use warnings; use strict; package Data::ICal::Entry; use base qw/Class::Accessor/; use Data::ICal::Property; use Sys::Hostname qw(); # For unique UIDs for entries use Carp; use constant CRLF => "\x0d\x0a"; =head1 NAME Data::ICal::Entry - Represents an entry in an iCalendar file =head1 SYNOPSIS my $vtodo = Data::ICal::Entry::Todo->new(); $vtodo->add_property( # ... see Data::ICal::Entry::Todo documentation ); $vtodo->add_properties( ... ); $calendar->add_entry($vtodo); $event->add_entry($alarm); $event->add_entries($alarm1, ...); # or all in one go my $vtodo = Data::ICal::Entry::Todo->new( \%props, \@entries ); =head1 DESCRIPTION A L object represents a single entry in an iCalendar file. (Note that the iCalendar RFC refers to entries as "components".) iCalendar defines several types of entries, such as events and to-do lists; each of these corresponds to a subclass of L (though only to-do lists and events are currently implemented). L should be treated as an abstract base class -- all objects created should be of its subclasses. The entire calendar itself (the L object) is also represented as a L object. Each entry has an entry type (such as C or C), a series of "properties", and possibly some sub-entries. (Only the root L object can have sub-entries, except for alarm entries contained in events and to-dos (not yet implemented).) =head1 METHODS =cut =head2 new Creates a new entry object with no properties or sub-entries. =cut sub new { my $class = shift; my $self = $class->SUPER::new(); # ALLOW passing arguments here! $self->set( properties => {} ); $self->set( entries => [] ); for (@_) { ref $_ eq "HASH" and $self->add_properties( %$_ ); ref $_ eq "ARRAY" and $self->add_entries( @$_ ); } return $self; } =head2 as_string [ crlf => C ] Returns the entry as an appropriately formatted string (with trailing newline). Properties are returned in alphabetical order, with multiple properties of the same name returned in the order added. (Property order is unimportant in iCalendar, and this makes testing easier.) If any mandatory property is missing, issues a warning. The string to use as a newline can optionally be specified by giving the a C argument, which defaults to C<\x0d\x0a>, per RFC 2445 spec; this option is primarily for backwards compatibility with versions of this module before 0.16. =cut my $uid = 0; sub as_string { my $self = shift; my %args = ( crlf => CRLF, @_ ); my $output = $self->header(%args); my @mandatory = ( $self->mandatory_unique_properties, $self->mandatory_repeatable_properties, ); if (grep {$_ eq "uid"} @mandatory and !defined $self->properties->{uid} and $self->auto_uid) { # Per the RFC, create a "persistent, globally unique" UID for this # event; "persistent" in this context does not mean consistent # across time, but rather "unique across all time" $self->add_property( uid => time() . '-' .$$ . '-' . $uid++ . '@' . Sys::Hostname::hostname() ); } for my $name ( @mandatory ) { carp "Mandatory property for " . ( ref $self ) . " missing: $name" unless $self->properties->{$name} and @{ $self->properties->{$name} }; } my @properties = sort { # RFC2445 implies an order (see 4.6 Calendar Components) but does not # require it. However, some applications break if VERSION is not first # (see http://icalvalid.cloudapp.net/Default.aspx and [rt.cpan.org # #65447]). return -1 if $a eq 'version'; return 1 if $b eq 'version'; return $a cmp $b; } keys %{ $self->properties }; for my $name (@properties) { $output .= $_ for map { $_->as_string(%args) } @{ $self->properties->{$name} }; } for my $entry ( @{ $self->entries } ) { $output .= $entry->as_string(%args); } $output .= $self->footer(%args); return $output; } =head2 add_entry $entry Adds an entry to this entry. (According to the standard, this should only be called on either a to-do or event entry with an alarm entry, or on a calendar entry (L) with a to-do, event, journal, timezone, or free/busy entry.) Returns true if the entry was successfully added, and false otherwise (perhaps because you tried to add an entry of an invalid type, but this check hasn't been implemented yet). =cut sub add_entry { my $self = shift; my $entry = shift; push @{ $self->{entries} }, $entry; $entry->vcal10( $self->vcal10 ); $entry->rfc_strict( $self->rfc_strict ); $entry->auto_uid( $self->auto_uid ); return $self; } =head2 add_entries $entry1, [$entry2, ...] Convenience function to call C several times with a list of entries. =cut sub add_entries { my $self = shift; $self->add_entry( $_ ) for @_; return $self; } =head2 entries Returns a reference to the array of subentries of this entry. =cut __PACKAGE__->mk_ro_accessors('entries'); =head2 properties Returns a reference to the hash of properties of this entry. The keys are property names and the values are array references containing L objects. =cut __PACKAGE__->mk_ro_accessors('properties'); =head2 property Given a property name returns a reference to the array of L objects. =cut sub property { my $self = shift; my $prop = lc shift; return $self->{'properties'}->{$prop}; } =head2 add_property $propname => $propval Creates a new L object with name C<$propname> and value