the CurrentUser
=cut
sub LocalTimezone {
my $self = shift;
return $self->CurrentUser->Timezone
if $self->CurrentUser and $self->CurrentUser->can('Timezone');
return ($RT::Timezone);
}
# }}}
eval "require RT::Date_Vendor";
die $@ if ($@ && $@ !~ qr{^Can't locate RT/Date_Vendor.pm});
eval "require RT::Date_Local";
die $@ if ($@ && $@ !~ qr{^Can't locate RT/Date_Local.pm});
1;