/usr/share/perl5/TM/Serializable/XTM.pm is in libtm-perl 1.56-7.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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use strict;
use warnings;
use Class::Trait 'base';
use Class::Trait 'TM::Serializable';
use Data::Dumper;
use TM::Literal;
use constant {
XTM10_NS => 'http://www.topicmaps.org/xtm/1.0/',
XLINK_NS => 'http://www.w3.org/1999/xlink',
XTM_NS => 'http://www.topicmaps.org/xtm/',
XSD_NS => 'http://www.w3.org/2001/XMLSchema-datatypes',
};
=pod
=head1 NAME
TM::Serializable::XTM - Topic Maps, trait for parsing and dumping XTM instances.
=head1 SYNOPSIS
# this is not an end-user package
# see the source in TM::Materialized::XTM how this can be used
=head1 DESCRIPTION
This trait provides parsing and dumping functionality for XTM instances.
=over
=item Version 1.0 : L<http://www.topicmaps.org/xtm/index.html>
=item Version 1.1 : L<http://www.jtc1sc34.org/repository/0495.htm>
=item Version 2.0 : L<http://www.isotopicmaps.org/sam/sam-xtm/>
=back
=head2 Limitations
=over
=item
only a single <topicMap> is allowed in one instance, there is no support for multiple maps per
document
=item
only a B<single> scope is allowed for (base)names, occurrences and associations.
=item
In XTM 1.1 you cannot host XML content in occurrences.
=item
No reification support in 1.0 or 1.1.
=item
This package does not make any use of I<item identifiers>.
=item
Relative URIs are NOT made absolute via the I<base URI> where the map is loaded from. This may NOT
be what a user ultimately wants. Also all URI canonicalization is skipped.
=item
The C<xlink:type> attribute is completely ignored.
=back
=head2 TODOs
=over
=item
E<lt>mergeMapE<gt> is handled in 1.0, 1.1, but any scoping topic is ignored. This is related to the
above.
=item
At this stage, you can only include other XTM instances with E<lt>mergeMapE<gt>, not AsTMa= or
LTM. This may be fixed in the future.
=item
No variants are serialized or deserialized.
=item
Reification of topic map item is NOT supported.
=item
C<isa> and C<is-subclass-of> associations which are scoped (or reified) are not handled special yet.
=item
Suppress trivia might also suppress homepage << occurrence assertions.
=item
Relative URLs in C<mergeMap> are not made absolute.
=back
=head1 INTERFACE
=head2 Methods
=over
=item B<deserialize>
This method takes an XTM string and tries to parse it. It will raise an exception on parse error.
The if a C<version> attribute exists, then the value
=cut
sub deserialize {
my $self = shift;
my $content = shift;
if ($content =~ /<(\w+:)?topicMap[^>]+version\s*=\s*["'](.+?)['"]/s) { # this is a version 2.0 or 1.1 map
if ($2 eq '2.0') {
return _deserialize_20 ($self, $content);
} elsif ($2 eq '1.1') {
return _deserialize_10 ($self, $content);
} elsif ($2 eq '1.0') {
return _deserialize_10 ($self, $content);
} else {
$TM::log->logdie (__PACKAGE__ .": unsupported version '$2'");
}
} elsif ($content =~ m|(\w+:)?topicMap[^>]+xmlns:xlink|) {
return _deserialize_10 ($self, $content);
} else { # otherwise we have to assume XTM 1.0
$TM::log->logdie (__PACKAGE__ .": unsupported version");
}
sub _deserialize_20 {
my $self = shift;
my $content = shift;
my $xtmns = XTM_NS;
$content =~ s/xmlns\s*=\s*[\'"]$xtmns[\'"]//g; # remove all default namespacing with XTM 1.0
# warn $content;
use XML::LibXML;
my $xp = XML::LibXML->new();
my $doc = $xp->parse_string($content);
my $root = $doc->documentElement();
my $px = $root->lookupNamespacePrefix( $xtmns ) || ''; $px .= ':' if $px;
# warn "px >>$px<<";
$doc->findnodes("/${px}topicMap") or $TM::log->logdie (__PACKAGE__ . ": no <topicMap> element found (namespace $xtmns)");
#-- topics
foreach my $t ($doc->findnodes("/${px}topicMap/${px}topic")) {
my $id = $t->findvalue('@id') or die "missing topic id";
