# IXIN.pm: output IXIN format.
#
# Copyright 2013-2022 Free Software Foundation, Inc.
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 3 of the License,
# or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see .
#
# Original author: Patrice Dumas
#
#
# The IXIN format "indexed Texinfo", contains both a representation of
# a Texinfo manual contents, and additional information, using a specific
# markup vocabulary to have a direct access to nodes, sections, labels,
# indices, title... It is designed to allow to render flexibly Texinfo.
# The IXIN project is at https://savannah.nongnu.org/projects/ixin/.
#
#
# This module alone is not sufficient to output the IXIN format, as it
# calls convert_tree() but does not implement the conversion of Texinfo
# (of the Texinfo tree) nor inherit from a module that does so. A module
# inheriting both from a converter module, for convert_tree(), and this module
# should be used. A functional implementation of IXIN is available as the
# Texinfo::Convert::IXINSXML module which uses Texinfo::Convert::TexinfoSXML
# for the Texinfo tree conversion. Using a Texinfo tree converter that does
# not lose information for Texinfo tree conversion in IXIN is in line with the
# IXIN philosophy, so conversion modules like Texinfo::Convert::TexinfoXML or
# Texinfo::Convert::TexinfoSXML are the best candidates.
#
# This module implements output of the IXIN format using lower level formatting
# functions for the additional information markup, adapted to lisp-like
# output. To output the IXIN elements with another format, for example XML,
# the abstract output specific functions ixin_* should be redefined in
# another module a functional implementation would inherit from. (This
# approach is the same as the one used for Texinfo::Convert::TexinfoXML
# and Texinfo::Convert::TexinfoSXML).
#
# This setup allows to cleanly separate the modules used for IXIN additional
# information formatting and the modules used for Texinfo tree conversion.
#
#
# This module is still work in progress, as is the IXIN project as a whole.
# The IXIN project is inactive since 2015, this code is not actively
# maintained either. It is kept, in case the IXIN project resumes, and also
# as an example of code adding additional information mixed with Texinfo
# tree conversion.
#
# There are pending issues, in particular related to blobs, as can be seen
# in the thread of
# https://lists.gnu.org/archive/html/help-texinfo/2013-01/msg00005.html
# and
# https://lists.gnu.org/archive/html/help-texinfo/2015-02/msg00004.html
package Texinfo::Convert::IXIN;
use 5.00405;
use strict;
# To check if there is no erroneous autovivification
#no autovivification qw(fetch delete exists store strict);
use MIME::Base64;
use Carp qw(cluck);
use Texinfo::Commands;
use Texinfo::Common;
use Texinfo::Convert::TexinfoSXML;
use vars qw($VERSION @ISA);
@ISA = qw(Texinfo::Convert::Converter);
$VERSION = '7.0.2';
my $ixin_version = 1;
sub _ixin_version($)
{
my $self = shift;
return $ixin_version;
}
my %additional_setting_commands;
# those commands are not line specific global/global_unique commands
# but are considered to be settings.
# FIXME some seem to be missing, 'smallbook', 'afourpaper', 'afivepaper',
# 'afourlatex', 'afourwide', 'bsixpaper'
foreach my $command ('pagesizes', 'everyheading', 'everyfooting',
'evenheading', 'evenfooting', 'oddheading', 'oddfooting',
'documentencoding', 'documentlanguage', 'clickstyle') {
$additional_setting_commands{$command} = 1;
}
# Here are all the line specific global/global_unique commands
# that are not setting commands.
my %global_line_not_setting_commands = (
'printindex' => 1,
);
my @image_files_extensions = ('eps', 'gif', 'jpg', 'jpeg', 'pdf', 'png', 'svg',
'txt');
my %extension_mime_mapping = (
'eps' => 'application/postscript',
'gif' => 'image/gif',
'jpg' => 'image/jpeg',
'jpeg' => 'image/jpeg',
'pdf' => 'application/pdf',
'png' => 'image/png',
'svg' => 'image/svg+xml',
'txt' => 'text/plain',
'tiff' => 'image/tiff',
'' => 'image/unknown',
);
# output specific
sub ixin_header($)
{
my $self = shift;
