###########################################################################
#
# BaseClassifier.pm -- base class for all classifiers
#
# A component of the Greenstone digital library software
# from the New Zealand Digital Library Project at the
# University of Waikato, New Zealand.
#
# Copyright (C) 2000 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.
#
###########################################################################
package BaseClassifier;
# How a classifier works.
#
# For each classifier requested in the collect.cfg file, buildcol.pl creates
# a new classifier object (a subclass of BaseClassifier). Later, it passes each
# document object to each classifier in turn for classification.
#
# Four primary functions are used:
#
# 1. "new" is called before the documents are processed to set up the
# classifier.
#
# 2. "init" is called after buildcol.pl has created the indexes etc but
# before the documents are classified in order that the classifier might
# set any variables it requires, etc.
#
# 3. "classify" is called once for each document object. The classifier
# "classifies" each document and updates its local data accordingly.
#
# 4. "get_classify_info" is called after every document has been
# classified. It collates the information about the documents and
# stores a reference to the classifier so that Greenstone can later
# display it.
# 09/05/02 Added usage datastructure - John Thompson
# 28/11/03 Commented out verbosity argument - John Thompson
use gsprintf;
use printusage;
use parse2;
# suppress the annoying "subroutine redefined" warning that various
# classifiers cause under perl 5.6
$SIG{__WARN__} = sub {warn($_[0]) unless ($_[0] =~ /Subroutine\s+\S+\sredefined/)};
use strict;
no strict 'subs'; # allow barewords (eg STDERR) as function arguments
no strict 'refs'; # allow filehandles to be variables and viceversa
my $arguments =
[
{ 'name' => "buttonname",
'desc' => "{BasClas.buttonname}",
'type' => "string",
'deft' => "",
'reqd' => "no" },
{ 'name' => "no_metadata_formatting",
'desc' => "{BasClas.no_metadata_formatting}",
'type' => "flag" },
{ 'name' => "builddir",
'desc' => "{BasClas.builddir}",
'type' => "string",
'deft' => "" },
{ 'name' => "outhandle",
'desc' => "{BasClas.outhandle}",
'type' => "string",
'deft' => "STDERR" },
{ 'name' => "verbosity",
'desc' => "{BasClas.verbosity}",
# 'type' => "enum",
'type' => "int",
'deft' => "2",
'reqd' => "no" }
# { 'name' => "ignore_namespace",
# 'desc' => "{BasClas.ignore_namespace}",
# 'type' => "flag"}
];
my $options = { 'name' => "BaseClassifier",
'desc' => "{BasClas.desc}",
'abstract' => "yes",
'inherits' => "no",
'args' => $arguments };
sub gsprintf
{
return &gsprintf::gsprintf(@_);
}
sub print_xml_usage
{
my $self = shift(@_);
my $header = shift(@_);
my $high_level_information_only = shift(@_);
# XML output is always in UTF-8
&gsprintf::output_strings_in_UTF8;
if ($header) {
&PrintUsage::print_xml_header("classify");
}
$self->print_xml($high_level_information_only);
}
sub print_xml
{
my $self = shift(@_);
my $high_level_information_only = shift(@_);
my $optionlistref = $self->{'option_list'};
my @optionlist = @$optionlistref;
my $classifieroptions = shift(@$optionlistref);
return if (!defined($classifieroptions));
&gsprintf(STDERR, "\n");
&gsprintf(STDERR, " $classifieroptions->{'name'}\n");
my $desc = &gsprintf::lookup_string($classifieroptions->{'desc'});
$desc =~ s//>/g;
&gsprintf(STDERR, " $desc\n");
&gsprintf(STDERR, " $classifieroptions->{'abstract'}\n");
&gsprintf(STDERR, " $classifieroptions->{'inherits'}\n");
unless (defined($high_level_information_only)) {
&gsprintf(STDERR, " \n");
if (defined($classifieroptions->{'args'})) {
&PrintUsage::print_options_xml($classifieroptions->{'args'});
}
&gsprintf(STDERR, " \n");
# Recurse up the classifier hierarchy
$self->print_xml();
}
&gsprintf(STDERR, "\n");
}
sub print_txt_usage
{
my $self = shift(@_);
# Print the usage message for a classifier (recursively)
my $descoffset = $self->determine_description_offset(0);
$self->print_classifier_usage($descoffset, 1);
}
sub determine_description_offset
{
my $self = shift(@_);
my $maxoffset = shift(@_);
my $optionlistref = $self->{'option_list'};
my @optionlist = @$optionlistref;
my $classifieroptions = pop(@$optionlistref);
return $maxoffset if (!defined($classifieroptions));
# Find the length of the longest option string of this classifier
my $classifierargs = $classifieroptions->{'args'};
if (defined($classifierargs)) {
my $longest = &PrintUsage::find_longest_option_string($classifierargs);