$self->internalize ($id); # register topic in any case
#-- identification
map { $self->internalize( $id => \ $_ ); }
map { $_->findvalue('@href') } # the href attribute
$t->findnodes("${px}subjectIdentifier"); # find subject indicators
map { $self->internalize( $id => $_ ); } # if there are multiple, it will make kabooom
map { $_->findvalue('./@href') } # the href attribute
$t->findnodes("${px}subjectLocator"); # find subject addresses
#-- topic types
map { # create class/instance for every instanceOf we find
$self->assert(Assertion->new (kind => TM->ASSOC,
type => 'isa',
roles => [qw(class instance)],
players => [$_, $id]));
}
map { s/^\#// && $_ } # clean leading #
map { $_->nodeValue } # find the id
$t->findnodes("${px}instanceOf/${px}topicRef/\@href");
#-- names
foreach my $bn ($t->findnodes("${px}name")) { # find names
(my $type = $bn->findvalue ("${px}type/${px}topicRef/\@href")) =~s/^\#//; # could be empty, too
(my $scope = $bn->findvalue ("${px}scope/${px}topicRef/\@href")) =~s/^\#//;
my ($a) = $self->assert(Assertion->new(kind => TM->NAME,
type => $type || 'name',
roles => [ qw(thing value) ],
players => [ $id,
TM::Literal->new($bn->findvalue("${px}value/text()"),
TM::Literal->STRING)],
scope => $scope));
$self->assert(Assertion->new(kind => TM->ASSOC,
type => 'is-subclass-of',
roles => [ qw(subclass superclass) ],
players => [ $type, 'name' ],
scope => undef)) if $type && $type ne 'name';
$self->assert(Assertion->new(kind => TM->ASSOC,
type => 'isa',
roles => [ qw(instance class) ],
players => [ $scope, 'scope' ],
scope => undef)) if $scope && $scope ne 'us';
(my $reifier = $bn->findvalue('@reifier')) =~ s/^\#//;
$self->internalize ($reifier => $a->[TM->LID]) if $reifier;
}
#-- occs
foreach my $oc ($t->findnodes ("${px}occurrence")) { # find occurrences
(my $scope = $oc->findvalue ("${px}scope/${px}topicRef/\@href")) =~s/^\#//; # could be empty
(my $type = $oc->findvalue ("${px}type/${px}topicRef/\@href")) =~s/^\#//; # could be empty, too
my $value;
if (my ($rr) = $oc->findnodes ("${px}resourceRef")) {
$value = new TM::Literal ( $rr->findvalue("\@href"), TM::Literal->URI );
} elsif (my ($rd) = $oc->findnodes ("${px}resourceData")) {
my $dtype = $rd->findvalue('@datatype') || TM::Literal->STRING;
if ($dtype eq TM::Literal->URI) {
$value = new TM::Literal ( $rd->findvalue("text()"), TM::Literal->URI );
} else {
my $s = $rd->toString;
$s =~ s|^<.*?resourceData.*?>(.*)</.*?resourceData>$|$1|s;
$value = new TM::Literal ($s, $dtype);
}
}
my ($a) = $self->assert(Assertion->new (kind => TM->OCC,
type => $type || 'occurrence',
roles => [qw(thing value)],
players => [$id, $value ],
scope => $scope));
$self->assert(Assertion->new(kind => TM->ASSOC,
type => 'is-subclass-of',
roles => [ qw(subclass superclass) ],
players => [ $type, 'occurrence' ],
scope => undef)) if $type && $type ne 'occurrence';
$self->assert(Assertion->new(kind => TM->ASSOC,
type => 'isa',
roles => [ qw(instance class) ],
players => [ $scope, 'scope' ],
scope => undef)) if $scope && $scope ne 'us';
(my $reifier = $oc->findvalue('@reifier')) =~ s/^\#//;
$self->internalize ($reifier => $a->[TM->LID]) if $reifier;
}
}
#-- association
for my $a ($doc->findnodes("/${px}topicMap/${px}association")) {
# my $aid = $a->findvalue('itemIdentity/@href');
(my $type = $a->findvalue("${px}type/${px}topicRef/\@href")) =~ s/^\#//;
(my $scope = $a->findvalue("${px}scope/${px}topicRef/\@href")) =~ s/^\#//;
my (@roles,@players);
foreach my $r ($a->findnodes("${px}role")) {
(my $role = $r->findvalue("${px}type/${px}topicRef/\@href")) =~ s/^\#//;
(my $player = $r->findvalue("${px}topicRef/\@href")) =~ s/^\#//;
push @roles, $role;
push @players, $player;
}
my ($s) = $self->assert(Assertion->new(kind => TM->ASSOC,
type => $type,
scope => $scope,