# FIXME _ixin_version() should be public to be usable in other implementation
# of output specific functions.
my $header = 'ixin '.$self->_ixin_version().';';
if ($self->get_conf('OUTPUT_ENCODING_NAME')) {
$header .= ' -*- coding: '. $self->get_conf('OUTPUT_ENCODING_NAME') .'-*-;';
}
$header .= "\n";
}
my %attribute_string_names = (
'nodeentry' => {'name' => 1},
'nodelabel' => {'name' => 1},
'floatentry' => {'name' => 1},
'label' => {'name' => 1},
'filename' => {'name' => 1},
'settingvalue' => {'value' => 1},
'nodetweakvalue' => {'value' => 1},
'floatindex' => {'type' => 1},
'blobentry' => {'mimetype' => 1, 'filename' => 1},
);
sub _ixin_attributes($$$)
{
my $self = shift;
my $name = shift;
my $attributes = shift;
my $result = '';
if ($attributes) {
foreach my $attribute_spec (@$attributes) {
if (ref($attribute_spec) ne 'ARRAY') {
cluck "attribute_spec not an array($attribute_spec).";
}
if ($attribute_string_names{$name}
and $attribute_string_names{$name}->{$attribute_spec->[0]}) {
$result .= '"'
.Texinfo::Convert::TexinfoSXML->txi_markup_protect_text(
$attribute_spec->[1]).'"';
} else {
$result .= $attribute_spec->[1];
}
$result .= ' ';
}
}
return $result;
}
sub ixin_open_element($$;$)
{
my $self = shift;
my $name = shift;
my $attributes = shift;
my $result = '(';
$result .= $self->_ixin_attributes($name, $attributes);
return $result;
}
sub ixin_list_element($$$)
{
my $self = shift;
my $name = shift;
my $attributes = shift;
my $result = $self->_ixin_attributes($name, $attributes);
$result =~ s/ $//;
return $result;
}
sub ixin_close_element($$)
{
my $self = shift;
my $name = shift;
return ')';
#return "|$name)";
}
sub ixin_element($$;$)
{
my $self = shift;
my $name = shift;
my $attributes = shift;
my $opening = $self->ixin_open_element($name, $attributes);
$opening =~ s/ $//;
return $opening . $self->ixin_close_element($name);
}
sub ixin_symbol_element($$$)
{
my $self = shift;
my $name = shift;
my $string = shift;
return $string;
}
sub ixin_none_element($$)
{
my $self = shift;
my $name = shift;
return ' - ';
