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#============================================================= -*-Perl-*- # # Template::Iterator # # DESCRIPTION # # Module defining an iterator class which is used by the FOREACH # directive for iterating through data sets. This may be # sub-classed to define more specific iterator types. # # AUTHOR # Andy Wardley <abw@wardley.org> # # COPYRIGHT # Copyright (C) 1996-2022 Andy Wardley. All Rights Reserved. # # This module is free software; you can redistribute it and/or # modify it under the same terms as Perl itself. # #============================================================================ package Template::Iterator; use strict; use warnings; use base 'Template::Base'; use Template::Constants; use Template::Exception; use Scalar::Util qw(blessed); use constant ODD => 'odd'; use constant EVEN => 'even'; our $VERSION = '3.100'; our $DEBUG = 0 unless defined $DEBUG; our $AUTOLOAD; #======================================================================== # ----- CLASS METHODS ----- #======================================================================== #------------------------------------------------------------------------ # new(\@target, \%options) # # Constructor method which creates and returns a reference to a new # Template::Iterator object. A reference to the target data (array # or hash) may be passed for the object to iterate through. #------------------------------------------------------------------------ sub new { my $class = shift; my $data = shift || [ ]; my $params = shift || { }; if (ref $data eq 'HASH') { # map a hash into a list of { key => ???, value => ??? } hashes, # one for each key, sorted by keys $data = [ map { { key => $_, value => $data->{ $_ } } } sort keys %$data ]; } elsif (blessed($data) && $data->can('as_list')) { $data = $data->as_list(); } elsif (ref $data ne 'ARRAY') { # coerce any non-list data into an array reference $data = [ $data ] ; } bless { _DATA => $data, _ERROR => '', }, $class; } #======================================================================== # ----- PUBLIC OBJECT METHODS ----- #======================================================================== #------------------------------------------------------------------------ # get_first() # # Initialises the object for iterating through the target data set. The # first record is returned, if defined, along with the STATUS_OK value. # If there is no target data, or the data is an empty set, then undef # is returned with the STATUS_DONE value. #------------------------------------------------------------------------ sub get_first { my $self = shift; my $data = $self->{ _DATA }; $self->{ _DATASET } = $self->{ _DATA }; my $size = scalar @$data; my $index = 0; return (undef, Template::Constants::STATUS_DONE) unless $size; # initialise various counters, flags, etc. @$self{ qw( SIZE MAX INDEX COUNT FIRST LAST ) } = ( $size, $size - 1, $index, 1, 1, $size > 1 ? 0 : 1, undef ); @$self{ qw( PREV NEXT ) } = ( undef, $self->{ _DATASET }->[ $index + 1 ]); return $self->{ _DATASET }->[ $index ]; } #------------------------------------------------------------------------ # get_next() # # Called repeatedly to access successive elements in the data set. # Should only be called after calling get_first() or a warning will # be raised and (undef, STATUS_DONE) returned. #------------------------------------------------------------------------ sub get_next { my ( $max, $index ) = @{ $_[0] }{qw( MAX INDEX )}; # warn about incorrect usage if ( !defined $index ) { my ( $pack, $file, $line ) = caller(); warn("iterator get_next() called before get_first() at $file line $line\n"); return ( undef, Template::Constants::STATUS_DONE ); ## RETURN ## } # if there's still some data to go... elsif ( $index >= $max ) { return ( undef, Template::Constants::STATUS_DONE ); ## RETURN ## } my $self = shift; my $dataset = $self->{_DATASET}; $index++; # update counters and flags @$self{qw( INDEX COUNT FIRST LAST PREV NEXT )} = ( $index, # INDEX $index + 1, # COUNT 0, # FIRST $index == $max ? 1 : 0, # LAST @$dataset[ $index - 1, $index + 1 ] # PREV, NEXT ); return $dataset->[ $index ]; ## RETURN ## } #------------------------------------------------------------------------ # get_all() # # Method which returns all remaining items in the iterator as a Perl list # reference. May be called at any time in the life-cycle of the iterator. # The get_first() method will be called automatically if necessary, and # then subsequent get_next() calls are made, storing each returned # result until the list is exhausted. #------------------------------------------------------------------------ sub get_all { my $self = shift; my ($max, $index) = @$self{ qw( MAX INDEX ) }; my @data; # handle cases where get_first() has yet to be called. unless (defined $index) { my ($first, $status) = $self->get_first; # refresh $max and $index, after get_first updates MAX and INDEX ($max, $index) = @$self{ qw( MAX INDEX ) }; # empty lists are handled here. if ($status && $status == Template::Constants::STATUS_DONE) { return (undef, Template::Constants::STATUS_DONE); ## RETURN ## } push @data, $first; ## if there's nothing left in the iterator, return the single value. unless ($index < $max) { return \@data; } } # if there's still some data to go... if ($index < $max) { $index++; push @data, @{ $self->{ _DATASET } } [ $index..$max ]; # update counters and flags @$self{ qw( INDEX COUNT FIRST LAST ) } = ( $max, $max + 1, 0, 1 ); return \@data; ## RETURN ## } else { return (undef, Template::Constants::STATUS_DONE); ## RETURN ## } } sub odd { shift->{ COUNT } % 2 ? 1 : 0 } sub even { shift->{ COUNT } % 2 ? 0 : 1 } sub parity { shift->{ COUNT } % 2 ? ODD : EVEN; } sub index { return $_[0]->{INDEX}; } sub count { return $_[0]->{COUNT}; } sub number { # This is here for backward compatibility per sub AUTOLOAD return $_[0]->{COUNT}; } sub first { return $_[0]->{FIRST}; } sub last { return $_[0]->{LAST}; } sub size { return $_[0]->{SIZE}; } #------------------------------------------------------------------------ # AUTOLOAD # # Provides access to internal fields (e.g. prev, next, etc) #------------------------------------------------------------------------ sub AUTOLOAD { my $self = shift; my $item = $AUTOLOAD; $item =~ s/.