roles => \@roles,
players => \@players));
(my $reifier = $a->findvalue('@reifier')) =~ s/^\#//;
$self->internalize ($reifier => $s->[TM->LID]) if $reifier;
}
#-- mergeMap
foreach my $mm ($doc->findnodes("/${px}topicMap/${px}mergeMap")) {
my $h = $mm->findvalue ("\@href")
or $TM::log->logdie ( __PACKAGE__ .": conformance error in 'mergeMap': 4.21, required attribute 'href' missing" );
my $tm2 = new TM (baseuri => $self->{baseuri});
Class::Trait->apply ($tm2, "TM::Serializable::XTM");
$tm2->url ($h);
$tm2->source_in;
#warn "store2 is ".Dumper $tm2;
$self->add ($tm2);
}
return $self;
}
sub _find_topic_references {
my $n = shift; # the node
my $p = shift; # path
my $x = shift; # prefix
# topic-reference = topicRef | resourceRef | subjectIndicatorRef
my @ts;
foreach my $m ($n->findnodes ("${x}${p}*")) {
my $h = $m->findvalue ("\@xlink:href");
if ($m->nodeName eq 'topicRef') {
$h =~ s/^\#//;
push @ts, $h;
} elsif ($m->nodeName eq 'resourceRef') { # TODO: make absolute
push @ts, $h;
} elsif ($m->nodeName eq 'subjectIndicatorRef') { # TODO: make absolute
push @ts, \ $h;
}
}
# warn "find trs ".Dumper \@ts;
return @ts;
}
sub _deserialize_10 {
my $self = shift;
my $content = shift;
my $xtmns = XTM10_NS;
$content =~ s/xmlns\s*=\s*[\'"]$xtmns[\'"]//g; # remove all default namespacing with XTM 1.0
# http://search.cpan.org/~pajas/XML-LibXML-1.65/lib/XML/LibXML/Node.pod
use XML::LibXML;
my $xp = XML::LibXML->new();
my $doc = $xp->parse_string ($content);
my $root = $doc->documentElement();
my $px = $root->lookupNamespacePrefix( $xtmns ) || ''; $px .= ':' if $px;
$doc->findnodes("/${px}topicMap") or $TM::log->logdie (__PACKAGE__ . ": no <topicMap> element found (namespace $xtmns)");
# warn "10 >>$px<<";
if (my $baseuri = $doc->findvalue ("/${px}topicMap/\@xml:base")) {
$self->{baseuri} = $baseuri;
}
my %reifiedby; # what by whom, for assocs
foreach my $t ($doc->findnodes("/${px}topicMap/${px}topic")) {
my $id = $t->findvalue('@id') or die "missing topic id";
$self->internalize ($id); # register topic in any case
map { $self->internalize( $id => \ $_ ); }
map { $_->findvalue('./@xlink:href') } # the href attribute
$t->findnodes("${px}subjectIdentity/${px}subjectIndicatorRef"); # find subject indicators
map { $self->internalize( $id => $_ ); } # if there are multiple, it will make kabooom
map { $_->findvalue('./@xlink:href') } # the href attribute
$t->findnodes("${px}subjectIdentity/${px}resourceRef"); # find subject indicators
(my $reified = $t->findvalue ("${px}subjectIdentity/${px}topicRef/\@xlink:href")) =~ s/^\#//;
$reifiedby{ $id } = $reified if $reified; # this will have to wait until we cover the assoc
foreach my $bn ($t->findnodes("${px}baseName")) { # find base names
my ($scope) = _find_topic_references ($bn, "scope/", $px); # could be empty
my ($type) = _find_topic_references ($bn, "instanceOf/", $px); # could be empty, too
$self->assert(Assertion->new(kind => TM->NAME,
type => $type || 'name',
roles => [ qw(thing value) ],
players => [ $id,
TM::Literal->new($bn->findvalue("${px}baseNameString/text()"),
TM::Literal->STRING)],
scope => $scope));
$self->assert(Assertion->new(kind => TM->ASSOC,
type => 'is-subclass-of',
roles => [ qw(subclass superclass) ],
players => [ $type, 'name' ],
scope => undef)) if $type && $type ne 'name';
$self->assert(Assertion->new(kind => TM->ASSOC,
type => 'isa',
roles => [ qw(instance class) ],
players => [ $scope, 'scope' ],
scope => undef)) if $scope && $scope ne 'us';
}
foreach my $oc ($t->findnodes ("${px}occurrence")) { # find occurrences
my ($scope) = _find_topic_references ($oc, "scope/", $px); # could be empty
my ($type) = _find_topic_references ($oc, "instanceOf/", $px); # could be empty, too
my $value = $oc->findvalue("${px}resourceData/text()") # what kind of occurrence?