}
# end output specific subs
# FIXME this is rather non specific. Move to Converter?
# FIXME need to be changed for {'structure'}->{'associated_unit'}.
# There is a version HTML specific, _html_get_tree_root_element
# which is up to date and handles better content in @insertcopying
# or @titlepage, but has specific HTML code related to separate
# elements, it could be used to update if needed.
sub _get_element($$);
sub _get_element($$)
{
my $self = shift;
my $current = shift;
my ($element, $root_command);
while (1) {
#print STDERR Texinfo::Common::debug_print_element($current);
if ($current->{'type'}) {
if ($current->{'type'} eq 'unit') {
return ($current, $root_command);
}
}
if ($current->{'cmdname'}) {
if ($Texinfo::Commands::root_commands{$current->{'cmdname'}}) {
$root_command = $current;
return ($element, $root_command) if defined($element);
}
}
if ($current->{'parent'}) {
$current = $current->{'parent'};
} else {
return ($element, $root_command);
}
}
}
sub _count_bytes($$)
{
my $self = shift;
my $string = shift;
return Texinfo::Common::count_bytes($self, $string);
}
sub _associated_node_id($$$;$)
{
my $self = shift;
my $command = shift;
my $node_label_number = shift;
my $node_command = shift;
if (!defined($node_command)) {
my ($element, $root_command) = $self->_get_element($command);
if ($root_command) {
if (!$root_command->{'cmdname'} or $root_command->{'cmdname'} ne 'node') {
if ($element and $element->{'extra'}
and $element->{'extra'}->{'unit_command'}
and $element->{'extra'}->{'unit_command'}->{'cmdname'}
and $element->{'extra'}->{'unit_command'}->{'cmdname'} eq 'node') {
$node_command = $element->{'extra'}->{'unit_command'};
}
} else {
$node_command = $root_command;
}
}
}
my $associated_node_id;
if (defined($node_command)
and defined($node_command->{'extra'}->{'normalized'})) {
$associated_node_id
= $node_label_number->{$node_command->{'extra'}->{'normalized'}};
} else {
$associated_node_id = -1;
}
return $associated_node_id;
}
sub _index_font_name($$)
{
my $self = shift;
my $in_code = shift;
if ($in_code) {
return 'code';
} else {
return 'r';
}
}
my @node_directions = ('Next', 'Prev', 'Up');
sub output_ixin($$)
{
my $self = shift;
my $root = shift;
my ($output_file, $destination_directory) = $self->determine_files_and_directory();
my ($encoded_destination_directory, $dir_encoding)
= $self->encoded_output_file_name($destination_directory);
my $succeeded
= $self->create_destination_directory($encoded_destination_directory,
$destination_directory);
return undef unless $succeeded;
my $fh;
my $encoded_output_file;
if (! $output_file eq '') {
my $path_encoding;
($encoded_output_file, $path_encoding)
= $self->encoded_output_file_name($output_file);
my $error_message;
($fh, $error_message) = Texinfo::Common::output_files_open_out(
$self->output_files_information(), $self,
$encoded_output_file);
if (!$fh) {
$self->document_error($self,
sprintf(__("could not open %s for writing: %s"),
$output_file, $error_message));
return undef;
}
}
my $result = $self->ixin_header();
$result .= $self->ixin_open_element('meta');
$result .= $self->ixin_open_element('xid');
my $output_file_name = $self->ixin_none_element('filename');
if ($output_file_name ne '') {
$result .= $self->ixin_list_element('filename',
[['name', $output_file_name]]);
}
my $lang = $self->get_conf('documentlanguage');
#my $lang_code = $lang;
#my $region_code;
#if ($lang =~ /^([a-z]+)_([A-Z]+)/) {
# $lang_code = $1;
# $region_code = $2;
#}
$result .= ' ';
$result .= $self->ixin_list_element('lang', [['name', $lang]]);
# FIXME title: use simpletitle or fulltitle
if ($self->{'parser_info'}->{'dircategory_direntry'}) {
my $current_category;
foreach my $dircategory_direntry (@{$self->{'parser_info'}->{'dircategory_direntry'}}) {
if ($dircategory_direntry->{'cmdname'}
and $dircategory_direntry->{'cmdname'} eq 'dircategory') {
if ($current_category) {
$result .= $self->ixin_close_element('category');
}
$current_category = $dircategory_direntry;
$result .= $self->ixin_open_element('category');
# FIXME wait for Thien-Thi input on renderable or string.
} elsif ($dircategory_direntry->{'cmdname'}
and $dircategory_direntry->{'cmdname'} eq 'direntry') {
# FIXME wait for Thien-Thi input on renderable or string and node
# rendering
}
}
if ($current_category) {
$result .= $self->ixin_close_element('category');
}
}
$result .= $self->ixin_close_element('xid');
# FIXME vars: wait for Thien-Thi answer.
my $tree_units = Texinfo::Structuring::split_by_node($root);
# setting_commands is for @-commands appearing before the first node,
# while end_of_nodes_setting_commands holds, for @-commands names, the
# last @-command element.
my %setting_commands;
my %end_of_nodes_setting_commands;
my %setting_commands_defaults;
