#!/usr/bin/perl -w =head1 NAME dis2pm.pl - Manakai DOM Perl Module Generator =head1 SYNOPSIS perl dis2pm.pl Foo.dis > Foo.pm =head1 DESCRIPTION B generates a Perl module file (*.pm) that implements DOM (Document Object Model) interfaces from a "dis" (DOM implementation source) file. This script is part of manakai. =cut use strict; use lib qw; use Message::Markup::SuikaWikiConfig20::Parser; use Message::Markup::XML::QName qw/DEFAULT_PFX/; use Message::Util::QName::General [qw/ExpandedURI/], { DOMCore => q, DOMMain => q, infoset => q, lang => q, Perl => q, license => q, ManakaiDOM => q, MDOM_EXCEPTION => q, xml => q, xmlns => q, }; my $ManakaiDOMModulePrefix = q; my $MAX_DOM_LEVEL = 3; use Getopt::Long; my %Opt; GetOptions ( 'help' => \$Opt{help}, 'output-pod=s' => \$Opt{output_pod}, 'output-pod-file=s' => \$Opt{output_pod_file}, ) or pod2usage (2); if ($Opt{help}) { pod2usage (0); exit; } elsif (($Opt{output_pod} ||= 'no') eq 'file' and not defined $Opt{output_pod_file}) { pod2usage (2); exit 2; } my $s; { local $/ = undef; $s = <>; } my $source = Message::Markup::SuikaWikiConfig20::Parser->parse_text ($s); my $Info = {}; my $Status = {package => 'main', depth => 0, generated_fragment => 0}; our $result = ''; my $result_pod; BEGIN { require 'manakai/genlib.pl'; } if ($Opt{output_pod} eq 'no') { eval q{ sub pod_block (@) { return ''; } }; } elsif ($Opt{output_pod} eq 'only' or $Opt{output_pod} eq 'file') { eval q{ sub pod_block (@) { my @v = grep ((defined and length), @_); $result_pod .= join "\n\n", '', ($v[0] =~ /^=/ ? () : '=pod'), @v, '=cut', ''; return ''; } }; } sub perl_package_name (%) { my %opt = @_; my $r; if ($opt{if}) { $r = $ManakaiDOMModulePrefix . q<::IF::> . perl_name $opt{if}; } elsif ($opt{iif}) { $r = $ManakaiDOMModulePrefix . q<::IIF::> . perl_name $opt{iif}; } elsif ($opt{name} or $opt{name_with_condition}) { if ($opt{name_with_condition}) { if ($opt{name_with_condition} =~ /^([^:]+)::([^:]+)$/) { $opt{name} = $1; $opt{condition} = $2; } else { $opt{name} = $opt{name_with_condition}; } } $opt{name} = perl_name $opt{name}; $opt{name} = $opt{prefix} . '::' . $opt{name} if $opt{prefix}; $r = $ManakaiDOMModulePrefix . q<::> . $opt{name}; } elsif ($opt{qname} or $opt{qname_with_condition}) { if ($opt{qname_with_condition}) { if ($opt{qname_with_condition} =~ /^(.+)::([^:]*)$/) { $opt{qname} = $1; $opt{condition} = $2; } else { $opt{qname} = $opt{qname_with_condition}; } } if ($opt{qname} =~ /^([^:]*):(.*)$/) { $opt{ns_prefix} = $1; $opt{name} = $2; } else { $opt{ns_prefix} = DEFAULT_PFX; $opt{name} = $opt{qname}; } ## ISSUE: Prefix to ... #$r = ns_uri_to_perl_package_name (ns_prefix_to_uri ($opt{ns_prefix})) . # '::' . $opt{name}; $r = $ManakaiDOMModulePrefix . '::' . $opt{name}; } elsif ($opt{if_qname} or $opt{if_qname_with_condition}) { if ($opt{if_qname_with_condition}) { if ($opt{if_qname_with_condition} =~ /^(.+)::([^:]*)$/) { $opt{if_qname} = $1; $opt{condition} = $2; } else { $opt{if_qname} = $opt{if_qname_with_condition}; } } if ($opt{if_qname} =~ /^([^:]*):(.*)$/) { $opt{ns_prefix} = $1; $opt{name} = $2; } else { $opt{ns_prefix} = DEFAULT_PFX; $opt{name} = $opt{if_qname}; } ## ISSUE: Prefix to ... #$r = ns_uri_to_perl_package_name (ns_prefix_to_uri ($opt{ns_prefix})) . # '::' . $opt{name}; $r = $ManakaiDOMModulePrefix . '::IF::' . $opt{name}; } elsif ($opt{full_name}) { $r = $opt{full_name}; } else { valid_err q<$opt{name} is false>; } if ($opt{condition}) { $r = $r . '::' . perl_name $opt{condition}; } if ($opt{is_internal}) { $r .= '::_internal'; $r .= '_inherit' if $opt{is_for_inheriting}; } $r; } sub perl_package (%) { my $fn = perl_package_name @_; unless ($fn eq $Status->{package}) { $Status->{package} = $fn; return perl_statement qq; } else { return ''; } } sub perl_exception (@) { my %opt = @_; if ($opt{class} !~ /:/) { $opt{class} = perl_package_name name => $opt{class}; } else { $opt{class} = perl_package_name full_name => $opt{class}; } my @param = (-type => $opt{type}, -object => perl_code_literal ('$self')); if (ref $opt{param}) { push @param, %{$opt{param}}; } elsif ($opt{param}) { push @param, perl_code_literal ($opt{param}); } if ($opt{subtype} or $opt{subtype_uri}) { my $uri = $opt{subtype_uri} || expanded_uri ($opt{subtype}); push @param, ExpandedURI q => $uri; } q . $opt{class} . q< > . perl_list @param; } { use re 'eval'; my $RegBlockContent; $RegBlockContent = qr/(?>[^{}\\]*)(?>(?>[^{}\\]+|\\.|\{(??{$RegBlockContent})\})*)/s; ## Defined by genlib.pl but overridden. sub perl_code ($;%) { my ($s, %opt) = @_; valid_err q, node => $opt{node} unless defined $s; $s =~ s[]+)>|\b(null|true|false)\b][ my ($q, $l) = ($1, $2); if (defined $q) { if ($q =~ /\}/) { valid_warn qq; } perl_literal (expanded_uri ($q)); } else { {true => 1, false => 0, null => 'undef'}->{$l}; } ]ge; ## TODO: Ensure Message::Util::Error imported if try. ## ISSUE: __FILE__ & __LINE__ will break if multiline substition happens. $s =~ s{ \b__([A-Z]+) (?:\{($RegBlockContent)\})? __\b }{ my ($name, $data) = ($1, $2); my $r; if ($name eq 'CLASS' or ## Manakai DOM Class $name eq 'SUPER' or ## Manakai DOM Class (internal) $name eq 'IIF' or ## DOM Interface + Internal interface & prop $name eq 'IF') { ## DOM Interface local $Status->{condition} = $Status->{condition}; if ($data =~ s/::([^:]*)$//) { $Status->{condition} = $1; } $r = perl_package_name {qw/CLASS name SUPER name IIF iif IF if/}->{$name} => $data, is_internal => {qw/SUPER 1/}->{$name}, condition => $Status->{condition}; } elsif ($name eq 'INT') { ## Internal Method / Attr Name if (defined $data) { if ($data =~ /^{($RegBlockContent)}$/o) { $data = $1; my $name = $1 if $data =~ s/^\s*(\w+)\s*(?:$|:\s*)// or valid_err qq, node => $opt{node}; local $Status->{preprocess_variable} = {%{$Status->{preprocess_variable}||{}}}; while ($data =~ /\G(\S+)\s*(?:=>\s*(\S+)\s*)?(?:,\s*|$)/g) { my ($n, $v) = ($1, defined $2 ? $2 : 1); for ($n, $v) { s/^'([^']+)'$/$1/; ## ISSUE: Doesn't support quoted-' } $Status->{preprocess_variable}->{$n} = $v; } valid_err q unless $opt{internal}; $r = perl_comment ("INT: $name"). $opt{internal}->($name); } elsif ($data =~ s/^SP://) { $r = '___'.$data; } else { $r = perl_internal_name $data; } } else { valid_err q unless $opt{internal}; $r = $opt{internal}->(); } } elsif ($name eq 'DEEP') { ## Deep Method Call $r = 'do { local $Error::Depth = $Error::Depth + 1;' . perl_code ($data) . '}'; } elsif ($name eq 'EXCEPTION' or $name eq 'WARNING') { ## Raising an Exception or Warning if ($data =~ s/^\s*(\w+)\s*\.\s*(\w+)\s*(?:\.\s*([\w:]+)\s*)?(?:::\s*|$)//) { $r = perl_exception (level => $name, class => $1, type => $2, subtype => $3, param => perl_code $data); } else { valid_err qq, node => $opt{node}; } } elsif ($name eq 'CODE') { # Built-in code my ($nm, %param); if ($data =~ s/^(\w+)\s*(?::\s*|$)//) { $nm = $1; } elsif ($data =~ s/^<([^<>]+)>\s*(?::\s*|$)//) { $nm = $1; } else { valid_err q; } while ($data =~ /\G(\S+)\s*=>\s*(\S+)\s*(?:,\s*|$)/g) { $param{$1} = $2; } $r = perl_builtin_code ($nm, condition => $opt{condition}, %param); } elsif ($name eq 'PACKAGE' and $data) { if ($data eq 'Global') { $r = $ManakaiDOMModulePrefix; } else { valid_err qq; } } elsif ($name eq 'REQUIRE') { $r = perl_statement (q. perl_package_name name => $data); } elsif ($name eq 'WHEN') { if ($data =~ s/^\s*IS\s*\{($RegBlockContent)\}::\s*//o) { my $v = $1; if ($v =~ /^\s*'([^']+)'\s*$/) { ## ISSUE: Doesn't support quoted-' if ($Status->{preprocess_variable}->{$1}) { $r = perl_code ($data, %opt); } else { $r = perl_comment ($data); } } else { valid_err qq, node => $opt{node}; } } else { valid_err qq, node => $opt{node}; } } elsif ($name eq 'FILE' or $name eq 'LINE' or $name eq 'PACKAGE') { $r = qq<__${name}__>; } else { valid_err qq; } $r; }goex; $s; } } ## Defined in genlib.pl but overridden. sub perl_code_source ($%) { my ($s, %opt) = @_; sprintf qq<\n#line %d "File <%s> Node <%s>"\n%s\n> . qq<#line 1 "File <%s> Chunk #%d"\n>, $opt{line} || 1, $opt{file} || $Info->{source_filename}, $opt{path} || 'x:unknown ()', $s, $opt{file} || $Info->{source_filename}, ++$Status->{generated_fragment}; } sub perl_builtin_code ($;%); sub perl_builtin_code ($;%) { my ($name, %opt) = @_; $opt{condition} ||= $Status->{condition}; my $r; if ($name eq 'DOMString') { $name = $1 if $name =~ /(\w+)$/; $r = q{ if (defined $arg) { if (ref $arg) { if (ref $arg eq 'SCALAR') { $r = bless {value => $$arg}, $self; } elsif ($arg->isa ('IF')) { $r = $arg; } else { $r = bless {value => ''.$arg}, $self; } } else { $r = bless {value => $arg}, $self; } } else { $r = undef; # null } }; $r =~ s/'IF'/perl_literal (perl_package_name (if => $name))/ge; $r =~ s/\$self\b/perl_literal (perl_package_name (name => $name))/ge; $opt{s} or valid_err q; $r =~ s/\$arg\b/\$$opt{s}/g; $opt{r} or valid_err q; $r =~ s/\$r\b/\$$opt{r}/g; $r =~ s/\$$opt{r} = \$$opt{s};/#/g if $opt{r} eq $opt{s}; } elsif (type_isa ($name, ExpandedURI q)) { $r = perl_statement perl_exception (level => 'WARNING', class => 'ManakaiDOMImplementationWarning', type => 'MDOM_NS_EMPTY_URI', param => { ExpandedURI q => $opt{s}, }); if ($opt{condition} and $opt{condition} ne 'DOM2') { $r .= perl_statement q<$out = undef>; } $r = perl_if (q, $r); $opt{s} or valid_err q; $r =~ s/\$in\b/\$$opt{s}/g; $opt{r} or valid_err q; $r =~ s/\$out\b/\$$opt{r}/g; } elsif ($name eq 'UniqueID') { $r = q{( sprintf 'mid:%d.%d.%s.dom.manakai@suika.fam.cx', time, $$, ['A'..'Z', 'a'..'z', '0'..'9']->[rand 62] . ['A'..'Z', 'a'..'z', '0'..'9']->[rand 62] . ['A'..'Z', 'a'..'z', '0'..'9']->[rand 62] . ['A'..'Z', 'a'..'z', '0'..'9']->[rand 62] . ['A'..'Z', 'a'..'z', '0'..'9']->[rand 62] )}; ## TODO: Check as HTML Name if not XML. } elsif ($name eq 'CheckQName') { $opt{version} = '1.0' if $opt{condition} and $opt{condition} eq 'DOM2'; my $chk = perl_if (qq<##CHKNAME##>, undef, (perl_statement perl_exception (class => 'DOMException', type => 'INVALID_CHARACTER_ERR', subtype_uri => ExpandedURI q, param => { ExpandedURI q => perl_code_literal (perl_var type => '$', local_name => 'qname'), }))) . perl_if (qq<##CHKQNAME##>, undef, (perl_statement perl_exception (class => 'DOMException', type => 'NAMESPACE_ERR', subtype_uri => ExpandedURI q, param => { ExpandedURI q => perl_code_literal (perl_var type => '$', local_name => 'qname'), }))); my $chk10 = $chk; $chk10 =~ s{##CHKNAME##} {q<$qname =~ /\A\p{InXML_NameStartChar10}>. q<\p{InXMLNameChar10}*\z/>}ge; $chk10 =~ s{##CHKQNAME##} {q<$qname =~ /\A\p{InXML_NCNameStartChar10}>. q<\p{InXMLNCNameChar10}*>. q<(?::\p{InXML_NCNameStartChar10}>. q<\p{InXMLNCNameChar10}*)?\z/>}ge; my $chk11 = $chk; $chk11 =~ s{##CHKNAME##} {q<$qname =~ /\A\p{InXMLNameStartChar11}>. q<\p{InXMLNameChar11}*\z/>}ge; $chk11 =~ s{##CHKQNAME##} {q<$qname =~ /\A\p{InXMLNCNameStartChar11}>. q<\p{InXMLNCNameChar11}*>. q<(?::\p{InXMLNCNameStartChar11}>. q<\p{InXMLNCNameChar11}*)?\z/>}ge; my %class; if ($opt{version} and $opt{version} eq '1.0') { $r = $chk10; %class = (qw/InXML_NameStartChar10 InXMLNameChar10 InXML_NCNameStartChar10 InXMLNCNameChar10/); } elsif ($opt{version} and $opt{version} eq '1.1') { $r = $chk11; %class = (qw/InXMLNameStartChar11 InXMLNameChar11 InXMLNCNameStartChar11 InXMLNCNameChar11/); } elsif ($opt{version}) { $r = perl_if (q. perl_var (type => '$', local_name => $opt{version}) . q< and >. perl_var (type => '$', local_name => $opt{version}) . q< eq '1.1'>, $chk11, $chk10); %class = (qw/InXML_NameStartChar10 InXMLNameChar10 InXML_NCNameStartChar10 InXMLNCNameChar10 InXMLNameStartChar11 InXMLNameChar11 InXMLNCNameStartChar11 InXMLNCNameChar11/); } else { valid_err q; } $opt{qname} or valid_err q; $r =~ s/\$qname\b/\$$opt{qname}/g; $Info->{Require_perl_package_use}->{'Char::Class::XML'} or valid_err q<"Char::Class::XML" must be "Require"d in the interface >. qq{"$Status->{IF}", condition "$Status->{condition}"}; for (%class) { $Info->{Require_perl_package_use}->{'Char::Class::XML::::Import'}->{$_} or valid_err qq<"$_" must be exported from "Char::Class::XML" in the >. qq{interface "$Status->{IF}", condition }. qq{"$Status->{condition}"}; } } elsif ($name eq 'CheckNCName') { $opt{version} = '1.0' if $opt{condition} and $opt{condition} eq 'DOM2'; my $chk = perl_if (qq<##CHKNAME##>, undef, (perl_statement perl_exception (class => 'DOMException', type => 'INVALID_CHARACTER_ERR', subtype_uri => ExpandedURI q, param => { ExpandedURI q => perl_code_literal (perl_var type => '$', local_name => 'qname'), }))) . perl_if (qq<##CHKNCNAME##>, undef, (perl_statement perl_exception (class => 'DOMException', type => 'NAMESPACE_ERR', subtype_uri => ExpandedURI q, param => { ExpandedURI q => perl_code_literal (perl_var type => '$', local_name => 'qname'), }))); my $chk10 = $chk; $chk10 =~ s{##CHKNAME##} {q<$qname =~ /\A\p{InXML_NameStartChar10}>. q<\p{InXMLNameChar10}*\z/>}ge; $chk10 =~ s{##CHKNCNAME##} {q<$qname =~ /:/>}ge; my $chk11 = $chk; $chk11 =~ s{##CHKNAME##} {q<$qname =~ /\A\p{InXMLNameStartChar11}>. q<\p{InXMLNameChar11}*\z/>}ge; $chk11 =~ s{##CHKNCNAME##} {q<$qname =~ /:/>}ge; my $t = ($opt{empty} and $opt{empty} eq 'warn3' and (not $opt{condition} or $opt{condition} ne 'DOM2')) ? perl_if (q>, perl_statement (perl_exception (level => 'WARNING', class => 'ManakaiDOMImplementationWarning', type => 'MDOM_NS_EMPTY_PREFIX', param => { ExpandedURI q => $opt{ncname}, })). perl_statement (q<$qname = undef>)) : ''; my %class; if ($opt{version} and $opt{version} eq '1.0') { $r = $chk10; %class = (qw/InXML_NameStartChar10 InXMLNameChar10/); } elsif ($opt{version} and $opt{version} eq '1.1') { $r = $chk11; %class = (qw/InXMLNameStartChar11 InXMLNameChar11/); } elsif ($opt{version}) { $r = perl_if (q. perl_var (type => '$', local_name => $opt{version}) . q< and >. perl_var (type => '$', local_name => $opt{version}) . q< eq '1.1'>, $chk11, $chk10); %class = (qw/InXML_NameStartChar10 InXMLNameChar10 InXMLNameStartChar11 InXMLNameChar11/); } else { valid_err q; } $r = $t . $r; $opt{ncname} or valid_err q; $r =~ s/\$qname\b/\$$opt{ncname}/g; $Info->{Require_perl_package_use}->{'Char::Class::XML'} or valid_err q<"Char::Class::XML" must be "Require"d in the interface >. qq{"$Status->{IF}", condition "$Status->{condition}"}; for (%class) { $Info->{Require_perl_package_use}->{'Char::Class::XML::::Import'}->{$_} or valid_err qq<"$_" must be exported from "Char::Class::XML" in the >. qq{interface "$Status->{IF}", condition }. qq{"$Status->{condition}"}; } } elsif ($name eq 'CheckName') { $opt{version} = '1.0' if $opt{condition} and ($opt{condition} eq 'DOM2' or $opt{condition} eq 'DOM1'); my $chk = perl_if (qq<##CHKNAME##>, undef, (perl_statement perl_exception (class => 'DOMException', type => 'INVALID_CHARACTER_ERR', subtype_uri => ExpandedURI q, param => { ExpandedURI q => perl_code_literal (perl_var type => '$', local_name => 'qname'), }))); my $chk10 = $chk; $chk10 =~ s{##CHKNAME##} {q<$qname =~ /\A\p{InXML_NameStartChar10}>. q<\p{InXMLNameChar10}*\z/>}ge; my $chk11 = $chk; $chk11 =~ s{##CHKNAME##} {q<$qname =~ /\A\p{InXMLNameStartChar11}>. q<\p{InXMLNameChar11}*\z/>}ge; my %class; if ($opt{version} and $opt{version} eq '1.0') { $r = $chk10; %class = (qw/InXML_NameStartChar10 InXMLNameChar10/); } elsif ($opt{version} and $opt{version} eq '1.1') { $r = $chk11; %class = (qw/InXMLNameStartChar11 InXMLNameChar11/); } elsif ($opt{version}) { $r = perl_if (q. perl_var (type => '$', local_name => $opt{version}) . q< and >. perl_var (type => '$', local_name => $opt{version}) . q< eq '1.1'>, $chk11, $chk10); %class = (qw/InXML_NameStartChar10 InXMLNameChar10 InXMLNameStartChar11 InXMLNameChar11/); } else { valid_err q; } $opt{name} or valid_err q; $r =~ s/\$qname\b/\$$opt{name}/g; $Info->{Require_perl_package_use}->{'Char::Class::XML'} or valid_err q<"Char::Class::XML" must be "Require"d in the interface >. qq{"$Status->{IF}", condition "$Status->{condition}"}; for (%class) { $Info->{Require_perl_package_use}->{'Char::Class::XML::::Import'}->{$_} or valid_err qq<"$_" must be exported from "Char::Class::XML" in the >. qq{interface "$Status->{IF}", condition }. qq{"$Status->{condition}"}; } } elsif ($name eq 'CheckNull') { $r = perl_code q{ __EXCEPTION{ ManakaiDOMImplementationException.PARAM_NULL_POINTER:: => 'arg', }__ unless defined $arg; }; $opt{s} or valid_err q; $r =~ s/\$arg\b/\$$opt{s}/g; $r =~ s/'arg'/perl_literal ($opt{s})/ge; } elsif ($name eq 'XMLVersion') { $r = perl_code q{ $r = defined $node->{}->{XML} ? defined $node->{} ? $node->{} : '1.0' : null; }; $opt{docNode} or valid_err q; $r =~ s/\$node\b/\$$opt{docNode}/g; $opt{out} or valid_err q; $r =~ s/\$r\b/\$$opt{out}/g; } elsif ($name eq 'XMLNS') { for (qw/docNode namespaceURI qualifiedName out-version out-prefix out-localName/) { $opt{$_} or valid_err qq, node => $opt{node}; } ## Check the Document XML version ## - The Document must support the "XML" feature $r = perl_builtin_code ('XMLVersion', %opt, out => $opt{'out-version'}, docNode => $opt{docNode}); $r .= perl_if (q.perl_var (type => '$', local_name => $opt{'out-version'}), undef, perl_statement perl_exception (type => 'NOT_SUPPORTED_ERR', class => 'DOMException', subtype_uri => ExpandedURI q)); ## Check the QName $r .= perl_builtin_code ('CheckQName', %opt, qname => $opt{qualifiedName}, version => $opt{'out-version'}); ## Split QName into prefix and local name my $prefix = perl_var (type => '$', local_name => $opt{'out-prefix'}); my $lname = perl_var (type => '$', local_name => $opt{'out-localName'}); my $nsURI = perl_var (type => '$', local_name => $opt{namespaceURI}); $r .= qq{($prefix, $lname) = split /:/, \$$opt{qualifiedName}, 2; ($prefix, $lname) = (undef, $prefix) unless defined $lname;}; ## Check namespace binding $r .= perl_if (qq, perl_cases ( qq, => perl_statement (perl_exception (type => 'NAMESPACE_ERR', class => 'DOMException', subtype_uri => ExpandedURI q, param => { ExpandedURI q => perl_code_literal ($prefix), })), qq<$prefix eq 'xml' and $nsURI ne >. perl_literal (ExpandedURI q) => perl_statement (perl_exception (type => 'NAMESPACE_ERR', class => 'DOMException', subtype_uri => ExpandedURI q, param => { ExpandedURI q => perl_code_literal ($nsURI), })), qq<$prefix eq 'xmlns' and $nsURI ne >. perl_literal (ExpandedURI q) => perl_statement (perl_exception (type => 'NAMESPACE_ERR', class => 'DOMException', subtype_uri => ExpandedURI q, param => { ExpandedURI q => perl_code_literal ($nsURI), })), perl_literal (ExpandedURI q). qq< eq $nsURI and $prefix ne 'xml'> => perl_statement (perl_exception (type => 'NAMESPACE_ERR', class => 'DOMException', subtype_uri => ExpandedURI q, param => { ExpandedURI q => perl_code_literal ($prefix), ExpandedURI q => perl_code_literal ('$qualifiedName'), })), perl_literal (ExpandedURI q). qq< eq $nsURI and $prefix ne 'xmlns'> => perl_statement (perl_exception (type => 'NAMESPACE_ERR', class => 'DOMException', subtype_uri => ExpandedURI q, param => { ExpandedURI q => perl_code_literal ($prefix), ExpandedURI q => perl_code_literal ('$qualifiedName'), })), perl_literal (ExpandedURI q). qq< eq $nsURI and $prefix eq 'xmlns' and $lname eq 'xmlns'> => perl_statement (perl_exception (type => 'NAMESPACE_ERR', class => 'DOMException', subtype_uri => ExpandedURI q, param => { })), ), perl_cases ( # No prefix perl_literal (ExpandedURI q).qq< eq $nsURI> => perl_statement (perl_exception (type => 'NAMESPACE_ERR', class => 'DOMException', subtype_uri => ExpandedURI q, param => { ExpandedURI q => perl_code_literal ($lname), })), perl_literal (ExpandedURI q). qq< eq $nsURI and $lname ne 'xmlns'> => perl_statement (perl_exception (type => 'NAMESPACE_ERR', class => 'DOMException', subtype_uri => ExpandedURI q, param => { ExpandedURI q => perl_code_literal ($lname), })), qq<$lname eq 'xmlns' and $nsURI ne >. perl_literal (ExpandedURI q) => perl_statement (perl_exception (type => 'NAMESPACE_ERR', class => 'DOMException', subtype_uri => ExpandedURI q, param => { ExpandedURI q => perl_code_literal ($nsURI), })), )); } elsif ($name eq 'isRelativeDOMURI') { $r = q<$in !~ /^[0-9A-Za-z+_.%-]:/>; ## TODO: I18n consideration for (qw/in/) { $opt{$_} or valid_err qq, node => $opt{node}; $r =~ s/\$$_/\$$opt{$_}/g; } } elsif ($name eq 'ParseFeatures') { $r = q{ { if (ref $in eq 'HASH') { for (keys %$in) { if ($_ =~ /^\+(.+)/) { $out{lc $1} = {version => $in{$_}, plus => 1}; } else { $out{lc $_} = {version => $in{$_}, plus => 0}; } } } else { my @f = grep {length} split /\s+/, $in; for (my $i = 0; $i < @f; $i++) { my ($name, $plus) = (lc $f[$i]); $plus = 1 if $name =~ s/^\+//; if ($i + 1 < @f and $f[$i + 1] =~ /^\d/) { $out{$name} = {version => $f[$i + 1], plus => $plus}; $i++; } else { $out{$name} = {version => undef, plus => $plus}; } } } } }; ## NOTE: Feature name is case-insensitive. ## NOTE: This code does not work if a feature appears more than ## one versions. DOM specification does not specify how ## implementations should cope with such case. for (qw/in out/) { $opt{$_} or valid_err qq, node => $opt{node}; $r =~ s/\$$_/\$$opt{$_}/g; $r =~ s/%$_/%$opt{$_}/g; } } else { valid_err qq; } $r; } =head2 C element An C element associates an operator or special-purpose function name to the method or attribute. For the Perl binding, it can be used to declare the method or attribute to be called at the operation (by overloading of an operator; see also L). Element value: A C dependent operator name. For the Perl binding, it is either the operator name used with the C module (except C<=>), C or C. Child elements: =over 4 =item C = type (Required) The type of the element value. It also specifies the target binding of the C element. =back =cut sub ops2perl () { my $result = ''; for (keys %{$Status->{Operator}}) { if ($_ eq 'DESTROY') { $result .= perl_statement q; $result .= perl_statement perl_assign perl_var (type => '*', local_name => 'DESTROY') => $Status->{Operator}->{DESTROY}; delete $Status->{Operator}->{DESTROY}; } elsif ($_ eq 'new') { $result .= perl_statement q; $result .= perl_statement perl_assign perl_var (type => '*', local_name => 'new') => $Status->{Operator}->{$_}; delete $Status->{Operator}->{$_}; } elsif ($_ eq 'object-error-handler') { $result .= perl_statement q; $result .= perl_statement perl_assign perl_var (type => '*', local_name => '___report_error') => $Status->{Operator}->{$_}; delete $Status->{Operator}->{$_}; } elsif ({qw[ + 1 - 1 * 1 / 1 % 1 ** 1 << 1 >> 1 x 1 . 1 += 1 -= 1 *= 1 /= 1 %= 1 **= 1 <<= 1 >>= 1 x= 1 .= 1 < 1 <= 1 > 1 >= 1 == 1 != 1 <=> 1 lt 1 le 1 gt 1 ge 1 eq 1 ne 1 cmp 1 & 1 | 1 ^ 1 neg 1 ! 1 ~ 1 ++ 1 -- 1 atan2 1 cos 1 sin 1 exp 1 abs 1 log 1 sqrt 1 bool 1 "" 1 0+ 1 <> 1 ${} 1 @{} 1 %{} 1 &{} 1 *{} 1 ]}->{$_}) { # } else { valid_err qq[$Status->{if}: Operator "$_" not supported]; } } if (keys %{$Status->{Operator}}) { $result .= perl_statement 'use overload ' . perl_list map ({($_, perl_code_literal $Status->{Operator}->{$_})} keys %{$Status->{Operator}}), fallback => 1; } $result; } sub qname_label ($;%) { my ($node, %opt) = @_; my $q = defined $opt{qname} ? $opt{qname} : $node->get_attribute_value ('QName'); my $prefix = DEFAULT_PFX; if ($q =~ s/^([^:]*)://) { $prefix = $1; } if ($prefix ne DEFAULT_PFX or not $opt{no_default_ns}) { if (defined $Info->{Namespace}->{$prefix}) { my $uri = $Info->{Namespace}->{$prefix}; if (defined $Status->{ns_in_doc}->{$prefix}) { if ($Status->{ns_in_doc}->{$prefix} ne $uri) { my $i = 1; { if (defined $Status->{ns_in_doc}->{$prefix.$i}) { if ($Status->{ns_in_doc}->{$prefix.$i} eq $uri) { $prefix .= $i; last; } else { $i++; redo; } } else { $Status->{ns_in_doc}->{$prefix.$i} = $uri; $prefix .= $i; last; } } } } else { $Status->{ns_in_doc}->{$prefix} = $uri; } } else { valid_err qq, node => defined $opt{qname} ? undef : $node->get_attribute ('QName'); } } $opt{out_type} ||= ExpandedURI q; if ($opt{out_type} eq ExpandedURI q) { pod_code ($prefix eq DEFAULT_PFX ? $q : qq<$prefix:$q>); } else { $prefix eq DEFAULT_PFX ? qq<"$q"> : qq<"$prefix:$q">; } } =head1 TYPES In the DIS format, types (such as datatypes of something defined by the DIS document or media types of the element values) are identified by pair of a namespace URI and a local name. In general, the pair is specified by a QName in the DIS document. The pair is sometiems interpreted as a URI reference for the purpose of comparise. NOTE: In DIS documents, the QName is less strictly defined than the XML standards; its namespace prefix can be empty; and its namespace prefix and local name can contain any character other than C. In addition, the interpretation of the null-prefixed QName might differ by the context in which the QName is used. In general, its namespace is the default namespace, as is QName in the XML document representing an element type name. But some local names, such as C and C might be interpreted as belonging to the C namespace. =cut { my $nest = 0; sub type_normalize ($); sub type_normalize ($) { my ($uri) = @_; $nest++ == 100 and valid_err q>; if ($Info->{DataTypeAlias}->{$uri}->{canon_uri}) { $uri = type_normalize ($Info->{DataTypeAlias}->{$uri}->{canon_uri}); } $nest--; $uri; } } { my $nest = 0; sub type_isa ($$); sub type_isa ($$) { my ($uri, $uri2) = @_; $nest++ == 100 and valid_err qq of <$uri>>; my $r = 0; if ($uri eq $uri2) { $r = 1; } else { for (@{$Info->{DataTypeAlias}->{$uri}->{isa_uri}||[]}) { if (type_isa $_, $uri2) { $r = 1; last; } } } $nest--; $r; } } sub type_label ($;%) { my $uri = type_normalize shift; my %opt = @_; my $pod_code = sub { $opt{is_pod} ? pod_code $_[0] : $_[0] }; my $r = { ExpandedURI q => q, ExpandedURI q => q, ExpandedURI q => q, ExpandedURI q => q, ExpandedURI q => $pod_code->(q).q< (DOM URI)>, ExpandedURI q => $pod_code->(q).q< (DOM Namespace URI)>, ExpandedURI q => $pod_code->(q).q< (DOM Feature name)>, ExpandedURI q => $pod_code->(q).q< (DOM Feature version)>, ExpandedURI q => $pod_code->(q).q< (DOM features)>, ExpandedURI q => $pod_code->(q).q< (DOM Key Identifier)>, ExpandedURI q => $pod_code->(q).q< (DOM Key Identifiers)>, }->{$uri}; unless ($r) { if ($uri =~ /([\w_-]+)$/) { my $label = $1; $label =~ s/--+/ /g; $label =~ s/__+/ /g; $r = $pod_code->($label); } else { $r = $pod_code->("<$uri>"); } } $r; } sub type_package_name ($) { my $qname = shift; if ($qname =~ /^([^:]*):([^:]*)$/) { perl_package_name name => perl_name $2, ucfirst => 1; } else { perl_package_name name => perl_name $qname, ucfirst => 1; } } sub ns_uri_to_perl_package_name ($) { my $uri = shift; if ($Info->{uri_to_perl_package}->{$uri}) { return $Info->{uri_to_perl_package}->{$uri}; } else { return qq not defined>; } } sub ns_prefix_to_uri ($) { my $pfx = shift; if (exists $Info->{Namespace}->{$pfx}) { if (not defined $Info->{Namespace}->{$pfx}) { valid_err qq; } else { return $Info->{Namespace}->{$pfx}; } } else { valid_err qq; } } sub type_expanded_uri ($) { my $qname = shift || ''; if ($qname =~ /^[a-z-]+$/ or $qname eq 'Object') { expanded_uri ("DOMMain:$qname"); } else { expanded_uri ($qname); } } sub expanded_uri ($) { my $lname = shift || ''; my $pfx = DEFAULT_PFX; if ($lname =~ s/^([^:]*)://) { $pfx = $1; } ns_prefix_to_uri ($pfx) . $lname; } sub array_contains ($$) { my ($array, $val) = @_; if (ref $array eq 'ARRAY') { for (@$array) { return 1 if $_ eq $val; } } else { return $array eq $val; } return 0; } sub get_warning_perl_code ($) { my $pnode = shift; my $r = ''; for my $node (@{$pnode->child_nodes}) { next unless $node->node_type eq '#element' and $node->local_name eq 'Warning'; my %param; for (@{$node->child_nodes}) { next unless $_->node_type eq '#element' and $_->local_name eq 'Param'; $param{expanded_uri $_->get_attribute_value ('QName')} = perl_code_literal get_value_literal ($_, name => 'Value', type_name => 'Type'); } $r .