? new TM::Literal ( $oc->findvalue("${px}resourceData/text()"),
TM::Literal->STRING )
: new TM::Literal ( $oc->findvalue("${px}resourceRef/\@xlink:href"),
TM::Literal->URI );
$self->assert(Assertion->new (kind => TM->OCC,
type => $type || 'occurrence',
roles => [qw(thing value)],
players => [$id, $value ],
scope => $scope));
$self->assert(Assertion->new(kind => TM->ASSOC,
type => 'is-subclass-of',
roles => [ qw(subclass superclass) ],
players => [ $type, 'occurrence' ],
scope => undef)) if $type && $type ne 'name';
$self->assert(Assertion->new(kind => TM->ASSOC,
type => 'isa',
roles => [ qw(instance class) ],
players => [ $scope, 'scope' ],
scope => undef)) if $scope && $scope ne 'us';
}
map { # create class/instance for every instanceOf we find
$self->assert(Assertion->new (kind => TM->ASSOC,
type => 'isa',
roles => [qw(class instance)],
players => [$_, $id]));
}
_find_topic_references ($t, "instanceOf/", $px);
}
foreach my $a ($doc->findnodes("/${px}topicMap/${px}association")) {
my $aid = $a->findvalue('@id');
my ($scope) = _find_topic_references ($a, "scope/", $px); # could be empty
my ($type) = _find_topic_references ($a, "instanceOf/", $px); # could be empty, too
my (@roles,@players);
foreach my $m ($a->findnodes("member")) {
my ($role) = _find_topic_references ($m, "roleSpec/", $px);
$role ||= 'thing'; # we default to thing
foreach my $player (_find_topic_references ($m, "", $px)) {
push @roles, $role;
push @players, $player;
}
}
my ($a) = $self->assert(Assertion->new(kind => TM->ASSOC,
type => $type,
scope => $scope,
roles => \@roles,
players => \@players));
map { $self->internalize ( $_ => $a->[TM->LID]) } # and for those we register the topic as reifying one for our assoc
grep { $reifiedby{$_} eq $aid } # find those which point to this assoc
keys %reifiedby; # find all topics which reify something internally
$self->assert(Assertion->new(kind => TM->ASSOC,
type => 'isa',
roles => [ qw(instance class) ],
players => [ $scope, 'scope' ],
scope => undef)) if $scope && $scope ne 'us';
}
foreach my $mm ($doc->findnodes("/${px}topicMap/${px}mergeMap")) {
$TM::log->warn (__PACKAGE__ .": scoping topics at mergeMap ignored") if $mm->findvalue ("topicRef");
my $h = $mm->findvalue ("\@xlink:href")
or $TM::log->logdie ( __PACKAGE__ .": conformance error in 'mergeMap': 4.21, required attribute 'xlink:href' missing" );
my $tm2 = new TM (baseuri => $self->{baseuri});
Class::Trait->apply ($tm2, "TM::Serializable::XTM");
$tm2->url ($h);
$tm2->source_in;
#warn "store2 is ".Dumper $tm2;
$self->add ($tm2);
}
return $self;
}
}
=pod
=item B<serialize>
This method serializes the map object into XTM notation and returns the resulting string. It will
raise an exception if the object contains constructs that XTM cannot represent. The result is a
standard Perl string, so you may need to force it into a particular encoding.
The method understands a number of key/value pair parameters:
=over
=item C<omit_trivia> (default: C<0>)
This option suppresses the output of topics without any characteristics.
=item C<version> (default: C<2.0>)
This option controls whether XTM 1.0 or XTM 2.0 (default) is generated.