# FIXME this code is unclear and probably needs to be fixed if developemnt
# resumes. Maybe could be replaced by set_global_document_commands.
foreach my $global_command (keys(%{$self->{'global_commands'}})) {
if ((($Texinfo::Commands::line_commands{$global_command}
and $Texinfo::Commands::line_commands{$global_command} eq 'specific')
or $additional_setting_commands{$global_command})
and !$global_line_not_setting_commands{$global_command}) {
if (ref($self->{'global_commands'}->{$global_command}) eq 'ARRAY') {
if (defined($Texinfo::Common::document_settable_multiple_at_commands{$global_command})) {
$setting_commands_defaults{$global_command}
= $Texinfo::Common::document_settable_multiple_at_commands{$global_command};
}
foreach my $command (@{$self->{'global_commands'}->{$global_command}}) {
my ($element, $root_command) = _get_element($self, $command);
# before first node
if (not $root_command
or not defined($root_command->{'extra'})
or not defined($root_command->{'extra'}->{'normalized'})) {
$setting_commands{$global_command} = $command;
} else {
# register the setting value at the end of the node
$end_of_nodes_setting_commands{$root_command->{'extra'}->{'normalized'}}->{$global_command}
= $command;
}
#print STDERR "$element $root_command->{'extra'} $global_command\n";
}
} else {
# FIXME the value is reset just after, this is useless...
if (defined($Texinfo::Common::document_settable_unique_at_commands{$global_command})) {
$setting_commands_defaults{$global_command}
= $Texinfo::Common::document_settable_unique_at_commands{$global_command};
}
$setting_commands{$global_command} = $self->{'global_commands'}->{$global_command};
}
}
}
my %settings;
foreach my $setting_command_name (keys(%setting_commands)) {
my $setting_command = $setting_commands{$setting_command_name};
$setting_command_name = 'shortcontents'
if ($setting_command_name eq 'summarycontents');
# FIXME should use get_conf instead?
my $value = Texinfo::Common::_informative_command_value($setting_command);
#print STDERR "$setting_command_name $value\n";
# do not register settings if sete at the default value.
if (defined($value)
and !(defined($setting_commands_defaults{$setting_command_name})
and $setting_commands_defaults{$setting_command_name} eq $value)) {
$settings{$setting_command_name} = $value;
}
}
$result .= ' ';
$result .= $self->ixin_open_element('settings');
if (scalar(keys(%settings))) {
foreach my $command_name (sort(keys(%settings))) {
$result .= $self->ixin_open_element('setting');
$result .= $self->ixin_symbol_element('settingname', $command_name);
$result .= ' ';
# FIXME lineraw is most probably not the right type of line
# command. Maybe should be specific?
if ($Texinfo::Commands::line_commands{$command_name} eq 'lineraw') {
$result .= $self->ixin_list_element('settingvalue',
[['value', $settings{$command_name}]]);
} else {
$result .= $self->ixin_symbol_element('settingvalue', $settings{$command_name});
}
$result .= $self->ixin_close_element('setting');
}
}
$result .= $self->ixin_close_element('settings');
foreach my $region ('copying', 'titlepage') {
if ($self->{'global_commands'}->{$region}) {
$result .= $self->convert_tree($self->{'global_commands'}->{$region});
} else {
$result .= $self->ixin_none_element($region);
}
}
# FIXME toc: wait for Thien-Thi answer.
$result .= $self->ixin_close_element('meta');
$result .= "\n";
# to do the nodes index, one need the size of each node.
# to do the counts list, one need to know the sizze of the node index.
# So we have to start by the node data.
my $node_nr = 0;
my %current_settings;
my %node_label_number;
my %node_byte_sizes;
my %node_tweaks;
my @nodes;
my $document_output = '';
if ($tree_units) {
foreach my $node_element (@$tree_units) {
next if (not defined ($node_element->{'extra'})
or not defined($node_element->{'extra'}->{'unit_command'}));
$node_nr++;
my $node = $node_element->{'extra'}->{'unit_command'};
push @nodes, $node;
my $normalized_node_name = $node->{'extra'}->{'normalized'};
foreach my $setting_command_name (keys(%current_settings)) {
$node_tweaks{$normalized_node_name}->{$setting_command_name}
= $current_settings{$setting_command_name};
}
$node_label_number{$normalized_node_name} = $node_nr;
my $node_result = $self->convert_tree($node_element)."\n";
$document_output .= $node_result;