= perl_statement perl_exception class => type_package_name $node->get_attribute_value ('Type', default => 'DOMMain:any'), type => $node->get_attribute_value ('Name'), param => \%param; } $r; } # get_warning_perl_code sub get_perl_definition_node ($%) { my ($node, %opt) = @_; my $ln = $opt{name} || 'Def'; my $def = $node->get_element_by (sub { my ($me, $you) = @_; $you->local_name eq $ln and type_expanded_uri $you->get_attribute_value ('Type', default => '') eq ExpandedURI q and condition_match ($you, %opt); }) || ($opt{use_dis} and $node->get_element_by (sub { my ($me, $you) = @_; $you->local_name eq $ln and $you->get_attribute_value ('Type', default => '') eq ExpandedURI q and condition_match ($you, %opt); })) || $node->get_element_by (sub { my ($me, $you) = @_; $you->local_name eq $ln and not $you->get_attribute_value ('Type', default => '') and condition_match ($you, %opt); }) || $node->get_element_by (sub { my ($me, $you) = @_; $you->local_name eq $ln and type_expanded_uri $you->get_attribute_value ('Type', default => '') eq ExpandedURI q and condition_match ($you); # no condition specified }) || ($opt{use_dis} and $node->get_element_by (sub { my ($me, $you) = @_; $you->local_name eq $ln and type_expanded_uri $you->get_attribute_value ('Type', default => '') eq ExpandedURI q and condition_match ($you); # no condition specified })) || $node->get_element_by (sub { my ($me, $you) = @_; $you->local_name eq $ln and not $you->get_attribute_value ('Type', default => '') and condition_match ($you); # no condition specified }); $def; } sub get_perl_definition ($%) { my ($node, %opt) = @_; my $def = get_perl_definition_node $node, %opt; $def ? $def->value : $opt{default}; } =head1 DISDOC DOCUMENTATION FORMAT The DISDOC format is a documentation format for DIS documents. =cut sub dis2perl ($) { my $node = shift; my $r = ''; for (@{$node->child_nodes}) { next unless $_->node_type eq '#element'; if ($_->local_name eq 'GetProp') { $r .= perl_statement perl_assign perl_var (type => '$', local_name => 'r') => '$self->{node}->{' . perl_literal (expanded_uri ($_->value)) . '}'; } elsif ($_->local_name eq 'GetPropNode') { $r .= perl_statement perl_assign perl_var (type => '$', local_name => 'r') => '$self->{node}->{' . perl_literal (expanded_uri ($_->value)) . '}'; ## Conditional $r .= perl_statement perl_code q{$r = __CLASS{Node}__->__INT{getNodeReference}__ ($r) if defined $r}; } elsif ($_->local_name eq 'SetProp') { my $t = perl_statement perl_assign '$self->{node}->{' . perl_literal (expanded_uri ($_->value)) . '}' => perl_var (type => '$', local_name => 'given'); if ($_->get_attribute_value ('CheckReadOnly', default => 1)) { $r .= perl_if q[$self->{'node'}->{]. perl_literal (ExpandedURI (q)).q[}], perl_statement (perl_exception class => 'DOMException', type => 'NO_MODIFICATION_ALLOWED_ERR', param => {}), $t; } else { $r .= $t; } } elsif ($_->local_name eq 'Overridden') { $r = perl_statement perl_exception class => 'ManakaiDOMImplementationException', type => 'MDOM_DEBUG_BUG', param => { ExpandedURI q => { msg => q. q. q, }, }; } elsif ($_->local_name eq 'Type') { # } else { valid_err qq{Element type "@{[$_->local_name]}" not supported}, node => $_; } } if (defined $node->value and length $node->value) { valid_err q{DIS has value}, node => $node; } $r; } # dis2perl { use re 'eval'; our $Element; $Element = qr/[A-Za-z0-9]+(?>:(?>[^<>]*)(?>(?>[^<>]+|<(??{$Element})>)*))?/; my $MElement = qr/([A-Za-z0-9]+)(?>:((?>[^<>]*)(?>(?>[^<>]+|<(??{$Element})>)*)))?/; sub disdoc2text ($;%); sub disdoc2text ($;%) { my ($s, %opt) = @_; $s =~ s/\x0D\x0A/\x0A/g; $s =~ tr/\x0D/\x0A/; my @s = split /\x0A\x0A+/, $s; my @r; for my $s (@s) { if ($s =~ s/^\{([0-9A-Za-z-]+)::\s*//) { ## Start tag'ed element my $et = $1; if ($et eq 'P') { ## Paragraph push @r, (disdoc_inline2text ($s, %opt)); } elsif ($et eq 'LI' or $et eq 'OLI') { ## List my $marker = '* '; if ($et eq 'OLI') { $marker = '# '; } if ($s =~ s/^(.+?)::\s*//) { $marker = disdoc_inline2text ($1, %opt) . ': '; } push @r, $marker . (disdoc_inline2text ($s, %opt)); } elsif ($et eq 'NOTE') { push @r, "NOTE: ". disdoc_inline2text ($s, %opt); } elsif ($et eq 'eg') { push @r, "Example. "; $s =~ s/^\s+//; valid_err qq, node => $opt{node} if length $s; } else { valid_err qq, node => $opt{node}; } } elsif ($s =~ /^\}\s*$/) { ## End tag # } elsif ($s =~ s/^([-=])\s*//) { ## List my $marker = $1; if ($marker eq '=') { $marker = '# '; } elsif ($marker eq '-') { $marker = '* '; } if ($s =~ s/^(.+?)::\s*//) { $marker = disdoc_inline2text ($1, %opt) . ': '; } push @r, $marker . (disdoc_inline2pod ($s, %opt)); } elsif ($s =~ /^[^\w\s<]/) { ## Reserved for future extension valid_err qq, node => $opt{node}; } else { $s =~ s/^\s+//; push @r, disdoc_inline2text ($s, %opt); } } join "\n\n", @r; } # disdoc2text sub disdoc_inline2text ($;%); sub disdoc_inline2text ($;%) { my ($s, %opt) = @_; $s =~ s{\G(?:([^<>]+)|<$MElement>|(.))}{ my ($cdata, $type, $data, $err) = ($1, $2, defined $3 ? $3 : '', $4); my $r = ''; if (defined $err) { valid_err qq, node => $opt{node}; } elsif (defined $cdata) { $r = $cdata; } elsif ({DFN => 1, CITE => 1, KEY => 1}->{$type}) { $r = disdoc_inline2text $data; } elsif ({SRC => 1}->{$type}) { $r = q<[>. disdoc_inline2text ($data) . q<]>; } elsif ({EM => 1}->{$type}) { $r = q<*>. disdoc_inline2text ($data) . q<*>; } elsif ({URI => 1}->{$type}) { $r = q{<} . $data . q{>}; } elsif ({CODE => 1, Perl => 1}->{$type}) { $r = q<"> . disdoc_inline2text ($data) . q<">; } elsif ({IF => 1, TYPE => 1, P => 1, XML => 1, SGML => 1, DOM => 1, FeatureVer => 1, CHAR => 1, HTML => 1, Prefix => 1, Module => 1, QUOTE => 1, PerlModule => 1, FILE => 1}->{$type}) { $r = q<"> . $data . q<">; } elsif ({Feature => 1, CP => 1, ERR => 1, HA => 1, HE => 1, XA => 1, SA => 1, SE => 1}->{$type}) { $r = qname_label (undef, qname => $data, no_default_ns => 1); } elsif ({Q => 1, EV => 1, XE => 1}->{$type}) { $r = qname_label (undef, qname => $data); } elsif ({M => 1, A => 1, X => 1, WARN => 1}->{$type}) { if ($data =~ /^([^.]+)\.([^.]+)$/) { $r = q<"> . $1 . '->' . $2 . q<">; } else { $r = q<"> . $data . q<">; } } elsif ({InfosetP => 1}->{$type}) { $r = q<[> . $data . q<]>; } elsif ($type eq 'lt') { $r = '<'; } elsif ($type eq 'gt') { $r = '>'; } else { valid_err qq, node => $opt{node}; } $r; }ges; $s; } # disdoc_inline2text sub disdoc2pod ($;%); sub disdoc2pod ($;%) { my ($s, %opt) = @_; $s =~ s/\x0D\x0A/\x0A/g; $s =~ tr/\x0D/\x0A/; my @s = split /\x0A\x0A+/, $s; my @el = ({type => '#document'}); my @r; for my $s (@s) { if ($s =~ s/^\{([0-9A-Za-z-]+)::\s*//) { ## Start tag'ed element my $et = $1; if ($el[-1]->{type} eq '#list' and not {qw/LI 1 OLI 1/}->{$et}) { push @r, '=back'; pop @el; } push @el, {type => $et}; if ($et eq 'P') { ## Paragraph push @r, pod_para (disdoc_inline2pod ($s, %opt)); } elsif ($et eq 'NOTE') { push @r, pod_para (pod_em ('NOTE').": ".disdoc_inline2pod ($s, %opt)); } elsif ($et eq 'eg') { push @r, pod_para (pod_em ('Example').". "); $s =~ s/^\s+//; valid_err qq, node => $opt{node} if length $s; } elsif ($et eq 'LI' or $et eq 'OLI') { ## List my $marker = '*'; unless ($el[-1]->{type} eq '#list') { push @el, {type => '#list', n => 0}; push @r, '=over 4'; } if ($et eq 'OLI') { $marker = ++($el[-1]->{n}) . '. '; } if ($s =~ s/^(.+?)::\s*//) { $marker = disdoc_inline2pod ($1, %opt); } push @r, pod_item ($marker), pod_para (disdoc_inline2pod ($s, %opt)); } else { valid_err qq, node => $opt{node}; } } elsif ($s =~ /^\}\s*$/) { ## End tag while (@el > 1 and $el[-1]->{type} =~ /^\#/) { if ($el[-1]->{type} eq '#list') { push @r, '=back'; } pop @el; } if ($el[-1]->{type} eq '#document') { valid_err qq, node => $opt{node}; } else { pop @el; } } elsif ($s =~ s/^([-=])\s*//) { ## List my $marker = $1; unless ($el[-1]->{type} eq '#list') { push @el, {type => '#list', n => 0}; push @r, '=over 4'; } if ($marker eq '=') { $marker = ++($el[-1]->{n}) . '. '; } elsif ($marker eq '-') { $marker = '*'; } if ($s =~ s/^(.+?)::\s*//) { $marker = disdoc_inline2pod ($1, %opt); } push @r, pod_item ($marker), pod_para (disdoc_inline2pod ($s, %opt)); } elsif ($s =~ /^[^\w\s<]/) { ## Reserved for future extension valid_err qq, node => $opt{node}; } else { if ($el[-1]->{type} eq '#list') { push @r, '=back'; pop @el; } $s =~ s/^\s+//; push @r, pod_para disdoc_inline2pod ($s, %opt); } } while (@el and $el[-1]->{type} =~ /^\#/) { if ($el[-1]->{type} eq '#list') { push @r, '=back'; } pop @el; } if (@el) { valid_err qq[DISDOC end tag required for "$el[-1]->{type}"], node => $opt{node}; } wantarray ? @r : join "\n\n", @r; } # disdoc2pod sub disdoc_inline2pod ($;%); sub disdoc_inline2pod ($;%) { my ($s, %opt) = @_; $s =~ s{\G(?:([^<>]+)|<$MElement>|(.))}{ my ($cdata, $type, $data, $err) = ($1, $2, defined $3 ? $3 : '', $4); my $r = ''; if (defined $err) { valid_err qq, node => $opt{node}; } elsif (defined $cdata) { $r = pod_cdata $cdata; } elsif ({CODE => 1, KEY => 1}->{$type}) { $r = pod_code disdoc_inline2pod $data; } elsif ({EM => 1}->{$type}) { $r = pod_em disdoc_inline2pod $data; } elsif ({DFN => 1}->{$type}) { $r = pod_dfn disdoc_inline2pod $data; } elsif ({CITE => 1}->{$type}) { $r = q[I<] . disdoc_inline2pod ($data) . q[>]; } elsif ({SRC => 1}->{$type}) { $r = q<[>. disdoc_inline2pod ($data) . q<]>; } elsif ({URI => 1}->{$type}) { $r = pod_uri $data; } elsif ({ IF => 1, TYPE => 1, P => 1, DOM => 1, XML => 1, HTML => 1, SGML => 1, FeatureVer => 1, CHAR => 1, Prefix => 1, Perl => 1, FILE => 1, }->{$type}) { $r = pod_code $data; } elsif ({Feature => 1, CP => 1, ERR => 1, HA => 1, HE => 1, XA => 1, SA => 1, SE => 1}->{$type}) { $r = qname_label (undef, qname => $data, out_type => ExpandedURI q, no_default_ns => 1); } elsif ({Q => 1, EV => 1, XE => 1}->{$type}) { $r = qname_label (undef, qname => $data, out_type => ExpandedURI q); } elsif ({ M => 1, A => 1, }->{$type}) { if ($data =~ /^([^.]+)\.([^.]+)$/) { $r = pod_code ($1 . '->' . $2); } else { $r = pod_code $data; } } elsif ({X => 1, WARN => 1}->{$type}) { if ($data =~ /^([^.]+)\.([^.]+)$/) { $r = pod_code ($1) . '.' . pod_code ($2); } else { $r = pod_code $data; } } elsif ({InfosetP => 1}->{$type}) { $r = q<[> . $data . q<]>; } elsif ({QUOTE => 1}->{$type}) { $r = q<"> . $data . q<">; } elsif ({PerlModule => 1}->{$type}) { $r = pod_link label => pod_code ($data), module => $data; } elsif ({Module => 1}->{$type}) { $r = pod_link label => pod_code ($data), module => perl_package_name (name => $data); } elsif ($type eq 'lt' or $type eq 'gt') { $r = qq>; } else { valid_err qq, node => $opt{node}; } $r; }ges; $s; } } sub get_description ($;%) { my ($node, %opt) = @_; my $ln = $opt{name} || 'Description'; my $lang = $opt{lang} || q || q; my $textplain = ExpandedURI q; my $default = q; $opt{type} ||= ExpandedURI q; my $script = $opt{script} || q<>; my $def; for my $type (($opt{type} ne $textplain ? $opt{type} : ()), ExpandedURI q, $textplain) { $def = $node->get_element_by (sub { my ($me, $you) = @_; $you->local_name eq $ln and $you->get_attribute_value ('lang', default => 'i-default') eq $lang and type_expanded_uri ($you->get_attribute_value ('Type', default => $default)) eq $type; }) || $node->get_element_by (sub { my ($me, $you) = @_; $you->local_name eq $ln and $you->get_attribute_value ('lang', default => 'i-default') eq 'i-default' and type_expanded_uri ($you->get_attribute_value ('Type', default => $default)) eq $type; }); last if $def; } unless ($def) { $opt{default}; } else { my $srctype = type_expanded_uri $def->get_attribute_value ('Type', default => $default); my $value = $def->value; valid_err q, node => $def unless defined $value; if ($srctype eq ExpandedURI q) { if ($opt{type} eq ExpandedURI q) { $value = $opt{is_inline} ? disdoc_inline2pod ($value, node => $def): disdoc2pod ($value, node => $def); } else { $value = $opt{is_inline} ? disdoc_inline2text ($value, node => $def): disdoc2text ($value, node => $def); if ($opt{type} eq ExpandedURI q) { $value =~ s/\s+/ /g; } } } elsif ($srctype eq ExpandedURI q) { if ($opt{type} eq ExpandedURI q) { $value = muf_template $value; $value =~ s/\s+/ /g; } else { impl_err q.$opt{type}; } } elsif ($srctype eq $opt{type}) { # } else { if ($opt{type} eq ExpandedURI q) { $value = pod_paras $def->value; } elsif ($opt{type} eq ExpandedURI q) { $value =~ s/%/%percent;/g; $value =~ s/\s+/ /g; } } $value; } } sub get_level_description ($%) { my ($node, %opt) = @_; my @l = @{$node->get_attribute_value ('SpecLevel', default => [], as_array => 1)}; unless (@l) { my $min = $opt{level}->[0] || 1; for ($min..$MAX_DOM_LEVEL) { if ($Info->{Condition}->{'DOM' . $_}) { unshift @l, $_; last; } } } return q<> unless @l; @l = sort {$a <=> $b} @l; @{$opt{level}} = @l; my $r = q . (0 + shift @l); if (@l > 1) { my $s = 0 + pop @l; $r .= q< and modified in DOM Levels > . join ', ', @l; $r .= qq< and $s>; } elsif (@l == 1) { $r .= q< and modified in DOM Level > . (0 + $l[0]); } $r; } # get_level_description sub get_alternate_description ($;%) { my ($node, %opt) = @_; my @desc; $opt{if} ||= 'interface'; $opt{method} ||= $node->local_name =~ /Attr/ ? 'attribute' : 'method'; ## XML Namespace unaware alternate ## (This method is namespace aware.) my $ns = $node->get_attribute_value ('NoNSVersion', as_array => 1, default => undef); if (defined $ns) { my $a = ''; if (@$ns) { $a = english_list [map { if (/^(?:[AM]:)?([^.]+)\.([^.]