=back
=cut
sub serialize {
my $self = shift;
my %opts = @_;
$opts{version} ||= '2.0';
if ($opts{version} eq '1.0') {
return _serialize_10 ($self, %opts);
} elsif ($opts{version} eq '1.1') {
return _serialize_10 ($self, %opts);
} elsif ($opts{version} eq '2.0') {
return _serialize_20 ($self, %opts);
} else {
$TM::log->logdie ("unsupported version '".$opts{version}."'");
}
sub _chars {
my $self = shift;
my %chars; # collect chars
map { push @{ $chars{ $_->[TM->PLAYERS]->[0] } }, $_ } # take the thing player and collect there the characteristic
grep { $_->[TM->KIND] != TM->ASSOC } # throw away assoc
$self->asserts (\ '+all -infrastructure'); # find all assertions
map { push @{ $chars{ $_->[TM->PLAYERS]->[1] } }, $_ } # take the instance player and collect there the isa
grep { $_->[TM->KIND] == TM->ASSOC && $_->[TM->TYPE] eq 'isa' } # find isa assocs
$self->asserts (\ '+all -infrastructure'); # find all assertions
return \%chars;
}
sub _serialize_20 {
my $self = shift;
my %opts = @_;
my $baseuri = $self->{baseuri};
my $debase = sub { # closure!
local $_ = $_[0];
s/^$baseuri//;
return $_;
};
use IO::String;
my $ios = IO::String->new;
use XML::Writer;
my ($xtm) = (XTM_NS);
my $writer = new XML::Writer(OUTPUT => $ios,
NAMESPACES => 1,
PREFIX_MAP => {$xtm => ''},
FORCED_NS_DECLS => [XTM_NS],
NEWLINES => 1);
$writer->xmlDecl("utf-8");
$writer->startTag("topicMap", 'version' => '2.0');
my %chars = %{ _chars ($self) };
#-- analyze reification
my %reified; # collect information what topics reify (internally)
map { $reified{ $_->[TM->ADDRESS] } = &$debase ( $_->[TM->LID] ) } # register that
sort { $a->[TM->LID] cmp $b->[TM->LID] }
grep { $_->[TM->ADDRESS] && $_->[TM->ADDRESS] =~ /^[0-9a-f]{32}$/ } # internal reification
$self->toplets; # all toplets
#-- deserialize topics
foreach my $t (sort { $a->[TM->LID] cmp $b->[TM->LID] } $self->toplets ( \ '+all -infrastructure' ) ) {
next if $opts{omit_trivia} # omit that topic if
&& ! $chars{ $t->[TM->LID] } # no characteristics
&& ! @{ $t->[TM->INDICATORS] } # no indicators
&& ! $t->[TM->ADDRESS]; # no subject address
my @chars = $chars{ $t->[TM->LID] } ? @{ $chars{$t->[TM->LID]} } : (); # hold the characteristics, shorthand
$writer->startTag('topic', id => &$debase ($t->[TM->LID]));
#-- deserialize subject locator
if ($t->[TM->ADDRESS] && $t->[TM->ADDRESS] !~ /^[0-9a-f]{32}$/) { # external reification, spit it out
$writer->emptyTag('subjectLocator', 'href' => $t->[TM->ADDRESS]);
}
#-- subject indicators
map {
$writer->emptyTag("subjectIdentifier", "href" => $_);
} sort(@{ $t->[TM->INDICATORS] });
#-- deserialize types
{
my @types = map { $_->[TM->PLAYERS]->[0] } # find the classes
sort { $a->[TM->LID] cmp $b->[TM->LID] } # just for reproducability
grep { $_->[TM->TYPE] eq 'isa' } # only those with instance/class
@chars; # all chars
if (@types) {
$writer->startTag("instanceOf");
map { # for all classes
$writer->emptyTag("topicRef", 'href' => '#'.&$debase ($_));
} @types;
$writer->endTag;
}