# get node length.
$node_byte_sizes{$normalized_node_name}
= $self->_count_bytes($node_result);
# update current settings
if (defined($end_of_nodes_setting_commands{$normalized_node_name})) {
foreach my $setting_command_name (keys(%{$end_of_nodes_setting_commands{$normalized_node_name}})) {
# FIXME should use get_conf instead?
my $value = Texinfo::Common::_informative_command_value_informative_command_value(
$end_of_nodes_setting_commands{$normalized_node_name}->{$setting_command_name});
if ((defined($settings{$setting_command_name})
and $settings{$setting_command_name} eq $value)
or (!defined($settings{$setting_command_name})
and defined($setting_commands_defaults{$setting_command_name})
and $setting_commands_defaults{$setting_command_name} eq $value)) {
delete $current_settings{$setting_command_name};
} else {
$current_settings{$setting_command_name} = $value;
}
}
}
}
} else {
# not a full document.
}
my $nodes_index = $self->ixin_open_element('nodesindex');
foreach my $node (@nodes) {
my $normalized_node_name = $node->{'extra'}->{'normalized'};
# FIXME name should be a renderable sequence
my @attributes = (['name', $normalized_node_name],
['length', $node_byte_sizes{$normalized_node_name}]);
foreach my $direction (@node_directions) {
if ($node->{'node_'.lc($direction)}) {
my $node_direction = $node->{'node_'.lc($direction)};
if ($node_direction->{'extra'}->{'manual_content'}) {
# FIXME?
push @attributes, ['node'.lc($direction), -2];
} else {
push @attributes, ['node'.lc($direction),
$node_label_number{$node_direction->{'extra'}->{'normalized'}}]
}
} else {
push @attributes, ['node'.lc($direction), -1];
}
}
$nodes_index .= $self->ixin_open_element('nodeentry', \@attributes);
if ($node_tweaks{$normalized_node_name}) {
$nodes_index .= $self->ixin_open_element('nodetweaks');
foreach my $command_name (sort(keys(%{$node_tweaks{$normalized_node_name}}))) {
$nodes_index .= $self->ixin_open_element('nodetweak');
$nodes_index .= $self->ixin_symbol_element('nodetweakname', $command_name);
$nodes_index .= ' ';
# FIXME Probably not the right line type, lineraw commands are c,
# comment and vskip.
if ($Texinfo::Commands::line_commands{$command_name} eq 'lineraw') {
$nodes_index .= $self->ixin_list_element('nodetweakvalue',
[['value', $node_tweaks{$normalized_node_name}->{$command_name}]]);
} else {
$nodes_index .= $self->ixin_symbol_element('nodetweakvalue',
$node_tweaks{$normalized_node_name}->{$command_name});
}
$nodes_index .= $self->ixin_close_element('nodetweak');
}
$nodes_index .= $self->ixin_close_element('nodetweaks');
}
$nodes_index .= $self->ixin_close_element('nodeentry');
}
$nodes_index .= $self->ixin_close_element('nodesindex');
$nodes_index .= "\n";
# do sectioning tree
my $sectioning_tree = '';
$sectioning_tree .= $self->ixin_open_element('sectioningtree');
if ($self->{'structuring'} and $self->{'structuring'}->{'sectioning_root'}) {
my $section_root = $self->{'structuring'}->{'sectioning_root'};
foreach my $top_section (@{$section_root->{'structure'}->{'section_childs'}}) {
my $section = $top_section;
SECTION:
while ($section) {
my $associated_node_id = $self->_associated_node_id($section,
\%node_label_number);
my @attributes = (['nodeid', $associated_node_id], ['type',
Texinfo::Structuring::section_level_adjusted_command_name($section)]);
$sectioning_tree .= $self->ixin_open_element('sectionentry',
\@attributes);
$sectioning_tree .= $self->ixin_open_element('sectiontitle');
if ($section->{'args'} and $section->{'args'}->[0]) {
$sectioning_tree .= $self->convert_tree($section->{'args'}->[0]);
}
$sectioning_tree .= $self->ixin_close_element('sectiontitle');