if ($longest > $maxoffset) {
$maxoffset = $longest;
}
}
# Recurse up the classifier hierarchy
$maxoffset = $self->determine_description_offset($maxoffset);
$self->{'option_list'} = \@optionlist;
return $maxoffset;
}
sub print_classifier_usage
{
my $self = shift(@_);
my $descoffset = shift(@_);
my $isleafclass = shift(@_);
my $optionlistref = $self->{'option_list'};
my @optionlist = @$optionlistref;
my $classifieroptions = shift(@$optionlistref);
return if (!defined($classifieroptions));
my $classifiername = $classifieroptions->{'name'};
my $classifierargs = $classifieroptions->{'args'};
my $classifierdesc = $classifieroptions->{'desc'};
# Produce the usage information using the data structure above
if ($isleafclass) {
if (defined($classifierdesc)) {
&gsprintf(STDERR, "$classifierdesc\n\n");
}
&gsprintf(STDERR, " {common.usage}: classify $classifiername [{common.options}]\n\n");
}
# Display the classifier options, if there are some
if (defined($classifierargs)) {
# Calculate the column offset of the option descriptions
my $optiondescoffset = $descoffset + 2; # 2 spaces between options & descriptions
if ($isleafclass) {
&gsprintf(STDERR, " {common.specific_options}:\n");
}
else {
&gsprintf(STDERR, " {common.general_options}:\n", $classifiername);
}
# Display the classifier options
&PrintUsage::print_options_txt($classifierargs, $optiondescoffset);
}
# Recurse up the classifier hierarchy
$self->print_classifier_usage($descoffset, 0);
$self->{'option_list'} = \@optionlist;
}
sub new {
my ($class) = shift (@_);
my ($classifierslist,$args,$hashArgOptLists) = @_;
push(@$classifierslist, $class);
my $classifier_name = (defined $classifierslist->[0]) ? $classifierslist->[0] : $class;
push(@{$hashArgOptLists->{"ArgList"}},@{$arguments});
push(@{$hashArgOptLists->{"OptList"}},$options);
# Manually set $self parameters.
my $self = {};
$self->{'outhandle'} = STDERR;
$self->{'idnum'} = -1;
$self->{'option_list'} = $hashArgOptLists->{"OptList"};
$self->{"info_only"} = 0;
# Check if gsdlinfo is in the argument list or not - if it is, don't parse
# the args, just return the object.
foreach my $strArg (@{$args})
{
if($strArg eq "-gsdlinfo")
{
$self->{"info_only"} = 1;
return bless $self, $class;
}
}
# general options available to all classifiers
if(parse2::parse($args,$hashArgOptLists->{"ArgList"},$self) == -1)
{
#print out the text usage of this classifier.
my $classTempClass = bless $self, $class;
print STDERR "\n";
&gsprintf(STDERR, "\n{BasClas.bad_general_option}\n", $classifier_name);
$classTempClass->print_txt_usage(""); # Use default resource bundle
die "\n";
}
delete $self->{"info_only"};
return bless $self, $class;
}
sub init {
my $self = shift (@_);
$self->{'supportsmemberof'} = &supports_memberof();
}
sub set_number {
my $self = shift (@_);
my ($id) = @_;
$self->{'idnum'} = $id;
}
sub get_number {
my $self = shift (@_);
return $self->{'idnum'};
}
sub oid_array_delete
{
my $self = shift (@_);
my ($delete_oid,$field) = @_;
my $outhandle = $self->{'outhandle'};
my @filtered_list = ();
foreach my $existing_oid (@{$self->{$field}}) {
if ($existing_oid eq $delete_oid) {
print $outhandle " Deleting $delete_oid for ", ref $self, "\n";
}
else {
push(@filtered_list,$existing_oid);
}
}
$self->{$field} = \@filtered_list;
}
sub oid_hash_delete
{
my $self = shift (@_);
my ($delete_oid,$field) = @_;
my $outhandle = $self->{'outhandle'};
print $outhandle " Deleting $delete_oid for ", ref $self, "\n";
delete $self->{$field}->{$delete_oid};
}
sub classify {
my $self = shift (@_);
my ($doc_obj, $edit_mode) = @_;
my $outhandle = $self->{'outhandle'};
&gsprintf($outhandle, "BaseClassifier::classify {common.must_be_implemented}\n");
}
sub get_classify_info {
my $self = shift (@_);
my $outhandle = $self->{'outhandle'};
&gsprintf($outhandle, "BaseClassifier::get_classify_info {common.must_be_implemented}\n");
}
sub supports_memberof {
my $self = shift(@_);
return "false";
}
# previously, if a buttonname wasn't specified, we just use the metadata value,
# but with a list of metadata, we want to do something a bit nicer so that
# eg -metadata dc.Title,Title will end up with Title as the buttonname
# current algorithm - use the first element, but strip its namespace
sub generate_title_from_metadata {
my $self = shift (@_);
my $metadata = shift (@_);
return "" unless defined $metadata && $metadata =~ /\S/;
my @metalist = split(/,/, $metadata);
my $firstmeta = $metalist[0];
if ($firstmeta =~ /\./) {
$firstmeta =~ s/^\w+\.//;
}
return $firstmeta;
}
1;