}
#-- deserialize names
map { # find all names
$writer->startTag("name", $reified{ $_->[TM->LID] }
? ('reifier' => $reified{ $_->[TM->LID] })
: ());
# $writer->emptyTag ('itemIdentity', 'href' => &$debase ($_->[TM->LID]));
unless ($_->[TM->TYPE] eq 'name') {
$writer->startTag("type");
$writer->emptyTag("topicRef", 'href' => "#".&$debase ($_->[TM->TYPE]));
$writer->endTag;
}
unless ($_->[TM->SCOPE] eq 'us') {
$writer->startTag("scope");
$writer->emptyTag("topicRef", 'href' => "#".&$debase ($_->[TM->SCOPE]));
$writer->endTag;
}
$writer->dataElement("value",$_->[TM->PLAYERS]->[1]->[0]);
$writer->endTag;
}
sort { $a->[TM->LID] cmp $b->[TM->LID] } # just for reproducability
grep { $_->[TM->KIND] == TM->NAME }
@chars;
#-- deserialize occs
map { # find all occurrences
$writer->startTag("occurrence", $reified{ $_->[TM->LID] }
? ('reifier' => $reified{ $_->[TM->LID] })
: ());
# $writer->emptyTag ('itemIdentity', 'href' => &$debase ($_->[TM->LID]));
$writer->startTag("type");
$writer->emptyTag("topicRef", 'href' => "#".&$debase ($_->[TM->TYPE]));
$writer->endTag;
unless ($_->[TM->SCOPE] eq 'us') {
$writer->startTag("scope");
$writer->emptyTag("topicRef", 'href' => "#".&$debase ($_->[TM->SCOPE]));
$writer->endTag;
}
my $v = $_->[TM->PLAYERS]->[1];
if ($v->[1] eq TM::Literal->URI) {
$writer->emptyTag ("resourceRef", 'href' => $v->[0]);
} else {
$writer->dataElement ("resourceData", $v->[0], 'datatype' => $v->[1]);
}
$writer->endTag;
}
sort { $a->[TM->LID] cmp $b->[TM->LID] } # just for reproducability
grep { $_->[TM->KIND] == TM->OCC }
@chars;
$writer->endTag;
}
foreach my $ass (sort { $a->[TM->LID] cmp $b->[TM->LID] } # this is only to guarantee some order for the user
grep { $_->[TM->KIND] == TM->ASSOC && $_->[TM->TYPE] ne 'isa'} # but only assocs and not isa (as we have handled this)
$self->asserts (\ '+all -infrastructure')) { # find all non-infra assertions
$writer->startTag("association", $reified{ $ass->[TM->LID] }
? ('reifier' => $reified{ $ass->[TM->LID] })
: ());
$writer->emptyTag ('itemIdentity', 'href' => &$debase ($ass->[TM->LID]));
$writer->startTag("type");
$writer->emptyTag("topicRef", 'href' => '#'.&$debase ($ass->[TM->TYPE]));
$writer->endTag;
unless ($ass->[TM->SCOPE] eq 'us') {
$writer->startTag("scope");
$writer->emptyTag("topicRef", 'href' => '#'.&$debase ($ass->[TM->SCOPE]));
$writer->endTag;
}
my ($rs, $ps) = ($ass->[TM->ROLES], $ass->[TM->PLAYERS]);
my @sortedidx=sort { $rs->[$a] cmp $rs->[$b] } (0..$#$rs); # perl 5.18 no longer has equal key order for equal data
for my $i (@sortedidx) {
$writer->startTag("role");
$writer->startTag("type");
$writer->emptyTag("topicRef", 'href' => '#'. &$debase ( $rs->[$i] ));
$writer->endTag;
$writer->emptyTag("topicRef", 'href' => '#'. &$debase ( $ps->[$i] ));
$writer->endTag;
}
$writer->endTag;
}
$writer->endTag;
$writer->end();
return ${$ios->string_ref};
}
sub _serialize_10 {
my $self = shift;
my %opts = @_;
my $baseuri = $self->{baseuri};
my $debase = sub { # closure!