# top is special and never considered to contain anything. So
# it is closed here and not below.
if ($section->{'cmdname'} eq 'top') {
$sectioning_tree .= $self->ixin_close_element('sectionentry');
}
if ($section->{'structure'}->{'section_childs'}) {
$section = $section->{'structure'}->{'section_childs'}->[0];
} elsif ($section->{'structure'}->{'section_next'}) {
$sectioning_tree .= $self->ixin_close_element('sectionentry');
last if ($section eq $top_section);
$section = $section->{'structure'}->{'section_next'};
} else {
if ($section eq $top_section) {
$sectioning_tree .= $self->ixin_close_element('sectionentry')
unless ($section->{'cmdname'} eq 'top');
last;
}
while ($section->{'structure'}->{'section_up'}) {
$section = $section->{'structure'}->{'section_up'};
$sectioning_tree .= $self->ixin_close_element('sectionentry');
if ($section eq $top_section) {
$sectioning_tree .= $self->ixin_close_element('sectionentry')
unless ($section->{'cmdname'} eq 'top');
last SECTION;
}
if ($section->{'structure'}->{'section_next'}) {
$sectioning_tree .= $self->ixin_close_element('sectionentry');
$section = $section->{'structure'}->{'section_next'};
last;
}
}
}
}
}
}
$sectioning_tree .= $self->ixin_close_element('sectioningtree') . "\n";
# do labels
my $non_node_labels_text = '';
my $labels_nr = 0;
my %floats_associated_node_id;
if ($self->{'labels'}) {
foreach my $label (sort(keys(%{$self->{'labels'}}))) {
my $command = $self->{'labels'}->{$label};
next if ($command->{'cmdname'} eq 'node');
$labels_nr++;
my $associated_node_id = $self->_associated_node_id($command,
\%node_label_number);
$non_node_labels_text .= $self->ixin_element('label', [['name', $label],
['nodeid', $associated_node_id],
['type', $command->{'cmdname'}]]);
# register floats to avoid doing it twice for the float specific index
if ($command->{'cmdname'} eq 'float') {
$floats_associated_node_id{$command} = $associated_node_id;
}
}
}
my $labels_text = $self->ixin_open_element('labels', [['count', $labels_nr]]);
foreach my $node (@nodes) {
$labels_text .= $self->ixin_list_element('nodelabel', [['name',
$node->{'extra'}->{'normalized'}]]);
$labels_text .= ' ';
}
$labels_text .= $non_node_labels_text
. $self->ixin_close_element('labels')."\n";
# do document-term sets (indices counts and indices)
my %dts_information;
my $index_names = $self->{'indices_information'};
if ($index_names) {
my $merged_index_entries
= Texinfo::Structuring::merge_indices($index_names);
my ($entries, $index_entries_sort_strings)
= Texinfo::Structuring::sort_indices($self,
$self, $merged_index_entries);
# first do the dts_text as the counts are needed for the dts index
foreach my $index_name (sort(keys(%$entries))) {
$dts_information{$index_name} = {};
my $dts_text_result = '';
my $dts_entries_nr = 0;
my $dts_in_code = $index_names->{$index_name}->{'in_code'};
foreach my $dts_entry (@{$entries->{$index_name}}) {
my $node = $dts_entry->{'entry_node'};
my $associated_node_id;
if (defined($node)) {
$associated_node_id = $self->_associated_node_id(undef,
\%node_label_number, $node);
} else {
$associated_node_id = -1;
}
my $entry = $self->convert_tree({'contents' => $dts_entry->{'entry_content'}});
$dts_text_result .= $self->ixin_open_element('dtsentry',
[['nodeid', $associated_node_id]]);
$dts_text_result .= $self->ixin_open_element('dtsterm');
$dts_text_result .= $entry;