+)$/) { pod_code ($2) . ' on the interface '. type_label (type_expanded_uri ($1), is_pod => 1) } else { pod_code ($_) } } @$ns], connector => 'and/or'; $a = qq. qq; } push @desc, pod_para qq. qq. qq; } ## XML Namespace aware alternate ## (This method is namespace unaware.) $ns = $node->get_attribute_value ('NSVersion', as_array => 1, default => undef); if (defined $ns) { my $a = ''; if (@$ns) { $a = english_list [map { if (/^(?:[AM]:)?([^.]+)\.([^.]+)$/) { pod_code ($2) . ' on the interface '. type_label (type_expanded_uri ($1), is_pod => 1) } else { pod_code ($_) } } @$ns]; $a = qq. qq; } push @desc, pod_para qq. qq. qq; } @desc; } # get_alternate_description sub get_redef_description ($;%) { my ($node, %opt) = @_; my @desc; $opt{if} ||= 'interface'; $opt{method} ||= 'method'; if ($node->local_name eq 'ReMethod' or $node->local_name eq 'ReAttr') { my $redef = $node->get_attribute_value ('Redefine'); push @desc, pod_para qq. ($redef ? qq<$opt{if} > . type_label (type_expanded_uri ($redef), is_pod => 1) : qq). q< but that definition has been overridden here.>; } if ($node->get_attribute_value ('IsAbstract', default => 0)) { push @desc, pod_para (qq. qq. qq); } my @redefBy; for (@{$node->child_nodes}) { next unless $_->node_type eq '#element' and $_->local_name eq 'RedefinedBy'; push @redefBy, type_label (type_expanded_uri ($_->value), is_pod => 1); } if (@redefBy) { push @desc, pod_para qq. qq. (@redefBy > 1 ? 's ' : ' '). english_list (\@redefBy, connector => 'and').'.'; } @desc; } # get_redef_description; sub get_isa_description ($;%) { my ($node, %opt) = @_; $opt{if} ||= $node->get_attribute_value ('IsAbstract', default => 0) ? 'interface' : 'class'; my @desc; my @isa; my @impl; for (@{$node->child_nodes}) { next unless $_->node_type eq '#element'; if ($_->local_name eq 'ISA') { my $v = $_->value; if (type_expanded_uri $_->get_attribute_value ('Type', default => 'DOMMain:any') eq ExpandedURI q) { push @isa, pod_link (module => $v); } else { $v =~ s/::[^:]*$//g; push @isa, type_label (type_expanded_uri ($v), is_pod => 1); } } elsif ($_->local_name eq 'Implement') { my $v = $_->value; $v =~ s/::[^:]*$//g; push @impl, type_label (type_expanded_uri ($v), is_pod => 1); } } if (@isa and @impl) { push @desc, pod_para (qq. english_list (\@isa, connector => 'and'). qq< and implements >. (@impl>1?q:q). english_list (\@impl, connector => 'and').q<.>); } elsif (@isa) { push @desc, pod_para (qq. english_list (\@isa, connector => 'and').q<.>); } elsif (@impl) { push @desc, pod_para (qq. (@impl>1?q:q). english_list (\@impl, connector => 'and').q<.>); } @desc; } # get_isa_description sub get_incase_label ($;%) { my ($node, %opt) = @_; my $label = $node->get_attribute_value ('Label', default => ''); unless (length $label) { $label = $node->get_attribute ('Value'); my $type = type_normalize type_expanded_uri ($node->get_attribute_value ('Type') || $node->parent_node->get_attribute_value ('Type', default => q)); if ($label) { if ($label->get_attribute_value ('is-null', default => 0)) { $label = 'null'; } else { if (not defined $label->value) { valid_err q, node => $node; } if (type_isa $type, ExpandedURI q) { $label = perl_literal $label->value; } else { $label = $label->value; } } $label = $opt{is_pod} ? pod_code $label : $label; } else { $label = type_label $type, is_pod => $opt{is_pod}; } } else { $label = get_description $node, name => 'Label', is_inline => 1; } $label; } sub get_value_literal ($%) { my ($node, %opt) = @_; my $value = get_perl_definition_node $node, %opt; my $type = type_normalize type_expanded_uri $node->get_attribute_value ($opt{type_name} || 'Type', default => q); my $r; if ($type eq ExpandedURI q) { if ($value) { $r = ($value->value and $value->value eq 'true') ? 1 : 0; } else { $r = $opt{default} ? 1 : 0; } } elsif ($type eq ExpandedURI q or $type eq ExpandedURI q or $type eq ExpandedURI q or $type eq ExpandedURI q or $type eq ExpandedURI q) { if ($value) { $r = $value->value; } else { $r = defined $opt{default} ? $opt{default} : 0; } } elsif (type_isa $type, ExpandedURI q) { if ($value) { if ($value->get_attribute_value ('is-null', default => 0)) { $r = 'undef'; } else { $r = perl_literal $value->value; } } else { if (exists $opt{default}) { $r = defined $opt{default} ? perl_literal $opt{default} : 'undef'; } else { $r = perl_literal ''; } } } elsif ($type eq ExpandedURI q) { if ($value) { $r = perl_literal $value->value (as_array => 1); } else { $r = perl_literal (defined $opt{default} ? $opt{default} : []); } } elsif ($type eq ExpandedURI q) { if ($value) { $r = perl_literal $value->value; } else { $r = perl_literal (defined $opt{default} ? $opt{default} : {}); } } else { if ($value) { if ($value->get_attribute_value ('is-null', default => 0)) { $r = 'undef'; } else { $r = perl_literal $value->value; } } else { if (exists $opt{default}) { $r = defined $opt{default} ? perl_literal $opt{default} : 'undef'; } else { $r = 'undef'; } } } $r; } sub get_internal_code ($$;%) { my ($node, $name, %opt) = @_; $node = $node->parent_node; my $m; my $def; if ($m = $node->get_element_by (sub { my ($me, $you) = @_; $you->node_type eq '#element' and ($you->local_name eq 'Method' or $you->local_name eq 'ReMethod') and $you->get_attribute_value ('Name') eq $name })) { $def = $m->get_attribute ('Return'); $def = (get_perl_definition_node $def, name => 'IntDef', use_dis => 1 or get_perl_definition_node $def, name => 'Def', use_dis => 1) if $def; } elsif ($m = $node->get_element_by (sub { my ($me, $you) = @_; $you->node_type eq '#element' and ($you->local_name eq 'Attr' or $you->local_name eq 'ReAttr') and $you->get_attribute_value ('Name') eq $name })) { $def = $m->get_attribute ('Get'); $def = (get_perl_definition_node $def, name => 'IntDef', use_dis => 1 or get_perl_definition_node $def, name => 'Def', use_dis => 1) if $def; } elsif ($m = $node->get_element_by (sub { my ($me, $you) = @_; $you->node_type eq '#element' and $you->local_name eq 'IntMethod' and $you->get_attribute_value ('Name') eq $name })) { $def = $m->get_attribute ('Return'); $def = get_perl_definition_node $def, name => 'Def', use_dis => 1 if $def; } elsif ($m = $node->get_element_by (sub { my ($me, $you) = @_; $you->node_type eq '#element' and $you->local_name eq 'IntAttr' and $you->get_attribute_value ('Name') eq $name })) { $def = $m->get_attribute ('Get'); $def = get_perl_definition_node $def, name => 'Def', use_dis => 1 if $def; } if ($def) { if (type_expanded_uri ($def->get_attribute_value ('Type', default => '')) eq ExpandedURI q) { return dis2perl $def; } else { return perl_code $def->value; } } else { valid_warn qq; is_implemented (if => $Status->{IF}, method => $name, set => 0); $Status->{is_implemented} = 0; return perl_statement perl_exception level => 'EXCEPTION', class => 'DOMException', type => 'NOT_SUPPORTED_ERR', subtype_uri => ExpandedURI q, param => { ExpandedURI q => $Status->{IF}, ExpandedURI q => $name, }; } } # get_internal_code sub register_namespace_declaration ($) { my $node = shift; for (@{$node->child_nodes}) { if ($_->node_type eq '#element' and $_->local_name eq 'Namespace') { for (@{$_->child_nodes}) { $Info->{Namespace}->{$_->local_name} = $_->value; } } } } { my $nest = 0; sub is_implemented (%); sub is_implemented (%) { my (%opt) = @_; my $r = 0; $nest++ == 100 and valid_err q; my $member = ($Info->{is_implemented}->{$opt{if}}->{$opt{method} || $opt{attr} . '.' . $opt{on}} ||= {}); if (exists $opt{set}) { $r = ($member->{$opt{condition} || ''} = $opt{set}); } else { if (defined $member->{$opt{condition} || ''}) { $r = $member->{$opt{condition} || ''}; } else { for (@{$Info->{Condition}->{$opt{condition} || ''}->{ISA} || []}) { if (is_implemented (%opt, condition => $_)) { $r = 1; last; } } } } $nest--; $r; } sub is_all_implemented (%); sub is_all_implemented (%) { my (%opt) = @_; $nest++ == 100 and valid_err q; $opt{not_implemented} ||= []; IF: for my $if (keys %{$Info->{is_implemented}}) { for my $mem (keys %{$Info->{is_implemented}->{$if}}) { ## Note: In fact, this checks whether the method is NOT implemented ## rather than the method IS implemented. if (exists $Info->{is_implemented}->{$if}->{$mem}->{$opt{condition}} and not $Info->{is_implemented}->{$if}->{$mem}->{$opt{condition}}) { @{$opt{not_implemented}} = ($if, $mem, $opt{condition} || ''); last IF; } } } if (not @{$opt{not_implemented}}) { for (@{$Info->{Condition}->{$opt{condition} || ''}->{ISA} || []}) { if (not is_all_implemented (%opt, condition => $_)) { last; } } } @{$opt{not_implemented}} ? 0 : 1; }} sub condition_match ($%) { my ($node, %opt) = @_; my $conds = $node->get_attribute_value ('Condition', default => [], as_array => 1); my $level = $node->get_attribute_value ('Level', default_list => @$conds ? [] : ($opt{level_default} || []), as_array => 1); for (@$conds) { unless ($Info->{Condition}->{$_}) { valid_err qq; } } for (@$level) { unless ($Info->{Condition}->{"DOM".$_}) { valid_err qq; } } if (not $opt{condition}) { if (@$conds == 0 and @$level == 0) { return 1; } elsif (array_contains $conds, '$normal') { return 1; } elsif ($opt{ge} and not @$conds) { return 1; } elsif ($opt{any_unless_condition}) { return 1; } else { return 0; } } else { if (array_contains $conds, $opt{condition}) { return 1; } elsif ($opt{condition} =~ /^DOM(\d+)$/) { if ($opt{ge}) { for (my $i = $1; $i; $i--) { if (array_contains $level, $i) { return 1; } } } else { if ($1 and array_contains $level, $1) { return 1; } } } ## 'default_any': Match to 'any' condition (no condition specified) if ($opt{default_any} and @$conds == 0 and @$level == 0) { return 1; } return 0; } } =head1 SOURCE FORMAT "Dis" (DOM implementation source) file is written in SuikaWikiConfig/2.0 text format. =head2 IF element C element defines a DOM interface with its descriptions and implementations. Children elements: =over 4 =item IF/Name = name (1 - 1) Interface name. It should be taken from DOM specification. =item IF/Description = text (0 - infinite) Description for the interface. =item IF/ISA[list] = list of names (0 - 1) Names of interfaces that this interface inherits. =item IF/Method, IF/IntMethod, IF/ReMethod Method definition. =item IF/Attr, IF/IntAttr, IF/ReAttr Attribute definition. =item IF/ConstGroup Constant value group definition. =item IF/Const Constant value definition. =back =cut sub if2perl ($) { my $node = shift; local $Status->{depth} = $Status->{depth} + 1; my $pack_name = perl_package_name name => my $if_name = perl_name $node->get_attribute_value ('Name'), ucfirst => 1; my $if_pack_name = perl_package_name if => $if_name; my $iif_pack_name = perl_package_name iif => $if_name; local $Status->{IF} = $if_name; local $Status->{if} = {}; ## Temporary data local $Info->{Namespace} = {%{$Info->{Namespace}}}; local $Info->{Require_perl_package} = {%{$Info->{Require_perl_package}}}; local $Info->{Require_perl_package_use} = {}; local $Status->{is_implemented} = 1; my $is_abs = $node->get_attribute ('IsAbstract', default => 0); my $is_fin = $node->get_attribute ('IsFinal', default => 0); $is_fin = -1 if $is_abs; # 1=no subclass, 0=free, -1=must be subclass my $impl_by_app = $node->get_attribute ('ImplByApp', default => 0); my @level; my $mod = get_level_description $node, level => \@level; push my @desc, pod_head ($Status->{depth}, 'Interface ' . pod_code ($if_name). ($is_abs?'':', Class '.pod_code ($pack_name))); push @desc, pod_paras (get_description ($node)); push @desc, pod_para ('This interface is ' . $mod . q<.>) if $mod; if ($impl_by_app) { push @desc, pod_para ('This interface is intended to be implemented '. 'by DOM applications. To implement this '. 'interface, put the statement '), pod_pre ('push our @ISA, q<'.($is_abs?$if_pack_name:$pack_name). '>;'), pod_para ('on your package and define methods and '. 'attributes.'); } push @desc, get_isa_description ($node); my $result = pod_block @desc; my $has_role = $node->get_attribute ('Role'); for my $condition ((sort keys %{$Info->{Condition}}), '') { if ($condition =~ /^DOM(\d+)$/) { next if @level and $level[0] > $1; } local $Status->{Operator} = {}; local $Status->{condition} = $condition; my $cond_if_pack_name = perl_package_name if => $if_name, condition => $condition; my $cond_iif_pack_name = perl_package_name iif => $if_name, condition => $condition; my $cond_pack_name = perl_package_name name => $if_name, condition => $condition; my $cond_int_pack_name = perl_package_name name => $if_name, condition => $condition, is_internal => 1; my $cond_iint_pack_name = perl_package_name name => $if_name, condition => $condition, is_internal => 1, is_for_inheriting => 1; $result .= perl_package full_name => $cond_int_pack_name; my @isa; for (@{$node->child_nodes}) { next unless $_->node_type eq '#element' and condition_match $_, condition => $condition, default_any => 1, ge => 1; if ($_->local_name eq 'ISA') { if (type_expanded_uri ($_->get_attribute_value ('Type', default => ExpandedURI q)) eq ExpandedURI q) { my $v = $_->value; if ($v =~ /[^\w:]|(?, node => $_; } push @isa, $v; } else { push @isa, perl_package_name qname_with_condition => $_->value, condition => $condition, is_internal => 1, is_for_inheriting => 1; } } elsif ($_->local_name eq 'Implement') { push @isa, perl_package_name if_qname_with_condition => $_->value, condition => $condition; } } push my @isag, perl_package_name (name => 'ManakaiDOMObject') unless $if_name eq 'ManakaiDOMObject'; my @isaa; if ($condition) { for (@{$Info->{Condition}->{$condition}->{ISA}}) { push @isaa, perl_package_name name => $if_name, condition => $_, is_internal => 1; } $result .= perl_inherit [$cond_int_pack_name, @isaa, @isa, @isag] => $cond_pack_name; $result .