local $_ = $_[0];
s/^$baseuri//;
return $_;
};
use IO::String;
my $ios = IO::String->new;
use XML::Writer;
my ($xlink, $xtm) = (XLINK_NS, XTM10_NS);
my $writer = new XML::Writer(OUTPUT => $ios,
NAMESPACES => 1,
PREFIX_MAP => {$xtm => '', # this stupid thing does not like constants
$xlink => 'xlink'},
FORCED_NS_DECLS => [XLINK_NS],
NEWLINES => 1);
$writer->xmlDecl("iso-8859-1");
$writer->startTag("topicMap", $opts{version} eq '1.1' ? ('version' => '1.1') : ());
my %chars = %{ _chars ($self) };
foreach my $t (sort { $a->[TM->LID] cmp $b->[TM->LID] } $self->toplets ( \ '+all -infrastructure' ) ) {
# warn $t->[TM->LID];
next if $opts{omit_trivia} # omit that topic if
&& ! $chars{ $t->[TM->LID] } # no characteristics
&& ! @{ $t->[TM->INDICATORS] } # no indicators
&& ! $t->[TM->ADDRESS]; # no subject address
my @chars = $chars{ $t->[TM->LID] } ? @{ $chars{$t->[TM->LID]} } : (); # hold the characteristics, shorthand
# warn Dumper \@chars;
$writer->startTag("topic","id" => &$debase ($t->[TM->LID]));
# find all types
map { # for all classes
$writer->startTag("instanceOf");
$writer->emptyTag("topicRef",[XLINK_NS,"href"]=>'#'.&$debase ($_));
$writer->endTag;
}
map { $_->[TM->PLAYERS]->[0] } # find the classes
sort { $a->[TM->LID] cmp $b->[TM->LID] } # just for reproducability
grep { $_->[TM->TYPE] eq 'isa' } # only those with instance/class
@chars; # all chars
if (@{ $t->[TM->INDICATORS] } || $t->[TM->ADDRESS]) {
$writer->startTag("subjectIdentity");
if ($t->[TM->ADDRESS] =~ /^[0-9a-f]{32}$/) { # internal reification
$writer->emptyTag('topicRef', [XLINK_NS,"href"] => '#a'.$t->[TM->ADDRESS] );
} else { # just a subject address
$writer->emptyTag('resourceRef', [XLINK_NS,"href"] => $t->[TM->ADDRESS]);
}
map {
$writer->emptyTag("subjectIndicatorRef",[XLINK_NS,"href"]=>$_);
} sort(@{ $t->[TM->INDICATORS] });
$writer->endTag;
}
map { # find all basenames
$writer->startTag("baseName");
unless ($_->[TM->SCOPE] eq 'us') {
$writer->startTag("scope");
$writer->emptyTag("topicRef",[XLINK_NS,"href"]=>"#".&$debase ($_->[TM->SCOPE]));
$writer->endTag;
}
$writer->dataElement("baseNameString",$_->[TM->PLAYERS]->[1]->[0]);
$writer->endTag;
}
sort { $a->[TM->LID] cmp $b->[TM->LID] } # just for reproducability
grep { $_->[TM->KIND] == TM->NAME }
@chars;
map { # find all occurrences
$writer->startTag("occurrence");
unless ($_->[TM->TYPE] eq 'occurrence') {
$writer->startTag("instanceOf");
$writer->emptyTag("topicRef",[XLINK_NS,"href"]=>"#".&$debase ($_->[TM->TYPE]));
$writer->endTag;
}
unless ($_->[TM->SCOPE] eq 'us') {
$writer->startTag("scope");
$writer->emptyTag("topicRef",[XLINK_NS,"href"]=>"#".&$debase ($_->[TM->SCOPE]));
$writer->endTag;
}
my $v = $_->[TM->PLAYERS]->[1];
if ($v->[1] eq TM::Literal->URI) {
$writer->emptyTag ("resourceRef",[XLINK_NS,"href"] => $v->[0]);
} else {
$writer->dataElement ("resourceData", $v->[0]);
}
$writer->endTag;
}
sort { $a->[TM->LID] cmp $b->[TM->LID] } # just for reproducability
grep { $_->[TM->KIND] == TM->OCC }
@chars;
$writer->endTag;
}
foreach my $a (sort { $a->[TM->LID] cmp $b->[TM->LID] } # this is only to guarantee some order for the user
grep { $_->[TM->KIND] == TM->ASSOC && $_->[TM->TYPE] ne 'isa'} # but only assocs and not isa (as we have handled this)
$self->asserts (\ '+all -infrastructure')) { # find all non-infra assertions
$writer->startTag("association", id => 'a'.$a->[TM->LID]); # the id attribute is required for reification in xtm 1.0
$writer->startTag("instanceOf");
$writer->emptyTag("topicRef",[XLINK_NS,"href"] => '#'.&$debase ($a->[TM->TYPE]));
$writer->endTag;
unless ($a->[TM->SCOPE] eq 'us') {
$writer->startTag("scope");
$writer->emptyTag("topicRef", [XLINK_NS,"href"] => '#'.&$debase ($a->[TM->SCOPE]));
$writer->endTag;
}
my ($rs, $ps) = ($a->[TM->ROLES], $a->[TM->PLAYERS]);
my %ms; # here we have to collect all roles
for (my $i = 0; $i <= $#$rs; $i++) {
push @{ $ms{ $rs->[$i] } }, $ps->[$i]; # and every role has a list of players
}
foreach my $r (sort keys %ms) { # that's the way XTM wants it
$writer->startTag("member");
$writer->startTag("roleSpec");
$writer->emptyTag("topicRef",[XLINK_NS,"href"] => '#'.&$debase ( $r ));
$writer->endTag;
map { # all players now
$writer->emptyTag("topicRef",[XLINK_NS,"href"] => '#'. &$debase ( $_ ))
}
sort @{ $ms{ $r } };
$writer->endTag;
}
$writer->endTag;
}
$writer->endTag;
$writer->end();
return ${$ios->string_ref};
}
}
=pod
=back
=head1 SEE ALSO
L<TM>, L<TM::Serializable>
=head1 AUTHOR INFORMATION
Copyright 200[78] Alexander Zangerl, Robert Barta.