$dts_text_result .= $self->ixin_close_element('dtsterm');
if ($dts_entry->{'in_code'} != $dts_in_code) {
my $font_name = $self->_index_font_name($dts_entry->{'in_code'});
$dts_text_result .= ' ';
$dts_text_result .= $self->ixin_list_element('dtsfont', [['font',
$font_name]]);
}
$dts_text_result .= $self->ixin_close_element('dtsentry');
$dts_entries_nr++;
}
my $dts_opening = $self->ixin_open_element('dts', [['count', $dts_entries_nr],
['font', $self->_index_font_name($dts_in_code)]]);
$dts_text_result = $dts_opening . $dts_text_result
. $self->ixin_close_element('dts') . "\n";
$dts_information{$index_name}->{'dts_text'} = $dts_text_result;
}
}
# Gather information on printindex @-commands associated node id
if ($self->{'global_commands'}->{'printindex'}) {
foreach my $command (@{$self->{'global_commands'}->{'printindex'}}) {
my $associated_node_id = $self->_associated_node_id($command,
\%node_label_number);
if ($command->{'extra'} and $command->{'extra'}->{'misc_args'}
and defined($command->{'extra'}->{'misc_args'}->[0])) {
my $index_name = $command->{'extra'}->{'misc_args'}->[0];
$dts_information{$index_name} = {} if (!$dts_information{$index_name});
push @{$dts_information{$index_name}->{'node_id'}}, $associated_node_id;
}
}
}
# now construct dts_index and dts_text
my $dts_index = '';
my $dts_text = $self->ixin_open_element('dtssets');
foreach my $index_name (sort(keys(%dts_information))) {
my $dts_len = 0;
if (exists($dts_information{$index_name}->{'dts_text'})) {
$dts_len = $self->_count_bytes($dts_information{$index_name}->{'dts_text'});
$dts_text .= $dts_information{$index_name}->{'dts_text'};
}
my @attributes = (['name', $index_name], ['dtslen', $dts_len]);
$dts_index .= $self->ixin_open_element('dtsindexentry', \@attributes);
if ($dts_information{$index_name}->{'node_id'}) {
foreach my $node_id (sort(@{$dts_information{$index_name}->{'node_id'}})) {
$dts_index .= $self->ixin_list_element('dtsnodeid', [['nodeid', $node_id]]);
$dts_index .= ' ';
}
}
$dts_index =~ s/ $//;
$dts_index .= $self->ixin_close_element('dtsindexentry');
}
$dts_text .= $self->ixin_close_element('dtssets') ."\n";
if ($dts_index ne '') {
$dts_index = $self->ixin_open_element('dtsindex', [['dtsindexlen',
$self->_count_bytes($dts_text)]])
. $dts_index . $self->ixin_close_element('dtsindex');
} else {
$dts_index = $self->ixin_none_element('dtsindex')
}
# do floats
my %floats_information;
# collect all float types corresponding to float commands
if ($self->{'floats'}) {
foreach my $type (keys(%{$self->{'floats'}})) {
$floats_information{$type} = {};
}
}
# collect listoffloats information
if ($self->{'global_commands'}->{'listoffloats'}) {
foreach my $command (@{$self->{'global_commands'}->{'listoffloats'}}) {
my $associated_node_id = $self->_associated_node_id($command,
\%node_label_number);
if ($command->{'extra'}
and $command->{'extra'}->{'type'}
and defined($command->{'extra'}->{'type'}->{'normalized'})) {
my $type = $command->{'extra'}->{'type'}->{'normalized'};
if ($command->{'extra'}->{'type'}->{'content'}) {
$floats_information{$type}->{'type'}
= $self->convert_tree({'contents'
=> $command->{'extra'}->{'type'}->{'content'}});
}
push @{$floats_information{$type}->{'node_id'}}, $associated_node_id;
}
}
}
# now do the floats sets and the floats index
my $floats_text = $self->ixin_open_element('floatsset');
my $floats_index = '';