= perl_inherit [@isaa, $cond_iif_pack_name] => $cond_int_pack_name; $result .= perl_inherit [$cond_int_pack_name, @isa] => $cond_iint_pack_name; $result .= perl_inherit [$cond_if_pack_name, $iif_pack_name] => $cond_iif_pack_name; $result .= perl_inherit [$if_pack_name] => $cond_if_pack_name; } else { ## No condition specified $result .= perl_inherit [$cond_int_pack_name, @isa, @isag] => $cond_pack_name; if ($Info->{NormalCondition}) { push @isaa, perl_package_name name => $if_name, condition => $Info->{NormalCondition}, is_internal => 1; $result .= perl_inherit [@isaa] => $cond_int_pack_name; } else { ## Condition not used $result .= perl_inherit [$iif_pack_name] => $cond_int_pack_name; } $result .= perl_inherit [$cond_int_pack_name, @isa] => $cond_iint_pack_name; $result .= perl_inherit [$if_pack_name] => $iif_pack_name; } for my $pack ($cond_pack_name, $cond_int_pack_name, $cond_iif_pack_name, $cond_if_pack_name, $cond_iint_pack_name) { $Status->{def_pack}->{$pack} = 1; } my @feature; for (@{$node->child_nodes}) { my $gt = 0; unless (condition_match $_, level_default => \@level, condition => $condition) { if (condition_match $_, level_default => \@level, condition => $condition, ge => 1) { $gt = 1; } else { next; } } if ($_->local_name eq 'Method' or $_->local_name eq 'IntMethod' or $_->local_name eq 'ReMethod') { $result .= method2perl ($_, level => \@level, condition => $condition) unless $gt; } elsif ($_->local_name eq 'Attr' or $_->local_name eq 'IntAttr' or $_->local_name eq 'ReAttr') { $result .= attr2perl ($_, level => \@level, condition => $condition) unless $gt; } elsif ($_->local_name eq 'ConstGroup') { $result .= constgroup2perl ($_, level => \@level, condition => $condition, without_document => $gt, package => $cond_int_pack_name); } elsif ($_->local_name eq 'Const') { $result .= const2perl ($_, level => \@level, condition => $condition, package => $cond_int_pack_name) unless $gt; } elsif ($_->local_name eq 'Require') { $result .= req2perl ($_, level => \@level, condition => $condition); } elsif ($_->local_name eq 'Feature') { push @feature, $_; } elsif ({qw/Name 1 Spec 1 ISA 1 Description 1 Implement 1 Level 1 SpecLevel 1 ImplNote 1 Role 1 IsAbstract 1 IsFinal 1 ImplByApp 1/}->{$_->local_name}) { # } else { valid_warn qq{Element @{[$_->local_name]} not supported}; } } if ($has_role) { my $role = type_expanded_uri $has_role->value; if ($role eq ExpandedURI q) { $result .= perl_statement q. perl_literal $cond_pack_name; } else { my $var = q<@{>.perl_var (type => '$', local_name => $ManakaiDOMModulePrefix.'::Role'). q<{>.perl_literal ($role).q<}}>; my %prop; if ($has_role->get_attribute ('compat')) { $prop{compat} = type_expanded_uri $has_role->get_attribute_value ('compat'); } else { $prop{compat} = ''; } $result .= perl_statement 'push '.$var.q<, >. perl_list { class => $cond_pack_name, constructor => 'new', %prop, }; } } if (@feature or $has_role) { $result .= '{' . perl_statement 'our $Feature'; for (@feature) { my $name = $_->get_attribute ('QName'); if ($name) { $name = type_expanded_uri ($name->value); } else { $name = $_->get_attribute_value ('Name'); } $result .= perl_statement '$Feature->{'.perl_literal ($name).'}->{'. perl_literal ($_->get_attribute_value ('Version')). '} = 1'; } $result .= perl_sub name => '___classHasFeature', prototype => '$%', code => perl_statement ('my ($self, %f) = @_'). q[ for (keys %f) { if ($Feature->{$_}) { if (defined $f{$_}->{version}) { delete $f{$_} if $Feature->{$_}->{$f{$_}->{version}}; } else { delete $f{$_} if keys %{$Feature->{$_}}; } return 1 if keys (%f) == 0; } } ]. (@isa + @isaa ? q[for (].perl_list (@isa, @isaa).q[) { if (my $c = $_->can ('___classHasFeature')) { if ($c->($self, %f)) { return 1; } } }] : ''). (($has_role and $has_role->get_attribute ('compat'))? q[ my %g; for (keys %f) { unless ($f{$_}->{plus}) { return 0; } else { $g{$_} = {version => $f{$_}->{version}}; } } for (reverse @{$].$ManakaiDOMModulePrefix.'::Role{'. perl_literal (type_expanded_uri $has_role->value).'}'.q[||[]}) { if ($_->{compat} eq ]. perl_literal ($has_role->get_attribute_value ('compat')).q[) { if ($_->{class}->___classHasFeature (%g)) { return 1; } } } ]:''). perl_statement (q); $result .= '}'; } $result .= ops2perl; } $result; } # if2perl =head2 Method, IntMethod and ReMethod elements C, C and C element defines a method. Methods defined by C are ones as defined in the DOM specification. Methods defined by C are only for internal use and usually not defined by the specifications. Methods defined by C do actually not belong to this interface but to ancestor interface in the specification but overriddenly re-defined for this type of descendant interfaces (for example, some methods defined in Node interface of the DOM Core Module are re-defined in Element, Attr or other node-type interfaces, since those methods work differently by type of the node). Children elements: =over 4 =item Name = name (1 - 1) Method name. It should be taken from DOM specification if element type is C or C. Method name for C must be used as the name of the C defined in ancestor interface. Method name for C must be different with any other C, C or C (including those defined by ancestor interfaces). =item Description = text (0 - infinite) Description for the method. =back =cut sub method2perl ($;%) { my ($node, %opt) = @_; local $Status->{depth} = $Status->{depth} + 1; my $m_name = perl_name $node->get_attribute_value ('Name'); my $level; my @level = @{$opt{level} || []}; local $Status->{Method} = $m_name; local $Status->{is_implemented} = 1; my $result = ''; if ($node->local_name eq 'IntMethod') { $m_name = perl_internal_name $m_name; $level = ''; } else { $level = get_level_description $node, level => \@level; } my @param_list; my $param_prototype = '$'; my @param_desc; my @param_domstring; if ($node->get_attribute ('Param')) { for (@{$node->child_nodes}) { if ($_->local_name eq 'Param') { my $name = perl_name $_->get_attribute_value ('Name'); my $type = type_expanded_uri $_->get_attribute_value ('Type', default => 'DOMMain:any'); push @param_list, '$' . $name; push @param_desc, pod_item (pod_code '$' . $name); if (type_isa $type, ExpandedURI q) { push @param_domstring, [$name, $type]; } push my @param_desc_val, pod_item (type_label $type, is_pod => 1), pod_paras get_description $_; $param_prototype .= '$'; for (@{$_->child_nodes}) { next unless $_->local_name eq 'InCase'; push @param_desc_val, pod_item (get_incase_label $_, is_pod => 1), pod_paras (get_description $_); } push @param_desc, pod_list 4, @param_desc_val; } } } my $return = $node->get_attribute ('Return'); unless ($return) { ## NOTE: A method without return value does not have 'Return' ## before its code is implemented. valid_warn q, node => $node; $return = $node->get_attribute ('Return', make_new_node => 1); } my $has_return = $return->get_attribute_value ('Type', default => 0) ? 1 : 0; push my @desc, pod_head ($Status->{depth}, 'Method ' . pod_code (($has_return ? '$return = ' : '') . '$obj->' . $m_name . ' (' . join (', ', @param_list) . ')')), pod_paras (get_description ($node)), $level ? pod_para ('The method ' . pod_code ($m_name) . q< has been > . $level . '.') : (); if (@param_list) { push @desc, pod_para ('This method has ' . english_number (@param_list + 0, singular => q, plural => q) . ':'), pod_list (4, @param_desc); } else { push @desc, pod_para (q); } my $is_abs = $node->get_attribute_value ('IsAbstract', default => 0); if ($is_abs) { unless (get_perl_definition_node $return, condition => $opt{condition}, level_default => $opt{level_default}, use_dis => 1) { for ($return->append_new_node (type => '#element', local_name => 'Def')) { $_->set_attribute ('Type' => ExpandedURI q); $_->set_attribute ('Overridden' => 1); } } } my @return; my @exception; my $has_exception = 0; my $code_node = get_perl_definition_node $return, condition => $opt{condition}, level_default => $opt{level_default}, use_dis => 1; my $int_code_node = get_perl_definition_node $return, name => 'IntDef', condition => $opt{condition}, level_default => $opt{level_default}, use_dis => 1; my $code; my $int_code; for ({code => \$code, code_node => $code_node, internal => sub { return get_internal_code $node, $_[0] if $_[0]; if ($int_code_node) { perl_code $int_code_node->value, internal => sub { $_[0] ? get_internal_code $node, $_[0] : valid_err q; }; } else { valid_err "{IF}]/Method[Name = $m_name]/" . "Return/IntDef> required"; } }}, {code => \$int_code, code_node => $int_code_node, internal => sub {$_[0]?get_internal_code $node,$_[0]: valid_err q . q}}) { if ($_->{code_node}) { my $mcode; if (type_expanded_uri ($_->{code_node}->get_attribute_value ('Type', default => q)) eq ExpandedURI q) { $mcode = dis2perl $_->{code_node}; } else { $mcode = perl_code $_->{code_node}->value, internal => $_->{internal}; } if ($mcode =~ /^\s*$/) { ${$_->{code}} = ''; } else { ${$_->{code}} = perl_code_source ($mcode, path => $_->{code_node}->node_path (key => 'Name')); } } } if ($code_node) { if ($has_return) { $code = perl_statement (perl_assign 'my $r' => get_value_literal $return, name => 'DefaultValue', type_name => 'Type') . $code; if ($code_node->get_attribute_value ('cast-output', default => 1)) { my $type = type_normalize type_expanded_uri $return->get_attribute_value ('Type', default => q); if (type_isa $type, ExpandedURI q) { $code .= perl_builtin_code $type, s => 'r', r => 'r', condition => $opt{condition}; } } $code .= perl_statement ('$r'); } else { $code .= perl_statement ('undef'); } if ($code_node->get_attribute_value ('auto-argument', default => 1)) { if ($code_node->get_attribute_value ('cast-input', default => 1)) { for (@param_domstring) { $code = perl_builtin_code ($_->[1], s => $_->[0], r => $_->[0], condition => $opt{condition}) . $code; } } $code = perl_statement (perl_assign 'my (' . join (', ', '$self', @param_list) . ')' => '@_') . $code; } if ($int_code_node) { if ($has_return) { $int_code = perl_statement (perl_assign 'my $r' => perl_literal '') . $int_code . perl_statement ('$r'); } else { $int_code .= perl_statement ('undef'); } $int_code = perl_statement (perl_assign 'my (' . join (', ', '$self', @param_list) . ')' => '@_') . $int_code if $int_code_node->get_attribute_value ('auto-argument', default => 1); } if ($has_return) { push @return, pod_item (type_label (type_expanded_uri ($return->get_attribute_value ('Type', default => 'DOMMain:any')), is_pod => 1)), pod_paras (get_description $return); } for (@{$return->child_nodes}) { if ($_->local_name eq 'InCase') { push @return, pod_item ( get_incase_label $_, is_pod => 1), pod_paras (get_description $_); $has_return++; } elsif ($_->local_name eq 'Exception') { push @exception, pod_item ('Exception: ' . (type_label ($_->get_attribute_value ('Type', default => 'DOMMain:any'), is_pod => 1)). '.' . pod_code $_->get_attribute_value ('Name', default => '')), pod_paras (get_description $_); my @st; for (@{$_->child_nodes}) { next unless $_->node_type eq '#element'; if ($_->local_name eq 'SubType') { push @st, subtype2poditem ($_); } elsif ({qw/Name 1 Type 1 Description 1 ImplNote 1 Condition 1 Level 1 SpecLevel 1/}->{$_->local_name}) { # } else { valid_err qq{Element type "@{[$_->local_name]}" not supported}, node => $_; } } push @exception, pod_list 4, @st if @st; $has_exception++; } } } else { $Status->{is_implemented} = 0; $int_code = $code = perl_statement ('my $self = shift'). perl_statement perl_exception level => 'EXCEPTION', class => 'DOMException', type => 'NOT_SUPPORTED_ERR', subtype_uri => ExpandedURI q, param => { ExpandedURI q => $Status->{IF}, ExpandedURI q => $Status->{Method}, }; @return = (); push @exception, pod_item ('Exception: ' . pod_code ('DOMException') . '.' . pod_code ('NOT_SUPPORTED_ERR')), pod_para ('Call of this method allways result in this exception raisen, since this method is not implemented yet.'); $has_return = 0; $has_exception = 1; } is_implemented if => $Status->{IF}, method => $Status->{Method}, condition => $opt{condition}, set => $Status->{is_implemented}; if ($has_return or $has_exception) { if ($has_return) { push @desc, pod_para (q . ($has_return == 1 ? q : q)), pod_list 4, pod_item (pod_code q<$return>), pod_list (4, @return), @exception; } elsif ($has_exception) { push @desc, pod_para (q . ($has_exception == 1 ? q : q)), pod_list 4, @exception; } } else { push @desc, pod_para q; } push @desc, get_alternate_description $node; push @desc, get_redef_description $node; if ($node->local_name eq 'IntMethod' or $Status->{if}->{method_documented}->{$m_name}++) { $result .= pod_block pod_comment @desc; } else { $result .= pod_block @desc; } $result .= perl_sub name => $m_name, prototype => $param_prototype, code => $code; $result .= perl_sub name => perl_internal_name $m_name, prototype => $param_prototype, code => $int_code if $int_code_node; if (my $op = get_perl_definition_node $node, name => 'Operator') { my $value = $op->value; valid_err qq{Overloaded operator name not specified}, node => $op unless defined $value; $Status->{Operator}->{$value} = '\\' . perl_var type => '&', local_name => $m_name; } $result; } # method2perl sub attr2perl ($;%) { my ($node, %opt) = @_; local $Status->{depth} = $Status->{depth} + 1; my $m_name = perl_name $node->get_attribute_value ('Name'); my $level; my @level = @{$opt{level} || []}; local $Status->{Method} = $m_name; local $Status->{is_implemented} = 1; my $result = ''; if ($node->local_name eq 'IntAttr') { $m_name = perl_internal_name $m_name; $level = ''; } else { $level = get_level_description $node, level => \@level; } my $return = $node->get_attribute ('Get'); unless ($return) { valid_err q, node => $node; } my $set = $node->get_attribute ('Set'); my $has_set = defined $set ? 1 : 0; push my @desc, pod_head ($Status->{depth}, 'Attribute ' . pod_code ('$obj->' . $m_name)), pod_paras (get_description ($node)), $level ? pod_para ('The method ' . pod_code ($m_name) . q< has been > . $level . '.') : (); my $is_abs = $node->get_attribute_value ('IsAbstract', default => 0); if ($is_abs) { unless (get_perl_definition_node $return, condition => $opt{condition}, level_default => $opt{level_default}, use_dis => 1) { for ($return->append_new_node (type => '#element', local_name => 'Def')) { $_->set_attribute ('Type' => ExpandedURI q); $_->set_attribute ('Overridden' => 1); } } } my $code_node = get_perl_definition_node $return, condition => $opt{condition}, level_default => $opt{level_default}, use_dis => 1; my $int_code_node = get_perl_definition_node $return, name => 'IntDef', condition => $opt{condition}, level_default => $opt{level_default}, use_dis => 1; my ($set_code_node, $int_set_code_node); if ($has_set) { if ($is_abs) { unless (get_perl_definition_node $set, condition => $opt{condition}, level_default => $opt{level_default}, use_dis => 1) { for ($return->append_new_node (type => '#element', local_name => 'Def')) { $_->set_attribute ('Type' => ExpandedURI q); $_->set_attribute ('Overridden' => 1); } } } $set_code_node = get_perl_definition_node $set, condition => $opt{condition}, level_default => $opt{level_default}, use_dis => 1; $int_set_code_node = get_perl_definition_node $set, name => 'IntDef', condition => $opt{condition}, level_default => $opt{level_default}, use_dis => 1; } my $code = ''; my $int_code = ''; my $set_code = ''; my $int_set_code = ''; for ({code => \$code, code_node => $code_node, internal => sub { return get_internal_code $node, $_[0] if $_[0]; if ($int_code_node) { perl_code $int_code_node->value, internal => sub { $_[0] ? get_internal_code $node, $_[0] : valid_err q; }; } else { valid_err "{IF}]/Attr[Name = $m_name]/" . "Get/IntDef> required"; } }}, {code => \$int_code, code_node => $int_code_node, internal => sub {$_[0]?get_internal_code $node,$_[0]: valid_err q . q}}, {code => \$set_code, code_node => $set_code_node, internal => sub { return get_internal_code $node, $_[0] if $_[0]; if ($int_set_code_node) { perl_code $int_set_code_node->value, internal => sub { $_[0] ? get_internal_code $node, $_[0] : valid_err q; }; } else { valid_err "{IF}]/Attr[Name = $m_name]/" . "Set/IntDef> required"; } }}, {code => \$int_set_code, code_node => $int_set_code_node, internal => sub {$_[0]?get_internal_code $node,$_[0]: valid_err q . q}}) { if ($_->{code_node}) { my $mcode; if (type_expanded_uri ($_->{code_node}->get_attribute_value ('Type', default => q)) eq ExpandedURI q) { $mcode = dis2perl $_->{code_node}; } else { $mcode = perl_code $_->{code_node}->value, internal => $_->{internal}, node => $_->{code_node}; } if ($mcode =~ /^\s*$/) { ${$_->{code}} = ''; } else { ${$_->{code}} = perl_code_source ($mcode, path => $_->{code_node}->node_path (key => 'Name')); } } } my @return; my @return_xcept; if ($code_node) { is_implemented if => $Status->{IF}, attr => $Status->{Method}, condition => $opt{condition}, set => 1, on => 'get'; my $co = $code_node->get_attribute_value ('cast-output', default => $code eq '' ? 0 : 1); if ($code eq '' and not $co) { $code = perl_statement get_value_literal $return, name => 'DefaultValue', type_name => 'Type'; } else { $code = perl_statement (perl_assign 'my $r' => get_value_literal $return, name => 'DefaultValue', type_name => 'Type') . $code; if ($co) { my $type = type_normalize type_expanded_uri $return->get_attribute_value ('Type', default => q); if (type_isa $type, ExpandedURI q) { $code .= perl_builtin_code $type, s => 'r', r => 'r', condition => $opt{condition}; } } $code .= perl_statement ('$r'); } $code = get_warning_perl_code ($return) . $code; if ($int_code_node) { $int_code = perl_statement (perl_assign 'my $r' => perl_literal '') . $int_code . perl_statement ('$r'); $int_code = perl_statement (perl_assign 'my ($self)' => '@_') . $int_code if $int_code_node->get_attribute_value ('auto-argument', default => 1); } push @return, pod_item (type_label (type_expanded_uri $return->get_attribute_value ('Type', default => 'DOMMain:any'), is_pod => 1)), pod_paras (get_description $return); for (@{$return->child_nodes}) { if ($_->local_name eq 'InCase') { push @return, pod_item (get_incase_label $_, is_pod => 1), pod_paras (get_description $_); } elsif ($_->local_name eq 'Exception') { push @return_xcept, pod_item ('Exception: ' . (type_label ($_->get_attribute_value ('Type', default => 'DOMMain:any'), is_pod => 1)) . '.' . pod_code $_->get_attribute_value ('Name', default => '')), pod_paras (get_description $_); my @st; for (@{$_->child_nodes}) { next unless $_->node_type eq '#element'; if ($_->local_name eq 'SubType') { push @st, subtype2poditem ($_); } elsif ({qw/Name 1 Type 1 Description 1 ImplNote 1 Condition 1 Level 1 SpecLevel 1/}->{$_->local_name}) { # } else { valid_err qq{Element type "@{[$_->local_name]}" not supported}, node => $_; } } push @return_xcept, pod_list 4, @st if @st; } } } else { is_implemented if => $Status->{IF}, attr => $Status->{Method}, condition => $opt{condition}, set => 0, on => 'get'; $Status->{is_implemented} = 0; $int_code = $code = perl_statement perl_exception level => 'EXCEPTION', class => 'DOMException', type => 'NOT_SUPPORTED_ERR', subtype_uri => ExpandedURI q, param => { ExpandedURI q => $Status->{IF}, ExpandedURI q => $Status->{Method}, ExpandedURI q => 'get', }; @return = (); push @return_xcept, pod_item ('Exception: ' . pod_code ('DOMException') . '.' . pod_code ('NOT_SUPPORTED_ERR')), pod_para ('Getting of this attribute allways result in this exception raisen, since this attribute is not implemented yet.'); } push @desc, pod_para ('DOM applications can get the value by:'), pod_pre (qq{\$return = \$obj->$m_name}), pod_list (4, @return ? (pod_item pod_code q<$return>, pod_list 4, @return): (), @return_xcept); my @set_desc; my @set_xcept; if ($set_code_node) { is_implemented if => $Status->{IF}, attr => $Status->{Method}, condition => $opt{condition}, set => 1, on => 'set'; if ($set_code_node->get_attribute_value ('cast-input', default => $set_code eq '' ? 0 : 1)) { my $type = type_normalize type_expanded_uri $set->get_attribute_value ('Type', default => q); if (type_isa $type, ExpandedURI q) { $set_code = perl_builtin_code ($type, s => 'given', r => 'given', condition => $opt{condition}) . $set_code; } } $set_code = get_warning_perl_code ($set) . $set_code; push @set_desc, pod_item (type_label (type_expanded_uri ($set->get_attribute_value ('Type', default => 'DOMMain:any')), is_pod => 1)), pod_paras (get_description $set); for (@{$set->child_nodes}) { if ($_->local_name eq 'InCase') { push @set_desc, pod_item (get_incase_label $_, is_pod => 1), pod_paras (get_description $_); } elsif ($_->local_name eq 'Exception') { push @set_xcept, pod_item ('Exception: ' . (type_label ($_->get_attribute_value ('Type', default => 'DOMMain:any'), is_pod => 1)) . '.' . pod_code $_->get_attribute_value ('Name', default => '')), pod_paras (get_description $_); my @st; for (@{$_->child_nodes}) { next unless $_->node_type eq '#element'; if ($_->local_name eq 'SubType') { push @st, subtype2poditem ($_); } elsif ({qw/Name 1 Type 1 Description 1 ImplNote 1 Condition 1 Level 1 SpecLevel 1/}->{$_->local_name}) { # } else { valid_err qq{Element type "@{[$_->local_name]}" not supported}, node => $_; } } push @set_xcept, pod_list 4, @st if @st; } } } elsif ($has_set) { is_implemented if => $Status->{IF}, attr => $Status->{Method}, condition => $opt{condition}, set => 0, on => 'set'; $Status->{is_implemented} = 0; $int_set_code = $set_code = perl_statement perl_exception level => 'EXCEPTION', class => 'DOMException', type => 'NOT_SUPPORTED_ERR', subtype_uri => ExpandedURI q, param => { ExpandedURI q => $Status->{IF}, ExpandedURI q => $Status->{Method}, ExpandedURI q => 'set', }; @set_desc = pod_item '(Not implemented yet)'; @set_xcept = (); push @set_xcept, pod_item ('Exception: ' . pod_code ('DOMException') . '.' . pod_code ('NOT_SUPPORTED_ERR')), pod_para ('Setting of this attribute allways result in this exception raisen, since this attribute is not implemented yet.'); } if ($has_set) { push @desc, pod_para ('DOM applications can set the value by:'), pod_pre (qq{\$obj->$m_name (\$newValue)}), pod_list 4, pod_item (pod_code q<$newValue>), pod_list 4, @set_desc; push @desc, (@set_xcept ? (pod_para (q), pod_list (4, @set_xcept)) : (pod_para (q. q))); } else { push @desc, pod_para ('This attribute is read-only.'); } is_implemented if => $Status->{IF}, method => $Status->{Method}, condition => $opt{condition}, set => $Status->{is_implemented}; push @desc, get_alternate_description $node; push @desc, get_redef_description $node, method => 'attribute'; if ($node->local_name eq 'IntAttr' or $Status->{if}->{method_documented}->{$m_name}++) { $result .= pod_block pod_comment @desc; } else { $result .= pod_block @desc; } my $warn = get_warning_perl_code ($node); my $proto; if ($has_set) { $code = perl_statement (perl_assign perl_var (scope => 'my', type => '$', local_name => 'self') => 'shift'). $warn. perl_if q, ($set_code =~/\bgiven\b/ ? perl_statement (q) : '') . $set_code . perl_statement ('undef'), $code; $int_code = perl_statement (perl_assign perl_var (scope => 'my', type => '$', local_name => 'self') => 'shift'). perl_if q, perl_statement (q) . $int_set_code, $int_code; $proto = '$;$'; } else { $code = q . $warn . $code; $int_code = q . $int_code; $proto = '$'; } $result .= perl_sub name => $m_name, prototype => $proto, code => $code; $result .= perl_sub name => perl_internal_name $m_name, prototype => $proto, code => $int_code if $int_code_node; if (my $op = get_perl_definition_node $node, name => 'Operator') { $Status->{Operator}->{$op->value} = '\\' . perl_var type => '&', local_name => $m_name; } $result; } # attr2perl =head2 DataType element The C element defines a datatype. =cut sub datatype2perl ($;%) { my ($node, %opt) = @_; local $Status->{depth} = $Status->{depth} + 1; my $pack_name = perl_package_name name => my $if_name = perl_name $node->get_attribute_value ('Name'), ucfirst => 1; local $Status->{IF} = $if_name; local $Status->{if} = {}; ## Temporary data local $Info->{Namespace} = {%{$Info->{Namespace}}}; local $Info->{Require_perl_package} = {%{$Info->{Require_perl_package}}}; local $Info->{Require_perl_package_use} = {}; local $Status->{Operator} = {}; my $result = perl_package full_name => $pack_name; my @isa; for (@{$node->child_nodes}) { next unless $_->node_type eq '#element' and $_->local_name eq 'ISA' and condition_match $_, condition => $opt{condition}, default_any => 1, ge => 1; push @isa, perl_package_name qname_with_condition => $_->value, condition => $opt{condition}; } $result .= perl_inherit [@isa, perl_package_name (name => 'ManakaiDOMObject'), perl_package_name (if => $if_name)]; $Status->{def_pack}->{$pack_name} = 1; $Status->{def_pack}->{perl_package_name if => $if_name} = 1; my @level = @{$opt{level} || []}; my $mod = get_level_description $node, level => \@level; $result .= pod_block pod_head ($Status->{depth}, 'Type ' . pod_code $if_name), pod_paras (get_description ($node)), ($mod ? pod_para ('This type is ' . $mod) : ()); for (@{$node->child_nodes}) { if ($_->local_name eq 'Method' or $_->local_name eq 'IntMethod') { $result .= method2perl ($_, level => \@level, condition => $opt{condition}); } elsif ($_->local_name eq 'Attr' or $_->local_name eq 'IntAttr') { $result .= attr2perl ($_, level => \@level, condition => $opt{condition}); } elsif ($_->local_name eq 'ConstGroup') { $result .= constgroup2perl ($_, level => \@level, condition => $opt{condition}, package => $pack_name); } elsif ($_->local_name eq 'Const') { $result .= const2perl ($_, level => \@level, condition => $opt{condition}, package => $pack_name); } elsif ($_->local_name eq 'ISA') { push @{$Info->{DataTypeAlias}->{type_expanded_uri $if_name} ->{isa_uri}||=[]}, type_expanded_uri $_->value; } elsif ({qw/Name 1 FullName 1 Spec 1 Description 1 Level 1 SpecLevel 1 Def 1 ImplNote 1/}->{$_->local_name}) { # } else { valid_warn qq{Element @{[$_->local_name]} not supported}; } } $result .= ops2perl; $result; } # datatype2perl sub datatypealias2perl ($;%) { my ($node, %opt) = @_; local $Status->{depth} = $Status->{depth} + 1; my $if_name = $node->get_attribute_value ('Name'); my $long_name = expanded_uri $if_name; my $real_long_name = type_expanded_uri (my $real_name = $node->get_attribute_value ('Type', default => 'DOMMain:any')); if (type_label ($real_long_name) eq type_label ($long_name)) { $Info->{DataTypeAlias}->{$long_name}->{canon_uri} = $real_long_name; return perl_comment sprintf '%s <%s> := %s <%s>', type_label ($long_name), $long_name, type_label ($real_long_name), $real_long_name; } $Info->{DataTypeAlias}->{$long_name}->{canon_uri} = $real_long_name; $if_name = perl_name $if_name, ucfirst => 1; $real_name = type_package_name $real_name; my $pack_name = perl_package_name name => $if_name; local $Status->{IF} = $if_name; local $Status->{if} = {}; ## Temporary data local $Info->{Namespace} = {%{$Info->{Namespace}}}; local $Info->{Require_perl_package} = {%{$Info->{Require_perl_package}}}; local $Info->{Require_perl_package_use} = {}; my $result = perl_package full_name => $pack_name; $result .= perl_inherit [perl_package_name (full_name => $real_name), perl_package_name (if => $if_name)]; $Status->{def_pack}->{perl_package_name if => $if_name} = 1; my @level = @{$opt{level} || []}; my $mod = get_level_description $node, level => \@level; $result .