This library is free software; you can redistribute it and/or modify it under the same terms as Perl
itself. http://www.perl.com/perl/misc/Artistic.html
=cut
our $VERSION = 0.03;
1;
__END__
# the work starts: collect info from the assertions.
my (%topics,%assocs);
for my $m ($self->match(TM->FORALL)) {
my $kind = $m->[TM->KIND];
my $type = $m->[TM->TYPE];
my $scope = $m->[TM->SCOPE];
my $lid = $m->[TM->LID];
if ($kind == TM->NAME) {
my ($thing, $value) = @{ $m->[TM->PLAYERS] };
# die "XTM 1.0 does not offer reification of basenames (topic $name)\n"
# if ($self->toplet($lid)->[TM->ADDRESS]);
push @{$topics{$thing}->{bn}}, [ $value->[0], $type, $scope ];
} elsif ($kind == TM->OCC) {
my ($thing, $value) = @{ $m->[TM->PLAYERS] };
# die "XTM 1.x does not offer reification of occurrences (topic $name)\n"
# if ($self->toplet($lid)->[TM->ADDRESS]);
push @{$topics{$thing}->{
$value->[1] eq TM::Literal->URI ? 'oc' : 'in'
}}, [ $value->[0], $type, $scope ];
}
} elsif ($kind == TM->ASSOC) {
if ($type eq "isa") {
my ($p, $c) = @{ $m->[TM->PLAYERS] };
# push @{$topics{$p}->{children}},$c;
push @{$topics{$c}->{parents}}, $p;
# } else {
# my %thisa;
# $thisa{type}=$type;
# $thisa{scope}=$scope;
# # die "XTM 1.x does not offer reification by associations\n"
# # if ($thisa{reifies});
# for my $role (@{$self->get_role_s($m)})
# {
# my $rolename=$role;
# $rolename=~s/^$base//;
# # must prime the array...
# $thisa{roles}->{$rolename}=[];
# for my $player ($self->get_x_players($m,$role))
# {
# $player=~s/^$base//;
# push @{$thisa{roles}->{$rolename}}, $player;
# }
# }
# $assocs{$lid}=\%thisa;
}
}
}
# then from the topics
# we also need to run this part because of all the reification-crap...
# uuuggly distinction between topics and assertions
for my $t (grep(!$self->retrieve($_), $self->toplets))
{
my $tn=$t;
$tn=~s/^$baseuri//;
$topics{$tn}||={};
die "variants are not implemented (topic $tn)\n"
if ($self->variants($t));
my $reifies=$self->toplet($t)->[TM->ADDRESS];
if ($reifies)
{
# xtm 1.0: reification is always attached to the active topic
if ($self->retrieve($reifies))
{
# assocs: we need to give them xml-compliant ids and point to them
$reifies=~s/^$baseuri/\#_/;
}
elsif ($reifies=~/^$base(.+)$/)
{
$reifies="#".$1;
}
$topics{$tn}->{reifies}=$reifies;
}
my $sin=$self->toplet($t)->[TM->INDICATORS];
if ($sin && @$sin)
{
$topics{$tn}->{sin}=$sin;
}
}
# if ($locretar) { # reifies a char or assoc
# $locretar = ~s/^\#//;
# if ($doc->findnodes("/topicMap/topic[\@id='$locretar']"))
# {
# $sloc=$base.$locretar;
# }
# elsif ($doc->findnodes("/topicMap/association[\@id='$locretar']"))
# {
# # we don't know the final association id until we handle them,
# # so resolution of this reification must wait until then.
# $reifiedby{$locretar}=$id;
# }
# else
# {
# die "topic $id: reifies nonexistent other topic ($locretar)\n";
# }
# }
# $self->internalize($base.$id => $sloc);
|