C<$propval> and adds it to the event. If the property is not known to exist for that object type and does not begin with C, issues a warning. If the property is known to be unique, replaces the original property. To specify parameters for the property, let C<$propval> be a two-element array reference where the first element is the property value and the second element is a hash reference. The keys of the hash are parameter names; the values should be either strings or array references of strings, depending on whether the parameter should have one or multiple (to be comma-separated) values. Examples of setting parameters: # Add a property with a parameter of VALUE set to 'DATE' $event->add_property( rdate => [ $date, { VALUE => 'DATE' } ] ); =cut sub add_property { my $self = shift; my $prop = lc shift; my $val = shift; return unless defined $prop; unless ( $self->is_property($prop) or $prop =~ /^x-/i ) { carp "Unknown property for " . ( ref $self ) . ": $prop"; } if ( $self->is_unique($prop) ) { # It should be unique, so clear out anything we might have first $self->properties->{$prop} = []; } $val = [ $val, {} ] unless ref $val eq 'ARRAY'; my ( $prop_value, $param_hash ) = @$val; my $p = Data::ICal::Property->new( $prop => $prop_value, $param_hash ); $p->vcal10( $self->vcal10 ); push @{ $self->properties->{$prop} }, $p; return $self; } =head2 add_properties $propname1 => $propval1, [$propname2 => $propname2, ...] Convenience function to call C several times with a list of properties. This method is guaranteed to call add C on them in the order given, so that unique properties given later in the call will take precedence over those given earlier. (This is unrelated to the order of properties when the entry is rendered as a string, though.) Parameters for the properties are specified in the same way as in C. =cut sub add_properties { my $self = shift; if ( @_ % 2 ) { carp "Odd number of elements in add_properties call"; return; } while (@_) { my $prop = shift; my $val = shift; $self->add_property( $prop => $val ); } return $self; } =head2 mandatory_unique_properties Subclasses should override this method (which returns an empty list by default) to provide a list of lower case strings identifying the properties which must appear exactly once in the subclass's entry type. =cut sub mandatory_unique_properties { () } =head2 mandatory_repeatable_properties Subclasses should override this method (which returns an empty list by default) to provide a list of lower case strings identifying the properties which must appear at least once in the subclass's entry type. =cut sub mandatory_repeatable_properties { () } =head2 optional_unique_properties Subclasses should override this method (which returns an empty list by default) to provide a list of lower case strings identifying the properties which must appear at most once in the subclass's entry type. =cut sub optional_unique_properties { () } =head2 optional_repeatable_properties Subclasses should override this method (which returns an empty list by default) to provide a list of lower case strings identifying the properties which may appear zero, one, or more times in the subclass's entry type. =cut sub optional_repeatable_properties { () } =head2 is_property $name Returns a boolean value indicating whether or not the property C<$name> is known to the class (that is, if it's listed in C<(mandatory/optional)_(unique/repeatable)_properties>). =cut sub is_property { my $self = shift; my $name = shift; return scalar grep { $_ eq $name } $self->mandatory_unique_properties, $self->mandatory_repeatable_properties, $self->optional_unique_properties, $self->optional_repeatable_properties; } =head2 is_mandatory $name Returns a boolean value indicating whether or not the property C<$name> is known to the class as mandatory (that is, if it's listed in C). =cut sub is_mandatory { my $self = shift; my $name = shift; return scalar grep { $_ eq $name } $self->mandatory_unique_properties, $self->mandatory_repeatable_properties; } =head2 is_optional $name Returns a boolean value indicating whether or not the property C<$name> is known to the class as optional (that is, if it's listed in C). =cut sub is_optional { my $self = shift; my $name = shift; return scalar grep { $_ eq $name } $self->optional_unique_properties, $self->optional_repeatable_properties; } =head2 is_unique $name Returns a boolean value indicating whether or not the property C<$name> is known to the class as unique (that is, if it's listed in C<(mandatory/optional)_unique_properties>). =cut sub is_unique { my $self = shift; my $name = shift; return scalar grep { $_ eq $name } $self->mandatory_unique_properties, $self->optional_unique_properties; } =head2 is_repeatable $name Returns a boolean value indicating whether or not the property C<$name> is known to the class as repeatable (that is, if it's listed in C<(mandatory/optional)_repeatable_properties>). =cut sub is_repeatable { my $self = shift; my $name = shift; return scalar grep { $_ eq $name } $self->mandatory_repeatable_properties, $self->optional_repeatable_properties; } =head2 ical_entry_type Subclasses should