= pod_block pod_head ($Status->{depth}, 'Type ' . pod_code $if_name), pod_paras (get_description ($node)), pod_para ('This type is an alias of the type ' . (type_label $real_long_name, is_pod => 1) . '.'), ($mod ? pod_para ('This type is ' . $mod) : ()); for (@{$node->child_nodes}) { if ({qw/Name 1 FullName 1 Spec 1 Type 1 Description 1 Level 1 SpecLevel 1 Condition 1 ImplNote 1 Def 1/}->{$_->local_name}) { # } else { valid_warn qq{Element @{[$_->local_name]} not supported}; } } $result; } # datatypealias2perl =item Exception top-level element =item Warning top-level element =cut sub exception2perl ($;%) { my ($node, %opt) = @_; local $Status->{depth} = $Status->{depth} + 1; local $Status->{const} = {}; local $Status->{if} = {}; ## Temporary data local $Status->{in_exception} = 1; local $Info->{Namespace} = {%{$Info->{Namespace}}}; local $Info->{Require_perl_package} = {%{$Info->{Require_perl_package}}}; local $Info->{Require_perl_package_use} = {}; my $pack_name = perl_package_name name => my $if_name = perl_name $node->get_attribute_value ('Name'), ucfirst => 1; my $type = $node->local_name eq 'Exception' ? 'Exception' : 'Warning'; local $Status->{IF} = $if_name; my $result = perl_package full_name => $pack_name; $Status->{def_pack}->{$pack_name} = 1; my @isa = perl_package_name (if => $if_name); if ($if_name eq 'ManakaiDOM'.$type) { push @isa, perl_package_name name => 'ManakaiDOMExceptionOrWarning'; } elsif ($if_name eq 'ManakaiDOMExceptionOrWarning') { push @isa, 'Message::Util::Error'; } else { push @isa, perl_package_name name => 'ManakaiDOM'.$type } $result .= perl_inherit [@isa]; $Status->{def_pack}->{perl_package_name if => $if_name} = 1; my @level = @{$opt{level} || []}; my $mod = get_level_description $node, level => \@level; $result .= pod_block pod_head ($Status->{depth}, $type . ' ' . pod_code $if_name), pod_paras (get_description ($node)), ($mod ? pod_para ('This ' . lc ($type) . ' is introduced in ' . $mod . '.') : ()), ($type eq 'Exception' ? (pod_para ('To catch this class of exceptions:'), pod_pre (join "\n", q|try { |, q| ... |, q|} catch | . $pack_name . q| with { |, q| my $err = shift; |, q| if ($err->{type} eq 'ERROR_NAME') { |, q| ... # Recover from some error, |, q| } else { |, q| $err->throw; # rethrow if other |, q| } |, q|}; # Don't forget semicolon! |)) : ()); for (@{$node->child_nodes}) { if ($_->local_name eq 'Method' or $_->local_name eq 'IntMethod' or $_->local_name eq 'ReMethod') { $result .= method2perl ($_, level => \@level, condition => $opt{condition}, any_unless_condition => 1); } elsif ($_->local_name eq 'Attr' or $_->local_name eq 'IntAttr' or $_->local_name eq 'ReAttr') { my $get; if ($_->local_name eq 'Attr' and $_->get_attribute_value ('Name') eq 'code' and $get = $_->get_attribute ('Get') and not get_perl_definition_node $get, name => 'Def') { for ($get->append_new_node (type => '#element', local_name => 'Def', value => q{ $r = $self->{}; })) { $_->set_attribute (type => 'lang:Perl'); ## ISSUE: NS prefix assoc. } } $result .= attr2perl ($_, level => \@level, condition => $opt{condition}, any_unless_condition => 1); } elsif ($_->local_name eq 'ConstGroup') { $result .= constgroup2perl ($_, level => \@level, condition => $opt{condition}, package => $pack_name, any_unless_condition => 1); } elsif ($_->local_name eq 'Const') { $result .= const2perl ($_, level => \@level, condition => $opt{condition}, package => $pack_name, any_unless_condition => 1); } elsif ({qw/Name 1 Spec 1 Description 1 Level 1 SpecLevel 1 Condition 1 ImplNote 1/}->{$_->local_name}) { # } else { valid_warn qq{Element @{[$_->local_name]} not supported}; } } $result .= perl_sub name => '___error_def', prototype => '', code => perl_list { map { $_ => { ExpandedURI q => perl_code_literal ($Status->{const}->{$_}->{code_literal}), description => $Status->{const}->{$_}->{description}, ExpandedURI q => $Status->{const}->{$_}->{subtype}, } } sort keys %{$Status->{const}} }; $result; } # exception2perl sub constgroup2perl ($;%); sub constgroup2perl ($;%) { my ($node, %opt) = @_; local $Status->{depth} = $Status->{depth} + 1; my $name = $node->get_attribute ('Name'); if (defined $name) { $name = perl_name $name->value, ucfirst => 1; } local $Status->{IF} = $name || q<[anonymous constant group]>; my @level = @{$opt{level} || []}; my $mod = get_level_description $node, level => \@level; my $result = ''; my $consts = {}; $Info->{DataTypeAlias}->{expanded_uri $node->get_attribute_value ('Name')} ->{isa_uri} = [type_expanded_uri $node->get_attribute_value ('Type', default => q)] if defined $name; my $i = 0; { local $Status->{EXPORT_OK} = $consts; for (@{$node->child_nodes}) { my $only_document = $opt{only_document} || 0; unless ($_->node_type eq '#element' and condition_match $_, level_default => \@level, condition => $opt{condition}, any_unless_condition => $opt{any_unless_condition}) { $only_document = 1; } if ($_->local_name eq 'ConstGroup') { $result .= constgroup2perl ($_, level => \@level, condition => $opt{condition}, without_document => $opt{without_document}, only_document => $only_document, package => $opt{package}, any_unless_condition => $opt{any_unless_condition}); $i++; } elsif ($_->local_name eq 'Const') { $result .= const2perl ($_, level => \@level, condition => $opt{condition}, without_document => $opt{without_document}, only_document => $only_document, package => $opt{package}, any_unless_condition => $opt{any_unless_condition}); $i++; } elsif ({qw/Name 1 Spec 1 ISA 1 Description 1 Type 1 IsBitMask 1 Level 1 SpecLevel 1 Def 1 ImplNote 1 FullName 1/}->{$_->local_name}) { # } else { valid_warn qq{Element @{[$_->local_name]} not supported}; } } } for (keys %$consts) { $Status->{EXPORT_OK}->{$_} = 1; $Status->{EXPORT_TAGS}->{$name}->{$_} = 1 if defined $name; } return $result if $opt{without_document}; my @desc; if (defined $name) { push @desc, pod_head $Status->{depth}, 'Constant Group ' . pod_code $name; } else { push @desc, pod_head $Status->{depth}, 'Constant Group: ' . get_description ($node, name => 'FullName'); } push @desc, pod_paras (get_description ($node)), ($mod ? pod_para ('This constant group has been ' . $mod . '.') : ()), pod_para ('This constant group has ' . english_number $i, singular => q, plural => q); push @desc, pod_para ('To export all constant values in this group:'), pod_pre (perl_statement "use $Info->{Package} qw/:$name/") if defined $name; $result = pod_block (@desc) . $result; $result; } # constgroup2perl sub const2perl ($;%) { my ($node, %opt) = @_; local $Status->{depth} = $Status->{depth} + 1; my $name = perl_name $node->get_attribute_value ('Name'); my $longname = perl_var local_name => $name, package => {full_name => $opt{package} || $Info->{Package}}; local $Status->{IF} = $name; local $Status->{const_subtype} = {}; my @level = @{$opt{level} || []}; my $mod = get_level_description $node, level => \@level; my @desc; unless ($opt{without_document}) { @desc = (pod_head ($Status->{depth}, 'Constant Value ' . pod_code $name), pod_paras (get_description ($node)), ($mod ? pod_para ('This constant value has been ' . $mod . '.') : ())); if ($Status->{in_exception}) { ## Is Exception/Warning code # } else { ## Is NOT Exception/Warning code push @desc, pod_para ('To export this constant value:'), pod_pre (perl_statement "use $Info->{Package} qw/$name/"); } my @param; for (@{$node->child_nodes}) { next unless $_->node_type eq '#element'; if ($_->local_name eq 'Param') { if ($Status->{in_exception}) { push @param, param2poditem ($_); } else { valid_err qq{Element "Param" may not be used with non-Exception}. qq{/Warning constants}, node => $node; } } elsif ($_->local_name eq 'SubType') { if ($Status->{in_exception}) { push @param, subtype2poditem ($_); } else { valid_err qq{Element "SubType" may not be used with non-Exception}. qq{/Warning constants}, node => $node; } } elsif ({qw/Name 1 Spec 1 Description 1 Condition 1 Level 1 SpecLevel 1 Type 1 Value 1 ImplNote 1/}->{$_->local_name}) { # } else { valid_err qq{Element type "@{[$_->local_name]}" not supported}, node => $node; } } push @desc, pod_list 4, @param if @param; } my $result = ''; unless ($opt{only_document}) { $result = perl_sub name => $longname, prototype => '', code => my $code = get_value_literal $node, name => 'Value'; $result .= perl_sub name => perl_var (package => {full_name => $Info->{Package}}, local_name => $name), prototype => '', code => $code if $opt{package} and $Info->{Package} ne $opt{package}; my $desc_template = get_description $node, type => ExpandedURI q, default => $name; $Status->{const}->{$name} = { description => $desc_template, code_literal => $code, subtype => $Status->{const_subtype} || {}, }; } $Status->{EXPORT_OK}->{$name} = 1; unless ($opt{without_document}) { $result = pod_block (@desc) . $result; } $result; } # const2perl sub param2poditem ($;%) { my ($node, %opt) = @_; my @desc; $opt{name_prefix} = 'Parameter: ' unless defined $opt{name_prefix}; if ($node->get_attribute ('Name')) { push @desc, $opt{name_prefix} . pod_code $node->get_attribute_value ('Name'); } elsif ($node->get_attribute ('QName')) { push @desc, pod_item $opt{name_prefix} . qname_label ($node, out_type => ExpandedURI q); } else { valid_err q, node => $node; } my @val; push @val, pod_item (type_label (type_expanded_uri ($node->get_attribute_value ('Type', default => 'DOMMain:any')), is_pod => 1)), pod_paras (get_description $node); for (@{$node->child_nodes}) { last unless $_->node_type eq '#element'; if ($_->local_name eq 'InCase') { push @val, pod_item (get_incase_label $_, is_pod => 1), pod_paras (get_description $_); } elsif ({qw/Name 1 QName 1 Type 1 Description 1 ImplNote 1/}->{$_->local_name}) { # } else { valid_err qq{Element type "@{[$_->local_name]}" not supported}, node => $_; } } if (@val) { push @desc, pod_list 4, @val; } @desc; } # param2poditem sub subtype2poditem ($;%) { my ($node, %opt) = @_; my @desc; $opt{name_prefix} = 'SubType: ' unless defined $opt{name_prefix}; my $qname = $node->get_attribute_value ('QName'); if (defined $qname) { push @desc, pod_item $opt{name_prefix} . qname_label ($node, qname => $qname, out_type => ExpandedURI q); } else { valid_err q, node => $node; } push @desc, pod_paras (get_description $node); my @param; for (@{$node->child_nodes}) { last unless $_->node_type eq '#element'; if ($_->local_name eq 'Param') { push @param, param2poditem ($_); } elsif ({qw/QName 1 Type 1 SpecLevel 1 Description 1 ImplNote 1/}->{$_->local_name}) { # } else { valid_err qq{Element type "@{[$_->local_name]}" not supported}, node => $_; } } if (@param) { push @desc, pod_list 4, @param; } my $desc_template = get_description $node, type => ExpandedURI q, default => $qname; $Status->{const_subtype}->{type_expanded_uri $qname} = { description => $desc_template, }; @desc; } # subtype2poditem =head2 Require element The C element indicates that some external modules are required. Both DOM-implementing modules and language-specific library modules are allowed. Children: =over 4 =item Require/Module (0 - infinite) A required module. Children: =over 4 =item Require/Module/Name = name (0 - 1) The DOM module name. Iif it is a DOM-implementing module, this attribute MUST be specified. =item Require/Module/Namespace = namespace-uri (0 - 1) The namespace URI for the module, if any. Namespace prefix C is to be binded with C if both C and C are available. =item Require/Module/Def = Type-dependent (0 - infinite) Language-depending definition of loading of the required module. If no appropriate C of C element is available, loading code is generated from C attribute. =back =back =cut sub req2perl ($) { my $node = shift; my $reqnode = $node->local_name eq 'Require' ? $node : $node->get_attribute ('Require', make_new_node => 1); my $result = ''; for (@{$reqnode->child_nodes}) { if ($_->local_name eq 'Module') { my $m_name = $_->get_attribute_value ('Name', default => ''); my $ns_uri = $_->get_attribute_value ('Namespace'); $Info->{Namespace}->{$m_name} = $ns_uri if defined $ns_uri; $m_name = perl_name $m_name, ucfirst => 1; my $desc = get_description $_; $result .= perl_comment (($m_name ne '' ? $m_name : '') . ($desc ? ' - ' . $desc : '')) if $desc or $m_name ne ''; my $def = get_perl_definition_node $_, name => 'Def'; if ($def) { my $s; my $req; my $pack_name; if ($req = $def->get_attribute ('require')) { $s = 'require ' . ($pack_name = perl_code $req->value); $Info->{uri_to_perl_package}->{$ns_uri} = $pack_name if $ns_uri; $Info->{Require_perl_package}->{$pack_name} = 1; } elsif ($req = $def->get_attribute ('use')) { $s = 'use ' . ($pack_name = perl_code $req->value); $Info->{uri_to_perl_package}->{$ns_uri} = $pack_name if $ns_uri; $Info->{Require_perl_package}->{$pack_name} = 1; $Info->{Require_perl_package_use}->{$pack_name} = 1; } elsif (defined ($s = $def->value)) { # } else { valid_warn qq; } if ($req and my $list = $req->get_attribute_value ('Import', as_array => 1)) { if (@$list) { $s .= ' ' . perl_list @$list; $Info->{Require_perl_package_use} ->{$pack_name . '::::Import'}->{$_} = 1 for @$list; } } $result .= perl_statement $s; } else { $result .= perl_statement 'require ' . perl_code "__CLASS{$m_name}__"; } } elsif ($_->local_name eq 'Condition') { } else { valid_warn qq[Requiredness type @{[$_->local_name]} not supported]; } } $result; } =head2 Module element A "dis" file requires one (and only one) C top-level element. Other elements, such as C, may include C elements as their children. Children: =over 4 =item Module/Name = name (0 - 1) The module name. Usually DOM IDL module name is used. This attribute is required when C element is used as a top-level element. It is optional if C is a child of other element. =item Module/Package = Type-dependent (0 - infinite) The module package name. For example, Module: @Name: module1 @Package: @@@: Module1 @@Type: lang:Perl means that general module name is C and Perl-specific module name is C. =item Module/Namespace = namespace (1 - 1) The namespace URI (an absolute URI with optional fragment identifier) that is assigned to this module. Datatypes defined by this module (such as C or C) are considered to belong to this namespace. In addition, the default namespace is binding to this namespace name (in other word, special namespace prefix C<#default> is associated with the URI reference). =item Module/FullName = text (0 - infinite) A human-readable module name. =item Module/Description = text (0 - infinite) A human-readable module description. =item Module/License = qname (1 - 1) A qname that identify the license term. =item Module/Date.RCS = (1 - 1) The last-modified date-time of this module, represented in RCS format (text C with date and time, enclosed by C<$>s). =item Module/Require (0 - infinite) A list of modules (DOM modules or other liburary modules) that is required by entire module. =back =cut ## Get general information $Info->{source_filename} = $ARGV; ## Initial Namespace bindings for ([ManakaiDOM => ExpandedURI q], [http => q]) { $Info->{Namespace}->{$_->[0]} = $_->[1]; } ## Initial DataType aliasing and inheritance for (ExpandedURI q, ExpandedURI q, ExpandedURI q, ExpandedURI q, ExpandedURI q, ExpandedURI q, ExpandedURI q) { $Info->{DataTypeAlias}->{$_} ->{isa_uri} = [ExpandedURI q]; } register_namespace_declaration ($source); my $Module = $source->get_attribute ('Module', make_new_node => 1); $Info->{Name} = perl_name $Module->get_attribute_value ('Name'), ucfirst => 1 or valid_err q; $Info->{Namespace}->{(DEFAULT_PFX)} = $Module->get_attribute_value ('Namespace') or valid_err q; $Info->{Namespace}->{$Module->get_attribute_value ('Name')} = $Info->{Namespace}->{(DEFAULT_PFX)}; my $pack_node = get_perl_definition_node $Module, name => 'BindingName'; if ($pack_node) { $Info->{Package} = perl_code $pack_node->value; } else { $Info->{Package} = perl_package_name name => $Info->{Name}; } $Info->{uri_to_perl_package}->{$Info->{Namespace}->{(DEFAULT_PFX)}} = $Info->{Package}; $Info->{Require_perl_package} = {}; $Info->{Require_perl_package_use} = {}; ## Make source code $result .= perl_comment q . "\n" . q<"> . $Info->{source_filename} . q<" at > . rfc3339_date (time) . qq<.\n> . q; $result .= perl_statement q; local $Status->{depth} = $Status->{depth} + 1; $result .= perl_package full_name => $Info->{Package}; $Status->{def_pack}->{$Info->{Package}} = 1; $result .= pod_block pod_head (1, 'NAME'), pod_para ($Info->{Package} . ' - ' . get_description ($Module, name => 'FullName')), section ( opt => pod_head (1, 'DESCRIPTION'), req => pod_paras (get_description ($Module)), ), pod_head (1, 'DOM INTERFACES'); ## Conditions my $defcond = 0; for my $cond (@{$Module->child_nodes}) { next unless $cond->node_type eq '#element' and $cond->local_name eq 'ConditionDef'; my $name = $cond->get_attribute_value ('Name', default => ''); my $isa = $cond->get_attribute_value ('ISA', default => []); my $fullname = get_description $cond, name => 'FullName'; $isa = [$isa] unless ref $isa; if ($name =~ /^DOM(\d+)$/) { $defcond = $1 if $1 > $defcond; $fullname ||= "DOM Level " . (0 + $1); } $Info->{Condition}->{$name}->{ISA} = $isa; $Info->{Condition}->{$name}->{FullName} = $fullname || $name; } if (keys %{$Info->{Condition}}) { $Info->{NormalCondition} = $Module->get_attribute_value ('NormalCondition') || $defcond ? 'DOM' . $defcond : valid_err q; } ## 'require'ing external modules { my $req = $Module->get_attribute ('Require', make_new_node => 1); my $reqModule = sub { my ($name, $me, $you) = @_; if ($you->get_attribute_value ('Name', default => '') eq $name) { return 1; } else { return 0; } }; if (not $req->get_element_by (sub {$reqModule->('ManakaiDOMMain', @_)})) { for ($req->append_new_node (type => '#element', local_name => 'Module')) { $_->set_attribute (Name => 'ManakaiDOMMain'); $_->set_attribute (Namespace => ExpandedURI q); } } if (not $req->get_element_by (sub {$reqModule->('DOMMain', @_)})) { for ($req->append_new_node (type => '#element', local_name => 'Module')) { $_->set_attribute (Name => 'DOMMain'); $_->set_attribute (Namespace => ExpandedURI q); } } $result .= req2perl $Module; } for my $node (@{$source->child_nodes}) { if ($node->node_type ne '#element') { ## } elsif ($node->local_name eq 'IF') { $result .= if2perl $node; } elsif ($node->local_name eq 'Exception' or $node->local_name eq 'Warning') { $result .= exception2perl $node; } elsif ($node->local_name eq 'DataType') { $result .= datatype2perl $node; } elsif ($node->local_name eq 'DataTypeAlias') { $result .= datatypealias2perl $node; } elsif ($node->local_name eq 'ConstGroup') { $result .= constgroup2perl $node; } elsif ($node->local_name eq 'Const') { $result .= const2perl $node; } elsif ({qw/Module 1 Namespace 1 ImplNote 1/}->{$node->local_name}) { # } else { valid_warn qq{Top-level element type "@{[$node->local_name]}" not supported}; } } ## Export if (keys %{$Status->{EXPORT_OK}||{}}) { $result .= perl_package full_name => $Info->{Package}; $result .= perl_statement 'require Exporter'; $result .= perl_inherit ['Exporter']; $result .= perl_statement perl_assign perl_var (type => '@', scope => 'our', local_name => 'EXPORT_OK') => '(' . perl_list (keys %{$Status->{EXPORT_OK}}) . ')'; if (keys %{$Status->{EXPORT_TAGS}||{}}) { $result .= perl_statement perl_assign perl_var (type => '%', scope => 'our', local_name => 'EXPORT_TAGS') => '(' . perl_list (map { $_ => [keys %{$Status->{EXPORT_TAGS}->{$_}}] } keys %{$Status->{EXPORT_TAGS}}) . ')'; } } ## Packages { my $list = join ', ', map {'$'.$_.'::VERSION'} sort keys %{$Status->{def_pack}}; my $date = perl_literal version_date time; $result .= qq{ for ($list) { \$_ = $date; } }; } ## Feature my @feature_desc; my $features = 0; for my $condition (sort keys %{$Info->{Condition}}, '') { for my $Feature (@{$Module->child_nodes}) { next unless $Feature->node_type eq '#element' and $Feature->local_name eq 'Feature' and condition_match $Feature, condition => $condition; is_all_implemented condition => $condition, not_implemented => (my $not_implemented = []); my $f_name = $Feature->get_attribute_value ('Name', default => ''); unless (length $f_name) { $f_name = expanded_uri $Feature->get_attribute_value ('QName'); } my $f_ver = $Feature->get_attribute_value ('Version'); push @feature_desc, pod_item ('Feature ' . pod_code ($f_name) . ' version ' . pod_code ($f_ver) . ($Info->{Condition}->{$condition}->{FullName} ? ' [' . $Info->{Condition}->{$condition} ->{FullName} . ']' : '')), pod_paras (get_description $Feature); if (@$not_implemented) { push @feature_desc, pod_para ('This module provides interfaces '. 'of this feature but not yet fully ' . 'implemented.'); $result .= perl_comment "$f_name, $f_ver: $not_implemented->[0]." . "$not_implemented->[1]<$not_implemented->[2]>" . " not implemented."; } else { push @feature_desc, pod_para ('This module implements this feature, ' . 'so that the method calls such as ' . pod_code ('$DOMImplementation' . '->hasFeature (' . perl_literal ($f_name) . ', ' . perl_literal ($f_ver) . ')') . ' or ' . pod_code ('$DOMImplementation' . '->hasFeature (' . perl_literal ($f_name) . ', null)') . ' will return ' . pod_code ('true') . '.'); } for (@{$Feature->child_nodes}) { next unless $_->node_type eq '#element'; if ($_->local_name eq 'Contrib') { my $n = $_->value; my $ccondition; if ($n =~ s/::([^:]*)$//) { $ccondition = $1; } if ($n =~ s/^[^:]*://) { # currently prefix is not used } $result .= perl_statement perl_assign perl_var (type => '$', package => { name => $n, condition => $ccondition, is_internal => 1, }, local_name => 'Feature'). ## Feature name is case-insensitive '->{'.perl_literal (lc $f_name).'}->{'. perl_literal (@$not_implemented ? '+dummy+' : $f_ver) . '}' => 1; } elsif ({ qw/Name 1 QName 1 FullName 1 Version 1 Description 1 ImplNote 1 Spec 1 Condition 1 / }->{$_->local_name}) { } else { valid_err q, node => $_; } } $features++; } } if (@feature_desc) { $result .= pod_block pod_head (1, 'DOM FEATURE'.($features>1?'S':'')), pod_list 4, @feature_desc; } ## TODO list my @todo; ## From not-implemented list for my $if (sort keys %{$Info->{is_implemented}}) { for my $mem (sort keys %{$Info->{is_implemented}->{$if}}) { for my $cond (sort keys %{$Info->{is_implemented}->{$if}->{$mem}}) { if (not $Info->{is_implemented}->{$if}->{$mem}->{$cond}) { push @todo, pod_item ('Implement '.pod_code ($if).'.'. pod_code ($mem).'.'), pod_para ('Condition = '. ($Info->{Condition}->{$cond}->{FullName} || '(empty)')); } } } } ## From Description, ImplNote, Def my $a; $a = sub { my $n = shift; for (@{$n->child_nodes}) { if ($_->node_type eq '#element') { $a->($_); } } if (($n->node_type eq '#element' and {qw/Description 1 ImplNote 1 Def 1 IntDef 1/}->{$n->local_name}) or $n->node_type eq '#comment') { my $v = $n->value; if (defined $v) { if (ref $v eq 'ARRAY') { $v = join "\n", @$v; } if ($v =~ /\b(TODO|ISSUE|BUG):/) { push @todo, pod_item ($1.': '.pod_code $n->node_path(key => 'Name')); my $t = $n->node_type eq '#comment' ? ExpandedURI q : $n->get_attribute_value ('Type', default => { Description => ExpandedURI q, ImplNote => ExpandedURI q, Def => ExpandedURI q, IntDef => ExpandedURI q, }->{$n->local_name}); if ($t eq ExpandedURI q) { push @todo, disdoc2pod $v; } else { push @todo, pod_pre ($v); } } } } }; $a->($source); if (@todo) { $result .= pod_block pod_head (1, 'TO DO'), pod_list 4, @todo; } ## Namespace bindings for documentation if (my $n = keys %{$Status->{ns_in_doc}}) { my @desc = (pod_head (1, 'NAMESPACE BINDING'.($n > 1 ? 'S' : '')), pod_para ('In this documentation, namespace prefix'. ($n > 1 ? 'es ' : ' '). ($n > 1 ? 'are' : 'is').' bound to:')); push @desc, pod_list 4, map { pod_item (pod_code $_), pod_para (pod_code ($Status->{ns_in_doc}->{$_})), } keys %{$Status->{ns_in_doc}}; $result .= pod_block @desc; } ## See also ## TODO: implement this. ## Author my @desc; my @author; my $author; my $authors = 0; for (@{$Module->child_nodes}) { if ($_->node_type eq '#element' and $_->local_name eq 'Author') { my $n = get_description ($_, name => 'FullName'); push @author, pod_item $n; my @d; $author = defined $author ? $authors ? $author : ($authors++, $author . ', et al.') : $n; for (@{$_->child_nodes}) { next unless $_->node_type eq '#element'; if ($_->local_name eq 'Mail') { push @d, pod_item ('Mail'), pod_para (pod_mail $_->value); } elsif ({qw/FullName 1/}->{$_->local_name}) { # } else { valid_err q, node => $_; } } push @author, pod_list 6, @d if @d; } } $author = 'AUTHORS' unless defined $author; if (@author) { push @desc, pod_head (1, 'AUTHOR'.($authors?'S':'')), pod_list (4, @author); } ## License push @desc, pod_head (1, 'LICENSE'); my $year = (gmtime)[5]+1900; my $license = expanded_uri $Module->get_attribute_value ('License', default => ''); if ($license eq ExpandedURI q) { push @desc, pod_para (qq), pod_para q; } elsif ($license eq ExpandedURI q) { push @desc, pod_para (qq), pod_para (q. q), pod_para (q. q.pod_dfn (q). q<, in which case the provisions of the MPL/GPL/LGPL are applicable instead >. q. q. q. q. q. q. q), pod_head (2, 'MPL/GPL/LGPL'), # q<***** BEGIN LICENSE BLOCK *****> pod_para (q), pod_para (q. q<1.1 (the >.pod_dfn (q).q<); you may not use this file except in >. q. q. pod_uri (q).q<.>), pod_para (q. pod_em (q).q<" basis, >. pod_em (q). q<, either express or implied. See the License >. q. q); my $orig = $Module->get_attribute ('License')->get_attribute ('Original'); if ($orig) { push @desc, pod_para ('The Original Code is the '. get_description ($orig, name => 'FullName').'.'); push @desc, pod_para ('The Initial Developer of the Original Code is '. get_description ($orig->get_attribute ('Author'), name => 'FullName').'. '. q. q.pod_char (name => 'copy').' '. $orig->get_attribute_value ('Year', default => $year). q< the Initial Developer. All Rights Reserved.>); } else { my $a = $author; $a =~ /, et al\.$/ if $authors; push @desc, pod_para (q), pod_para (qq. q. pod_char (name => 'copy').qq< $year >. ## ISSUE: Should first created year provided from some source? q); } push @desc, pod_list 4, pod_item (q), pod_para (q. pod_link (section => 'AUTHOR'.($authors?'S':'')). q<.>); push @desc, pod_para q. q. pod_dfn (q).q<"), or >. q. pod_dfn (q).q<"), >. q. q. q. q. q. q. q. q; # ***** END LICENSE BLOCK ***** } elsif ($license) { valid_warn q>; push @desc, pod_para (qq), pod_para (qq.pod_uri ($license).q<.>); } else { valid_err q; } $result .= pod_block @desc; $result .= perl_statement 1; if ($Opt{output_pod} eq 'file') { open my $pod, '>', $Opt{output_pod_file} or die "$0: $Opt{output_pod_file}: $!"; print $pod $result_pod; } elsif ($Opt{output_pod} eq 'only') { $result = $result_pod; } output_result $result; __END__ =head1 SEE ALSO W3C DOM Specifications SuikaWiki:DOM C: This script generates "dis" files, that can be used as a template for the DOM implementation, from DOM IDL files. =head1 LICENSE Copyright 2004 Wakaba . All rights reserved. This program is free software; you can redistribute it and/or modify it under the same terms as Perl itself. Note that copyright holder(s) of this script does not claim any rights for materials outputed by this script, although it will contain some fragments from this script. License terms for them should be defined by the copyright holder of the source document. =cut # $Date: 2004/11/01 07:58:34 $