*:://; return if $item eq 'DESTROY'; # alias NUMBER to COUNT for backwards compatibility $item = 'COUNT' if CORE::index(uc $item,'NUMBER') > -1; return $self->{ uc $item }; } 1; __END__ =head1 NAME Template::Iterator - Data iterator used by the FOREACH directive =head1 SYNOPSIS my $iter = Template::Iterator->new(\@data, \%options); =head1 DESCRIPTION The C<Template::Iterator> module defines a generic data iterator for use by the C<FOREACH> directive. It may be used as the base class for custom iterators. =head1 PUBLIC METHODS =head2 new($data) Constructor method. A reference to a list of values is passed as the first parameter. Subsequent calls to L<get_first()> and L<get_next()> calls will return each element from the list. my $iter = Template::Iterator->new([ 'foo', 'bar', 'baz' ]); The constructor will also accept a reference to a hash array and will expand it into a list in which each entry is a hash array containing a 'C<key>' and 'C<value>' item, sorted according to the hash keys. my $iter = Template::Iterator->new({ foo => 'Foo Item', bar => 'Bar Item', }); This is equivalent to: my $iter = Template::Iterator->new([ { key => 'bar', value => 'Bar Item' }, { key => 'foo', value => 'Foo Item' }, ]); When passed a single item which is not an array reference, the constructor will automatically create a list containing that single item. my $iter = Template::Iterator->new('foo'); This is equivalent to: my $iter = Template::Iterator->new([ 'foo' ]); Note that a single item which is an object based on a blessed ARRAY references will NOT be treated as an array and will be folded into a list containing that one object reference. my $list = bless [ 'foo', 'bar' ], 'MyListClass'; my $iter = Template::Iterator->new($list); equivalent to: my $iter = Template::Iterator->new([ $list ]); If the object provides an C<as_list()> method then the L<Template::Iterator> constructor will call that method to return the list of data. For example: package MyListObject; sub new { my $class = shift; bless [ @_ ], $class; } package main; my $list = MyListObject->new('foo', 'bar'); my $iter = Template::Iterator->new($list); This is then functionally equivalent to: my $iter = Template::Iterator->new([ $list ]); The iterator will return only one item, a reference to the C<MyListObject> object, C<$list>. By adding an C<as_list()> method to the C<MyListObject> class, we can force the C<Template::Iterator> constructor to treat the object as a list and use the data contained within. package MyListObject; ... sub as_list { my $self = shift; return $self; } package main; my $list = MyListObject->new('foo', 'bar'); my $iter = Template::Iterator->new($list); The iterator will now return the two items, 'C<foo>' and 'C<bar>', which the C<MyObjectList> encapsulates. =head2 get_first() Returns a C<($value, $error)> pair for the first item in the iterator set. The C<$error> returned may be zero or undefined to indicate a valid datum was successfully returned. Returns an error of C<STATUS_DONE> if the list is empty. =head2 get_next() Returns a C<($value, $error)> pair for the next item in the iterator set. Returns an error of C<STATUS_DONE> if all items in the list have been visited. =head2 get_all() Returns a C<(\@values, $error)> pair for all remaining items in the iterator set. Returns an error of C<STATUS_DONE> if all items in the list have been visited. =head2 size() Returns the size of the data set or undef if unknown. =head2 max() Returns the maximum index number (i.e. the index of the last element) which is equivalent to L<size()> - C<1>. =head2 index() Returns the current index number which is in the range C<0> to L<max()>. =head2 count() Returns the current iteration count in the range C<1> to L<size()>. This is equivalent to L<index()> + C<1>. =head2 first() Returns a boolean value to indicate if the iterator is currently on the first iteration of the set. =head2 last() Returns a boolean value to indicate if the iterator is currently on the last iteration of the set. =head2 prev() Returns the previous item in the data set, or C<undef> if the iterator is on the first item. =head2 next() Returns the next item in the data set or C<undef> if the iterator is on the last item. =head2 number() This is an alias to 'count' to provide backward compatibility. View L<count>. =head2 parity() Returns the text string C<even> or C<odd> to indicate the parity of the current iteration count (starting at 1). This is typically used to create striped I<zebra tables>. <table> [% FOREACH name IN ['Arthur', 'Ford', 'Trillian'] -%] <tr class="[% loop.parity %]"> <td>[% name %]</td> </tr> [% END %] </table> This will produce the following output: <table> <tr class="odd"> <td>Arthur</td> </tr> <tr class="even"> <td>Ford</td> </tr> <tr class="odd"> <td>Trillian</td> </tr> </table> You can then style the C<tr.odd> and C<tr.even> elements using CSS: tr.odd td { background-color: black; color: white; } tr.even td { background-color: white; color: black; } =head2 odd() Returns a boolean (0/1) value to indicate if the current iterator count (starting at 1) is an odd number. In other words, this will return a true value for the first iterator, the third, fifth, and so on. =head2 even() Returns a boolean (0/1) value to indicate if the current iterator count (starting at 1) is an even number. In other words, this will return a true value for the second iteration, the fourth, sixth, and so on. =head1 AUTHOR Andy Wardley E<lt>abw@wardley.orgE<gt> L<http://wardley.org/> =head1 COPYRIGHT Copyright (C) 1996-2022 Andy Wardley. All Rights Reserved. This module is free software; you can redistribute it and/or modify it under the same terms as Perl itself. =head1 SEE ALSO L<Template> =cut # Local Variables: # mode: perl # perl-indent-level: 4 # indent-tabs-mode: nil # End: # # vim: expandtab shiftwidth=4: