###########################################################################
#
# AZList.pm --
# A component of the Greenstone digital library software
# from the New Zealand Digital Library Project at the
# University of Waikato, New Zealand.
#
# Copyright (C) 1999 New Zealand Digital Library Project
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program 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., 675 Mass Ave, Cambridge, MA 02139, USA.
#
###########################################################################
# classifier plugin for sorting alphabetically
package AZList;
use BaseClassifier;
use sorttools;
use strict;
no strict 'refs'; # allow filehandles to be variables and viceversa
sub BEGIN {
@AZList::ISA = ('BaseClassifier');
}
my $arguments =
[ { 'name' => "metadata",
'desc' => "{AZList.metadata}",
'type' => "metadata",
'reqd' => "yes" } ,
{ 'name' => "removeprefix",
'desc' => "{BasClas.removeprefix}",
'type' => "regexp",
'deft' => "",
'reqd' => "no" } ,
{ 'name' => "removesuffix",
'desc' => "{BasClas.removesuffix}",
'type' => "regexp",
'deft' => "",
'reqd' => "no" }
];
my $options = { 'name' => "AZList",
'desc' => "{AZList.desc}",
'abstract' => "no",
'inherits' => "yes",
'args' => $arguments };
sub new {
my ($class) = shift (@_);
my ($classifierslist,$inputargs,$hashArgOptLists) = @_;
push(@$classifierslist, $class);
push(@{$hashArgOptLists->{"ArgList"}},@{$arguments});
push(@{$hashArgOptLists->{"OptList"}},$options);
my $self = new BaseClassifier($classifierslist, $inputargs, $hashArgOptLists);
if ($self->{'info_only'}) {
# don't worry about any options etc
return bless $self, $class;
}
if (!$self->{"metadata"}) {
print STDERR "AZList Error: required option -metadata not supplied \n";
$self->print_txt_usage(""); # Use default resource bundle
die "AZList Error: required option -metadata not supplied\n";
}
# Manually set $self parameters.
$self->{'list'} = {};
# Transfer value from Auto Parsing to the variable name that used in previous GreenStone.
my $metadata = $self->{"metadata"};
$metadata = $self->strip_ex_from_metadata($metadata);
my @meta_list = split(/,/, $metadata);
$self->{'meta_list'} = \@meta_list;
$self->{'buttonname'} = $self->generate_title_from_metadata($metadata) unless ($self->{'buttonname'});
# Further setup
if (defined($self->{"removeprefix"}) && $self->{"removeprefix"}) {
$self->{"removeprefix"} =~ s/^\^//; # don't need a leading ^
}
if (defined($self->{"removesuffix"}) && $self->{"removesuffix"}) {
$self->{"removesuffix"} =~ s/\$$//; # don't need a trailing $
}
# Clean out the unused keys
delete $self->{"metadata"}; # Delete this key
if($self->{"removeprefix"} eq "") {delete $self->{"removeprefix"};}
if($self->{"removesuffix"} eq "") {delete $self->{"removesuffix"};}
return bless $self, $class;
}
sub init {
my $self = shift (@_);
$self->{'list'} = {};
}
sub classify {
my $self = shift (@_);
my ($doc_obj) = @_;
my $doc_OID = $doc_obj->get_OID();
my $outhandle = $self->{'outhandle'};
my $metavalue;
my $metaname;
# should we extend this to use all available metadata not just the first?
if (!defined $self->{'meta_list'}) {
# just in case
return;
}
# find the first available metadata
foreach my $m (@{$self->{'meta_list'}}) {
$metavalue = $doc_obj->get_metadata_element($doc_obj->get_top_section(), $m);
$metaname = $m;
last if defined $metavalue;
}
#if we haven't found a metavalue here, then the doc shouldn't be included
if (!defined $metavalue || $metavalue eq "") {
print $outhandle "WARNING: AZList: $doc_OID metadata is empty - not classifying\n";
return;
}
if (defined($self->{'removeprefix'}) &&
length($self->{'removeprefix'})) {
$metavalue =~ s/^$self->{'removeprefix'}//;
}
if (defined($self->{'removesuffix'}) &&
length($self->{'removesuffix'})) {
$metavalue =~ s/$self->{'removesuffix'}$//;
}
$metavalue = &sorttools::format_metadata_for_sorting($metaname, $metavalue, $doc_obj) unless $self->{'no_metadata_formatting'};
if (defined $self->{'list'}->{$doc_OID}) {
print $outhandle "WARNING: AZList::classify called multiple times for $doc_OID\n";
}
if ($metavalue) {
$self->{'list'}->{$doc_OID} = $metavalue;
} else {
# the formatting has made it empty
my $outhandle = $self->{'outhandle'};
print $outhandle "WARNING: AZList: $doc_OID metadata has become empty - not classifying\n";
}
}
sub alpha_numeric_cmp
{
my ($self,$a,$b) = @_;
my $title_a = $self->{'list'}->{$a};
my $title_b = $self->{'list'}->{$b};
if ($title_a =~ m/^(\d+(\.\d+)?)/)
{
my $val_a = $1;
if ($title_b =~ m/^(\d+(\.\d+)?)/)
{
my $val_b = $1;
if ($val_a != $val_b)
{
return ($val_a <=> $val_b);
}
}
}
return ($title_a cmp $title_b);
}
sub get_classify_info {
my $self = shift (@_);
my @classlist
= sort { $self->alpha_numeric_cmp($a,$b) } keys %{$self->{'list'}};
return $self->splitlist (\@classlist);
}
sub get_entry {
my $self = shift (@_);
my ($title, $childtype, $thistype) = @_;
# organise into classification structure
my %classifyinfo = ('childtype'=>$childtype,
'Title'=>$title,
'contains'=>[]);
$classifyinfo{'thistype'} = $thistype
if defined $thistype && $thistype =~ /\w/;
return \%classifyinfo;
}
# splitlist takes an ordered list of classifications (@$classlistref) and splits it
# up into alphabetical sub-sections.
sub splitlist {
my $self = shift (@_);
my ($classlistref) = @_;
my $classhash = {};
# top level
my $childtype = "HList";
if (scalar (@$classlistref) <= 39) {$childtype = "VList";}
my $classifyinfo = $self->get_entry ($self->{'buttonname'}, $childtype, "Invisible");
# don't need to do any splitting if there are less than 39 (max + min -1) classifications
if ((scalar @$classlistref) <= 39) {
foreach my $subOID (@$classlistref) {
push (@{$classifyinfo->{'contains'}}, {'OID'=>$subOID});
}
return $classifyinfo;
}
# first split up the list into separate A-Z and 0-9 classifications
foreach my $classification (@$classlistref) {
my $title = $self->{'list'}->{$classification};
$title =~ s/^(&.{1,6};|<[^>]>|[^a-zA-Z0-9])//g; # remove any unwanted stuff
# only need first char for classification
$title =~ m/^(.)/; $title=$1;
$title =~ tr/[a-z]/[A-Z]/;
if ($title =~ /^[0-9]$/) {$title = '0-9';}
elsif ($title !~ /^[A-Z]$/) {
my $outhandle = $self->{'outhandle'};
print $outhandle "AZList: WARNING $classification has badly formatted title ($title)\n";
}
$classhash->{$title} = [] unless defined $classhash->{$title};
push (@{$classhash->{$title}}, $classification);
}
$classhash = $self->compactlist ($classhash);
my @tmparr = ();
foreach my $subsection (sort keys (%$classhash)) {
push (@tmparr, $subsection);
}
#if there is only one entry here, we suppress the buckets
if ((scalar @tmparr) == 1) {
$classifyinfo->{'childtype'} = "VList";
foreach my $OID (@{$classhash->{$tmparr[0]}}) {
push (@{$classifyinfo->{'contains'}}, {'OID'=>$OID});
}
return $classifyinfo;
}
# if there's a 0-9 section it will have been sorted to the beginning
# but we want it at the end
if ($tmparr[0] eq '0-9') {
shift @tmparr;
push (@tmparr, '0-9');
}
foreach my $subclass (@tmparr) {
my $tempclassify = $self->get_entry($subclass, "VList");
foreach my $subsubOID (@{$classhash->{$subclass}}) {
push (@{$tempclassify->{'contains'}}, {'OID'=>$subsubOID});
}
push (@{$classifyinfo->{'contains'}}, $tempclassify);
}
return $classifyinfo;
}
sub compactlist {
my $self = shift (@_);
my ($classhashref) = @_;
my $compactedhash = {};
my @currentOIDs = ();
my $currentfirstletter = ""; # start of working bin
my $currentlastletter = ""; # end of working bin
my $lastkey = ""; # the name of the last completed key
# minimum and maximum documents to be displayed per page.
# the actual maximum will be max + (min-1).
# the smallest sub-section is a single letter at present
# so in this case there may be many times max documents
# displayed on a page.
my $min = 10;
my $max = 30;
foreach my $subsection (sort keys %$classhashref) {
if ($subsection eq '0-9') {
# leave this bin as-is... copy it straight across
@{$compactedhash->{$subsection}} = @{$classhashref->{$subsection}};
next;
}
$currentfirstletter = $subsection if $currentfirstletter eq "";
if ((scalar (@currentOIDs) < $min) ||
((scalar (@currentOIDs) + scalar (@{$classhashref->{$subsection}})) <= $max)) {
# add this letter to the bin and continue
push (@currentOIDs, @{$classhashref->{$subsection}});
$currentlastletter = $subsection;
} else {
# too many or too few for a separate bin
if ($currentfirstletter eq $currentlastletter) {
@{$compactedhash->{$currentfirstletter}} = @currentOIDs;
$lastkey = $currentfirstletter;
} else {
@{$compactedhash->{"$currentfirstletter-$currentlastletter"}} = @currentOIDs;
$lastkey = "$currentfirstletter-$currentlastletter";
}
if (scalar (@{$classhashref->{$subsection}}) >= $max) {
# this key is now complete. Start a new one
$compactedhash->{$subsection} = $classhashref->{$subsection};
@currentOIDs = ();
$currentfirstletter = "";
$lastkey = $subsection;
} else {
@currentOIDs = @{$classhashref->{$subsection}};
$currentfirstletter = $subsection;
$currentlastletter = $subsection;
}
}
}
# add final OIDs to last sub-classification if there aren't many otherwise
# add final sub-classification
# BUG FIX: don't add anything if there are no currentOIDs (thanks to Don Gourley)
if (! scalar(@currentOIDs)) {return $compactedhash;}
if (scalar (@currentOIDs) < $min) {
my ($newkey) = $lastkey =~ /^(.)/;
@currentOIDs = (@{$compactedhash->{$lastkey}}, @currentOIDs);
delete $compactedhash->{$lastkey};
@{$compactedhash->{"$newkey-$currentlastletter"}} = @currentOIDs;
} else {
if ($currentfirstletter eq $currentlastletter) {
@{$compactedhash->{$currentfirstletter}} = @currentOIDs;
}
else {
@{$compactedhash->{"$currentfirstletter-$currentlastletter"}} =
@currentOIDs;
}
}
return $compactedhash;
}
1;