override this method to provide the identifying type name of the entry (such as C or C). =cut sub ical_entry_type {'UNDEFINED'} =head2 vcal10 [$bool] Gets or sets a boolean saying whether this entry should be interpreted as vCalendar 1.0 (as opposed to iCalendar 2.0). Generally, you can just set this on your main L object when you construct it; C automatically makes sure that sub-entries end up with the same value as their parents. =cut __PACKAGE__->mk_accessors('vcal10'); =head2 rfc_strict [$bool] Gets or sets a boolean saying whether this entry will complain about missing UIDs as per RFC2446. Defaults to false, for backwards compatibility. Generally, you can just set this on your main L object when you construct it; C automatically makes sure that sub-entries end up with the same value as their parents. =cut __PACKAGE__->mk_accessors('rfc_strict'); =head2 auto_uid [$bool] Gets or sets a boolean saying whether this entry should automatically generate its own persistently unique UIDs. Defaults to false. Generally, you can just set this on your main L object when you construct it; C automatically makes sure that sub-entries end up with the same value as their parents. =cut __PACKAGE__->mk_accessors('auto_uid'); =head2 header Returns the header line for the entry (including trailing newline). =cut sub header { my $self = shift; my %args = ( crlf => CRLF, @_ ); return 'BEGIN:' . $self->ical_entry_type . $args{crlf}; } =head2 footer Returns the footer line for the entry (including trailing newline). =cut sub footer { my $self = shift; my %args = ( crlf => CRLF, @_ ); return 'END:' . $self->ical_entry_type . $args{crlf}; } # mapping of event types to class (under the Data::Ical::Event namespace) my %_generic = ( vevent => 'Event', vtodo => 'Todo', vjournal => 'Journal', vfreebusy => 'FreeBusy', vtimezone => 'TimeZone', standard => 'TimeZone::Standard', daylight => 'TimeZone::Daylight', ); =head2 parse_object Translate a L sub object into the appropriate L subtype. =cut # TODO: this is currently recursive which could blow the stack - # it might be worth refactoring to make it sequential sub parse_object { my ( $self, $object ) = @_; my $type = $object->{type}; my $new_self; # First check to see if it's generic long name just in case there # event turns out to be a VGENERIC entry type if ( my $class = $_generic{ lc($type) } ) { $new_self = $self->_parse_data_ical_generic( $class, $object ); # then look for specific overrides } elsif ( my $sub = $self->can( '_parse_' . lc($type) ) ) { $new_self = $self->$sub($object); # complain } else { warn "Can't parse type $type yet"; return; } # recurse through sub-objects foreach my $sub_object ( @{ $object->{objects} } ) { $new_self->parse_object($sub_object); } return $self; } # special because we want to use ourselves as the parent sub _parse_vcalendar { my ( $self, $object ) = @_; $self->_parse_generic_event( $self, $object ); return $self; } # mapping of action types to class (under the Data::Ical::Event::Alarm namespace) my %_action_map = ( AUDIO => 'Audio', DISPLAY => 'Display', EMAIL => 'Email', PROCEDURE => 'Procedure', NONE => 'None', URI => 'URI', ); # alarms have actions sub _parse_valarm { my ( $parent, $object ) = @_; # ick my $action = $object->{properties}->{ACTION}->[0]->{value}; die "Can't parse VALARM with action $action" unless exists $_action_map{$action}; $action = $_action_map{$action}; my $alarm_class = "Data::ICal::Entry::Alarm::$action"; eval "require $alarm_class"; die "Failed to require $alarm_class : $@" if $@; $alarm_class->import; my $alarm = $alarm_class->new; $parent->_parse_generic_event( $alarm, $object ); $parent->add_entry($alarm); return $alarm; } # generic event handler sub _parse_data_ical_generic { my ( $parent, $class, $object ) = @_; my $entry_class = "Data::ICal::Entry::$class"; eval "require $entry_class"; die "Failed to require $entry_class : $@" if $@; $entry_class->import; my $entry = $entry_class->new; $entry->vcal10($parent->vcal10); $parent->_parse_generic_event( $entry, $object ); $parent->add_entry($entry); return $entry; } # handle transferring of properties sub _parse_generic_event { my ( $parent, $entry, $object ) = @_; my $p = $object->{properties}; for my $key ( sort keys %$p ) { foreach my $occurence (@{ $p->{$key} }) { my $prop; # Unescapes, but only in v2, and not if it's explicitly not TEXT if (not $parent->vcal10 and ( not $occurence->{param} or not defined $occurence->{param}{VALUE} or $occurence->{param}{VALUE} eq "TEXT" ) ) { $occurence->{value} =~ s/\\([;,\\])/$1/g; $occurence->{value} =~ s/\\n/\n/ig; } # handle optional params and 'normal' key/value pairs # TODO: line wrapping? if ( $occurence->{param} ) { $prop = [ $occurence->{value}, $occurence->{param} ]; } else { $prop = $occurence->{value}; } $entry->add_property( lc($key) => $prop ); } } return $entry; } =head1 AUTHOR Best Practical Solutions, LLC Emodules@bestpractical.comE =head1 LICENCE AND COPYRIGHT Copyright (c) 2005 - 2015, Best Practical Solutions, LLC. All rights reserved. This module is free software; you can redistribute it and/or modify it under the same terms as Perl itself. See L. =cut 1;