foreach my $type (sort(keys(%floats_information))) {
my $float_text_len = 0;
if ($self->{'floats'}->{$type}) {
my $float_nr = 0;
my $float_text = '';
foreach my $float (@{$self->{'floats'}->{$type}}) {
$float_nr++;
my $associated_node_id;
# associated node already found when collecting labels
if (exists($floats_associated_node_id{$float})) {
$associated_node_id = $floats_associated_node_id{$float};
} else {
$associated_node_id = $self->_associated_node_id($float,
\%node_label_number);
}
my @attribute = (['nodeid', $associated_node_id]);
$float_text .= $self->ixin_open_element('floatentry', \@attribute);
if ($float->{'extra'}->{'normalized'}) {
$float_text .= $self->ixin_list_element('floatlabel',
[['name', $float->{'extra'}->{'normalized'}]]);
$float_text .= ' ';
} else {
$float_text .= $self->ixin_none_element('floatlabel');
}
if ($float->{'extra'}->{'node_content'}) {
$float_text .= $self->ixin_open_element('floatname');
$float_text .= $self->convert_tree({'contents'
=> $float->{'extra'}->{'node_content'}});
$float_text .= $self->ixin_close_element('floatname');
} else {
$float_text .= $self->ixin_none_element('floatname');
}
if ($float->{'extra'}->{'shortcaption'}) {
$float_text .= $self->convert_tree($float->{'extra'}->{'shortcaption'});
} elsif ($float->{'extra'}->{'caption'}) {
$float_text .= $self->convert_tree($float->{'extra'}->{'caption'});
} else {
$float_text .= $self->ixin_none_element('caption');
}
$float_text .= $self->ixin_close_element('floatentry')."\n";
}
$float_text = $self->ixin_open_element('floatset', [['count', $float_nr]])
. $float_text .$self->ixin_close_element('floatset')."\n";
$float_text_len = $self->_count_bytes($float_text);
$floats_text .= $float_text;
# determine type expandable string from first float if it was not
# already determined from listoffloats
if (!defined($floats_information{$type}->{'type'})) {
my $command = $self->{'floats'}->{$type}->[0];
if ($command->{'extra'}->{'type'}
and $command->{'extra'}->{'type'}->{'content'}) {
$floats_information{$type}->{'type'}
= $self->convert_tree({'contents'
=> $command->{'extra'}->{'type'}->{'content'}});
}
}
}
my @attribute = (['type', $type], ['floatentrylen', $float_text_len]);
$floats_index .= $self->ixin_open_element('floatindex', \@attribute);
if ($floats_information{$type}->{'type'}) {
$floats_index .= $self->ixin_open_element('floatindextype');
$floats_index .= $floats_information{$type}->{'type'};
$floats_index .= $self->ixin_close_element('floatindextype');
} else {
$floats_index .= $self->ixin_none_element('floatindextype');
}
if ($floats_information{$type}->{'node_id'}) {
foreach my $associated_node_id (@{$floats_information{$type}->{'node_id'}}) {
$floats_index .= ' ';
$floats_index .= $self->ixin_list_element('floatindexnode',
[['nodeid', $associated_node_id]]);
}
}
$floats_index .= $self->ixin_close_element('floatindex');
}
$floats_text .= $self->ixin_close_element('floatsset')."\n";
if ($floats_index ne '') {
$floats_index = $self->ixin_open_element('floatsindex', [['floatsindexlen',
$self->_count_bytes($floats_text)]])
.$floats_index .$self->ixin_close_element('floatsindex');
} else {
$floats_index = $self->ixin_none_element('floatsindex');
}
# do blobs
my $blobs = '';
my $blobs_index = '';
my $blob_nr = 0;
my $collected_image_commands = Texinfo::Common::collect_commands_list_in_tree(
$root, ['image']);
if (scalar(@{$collected_image_commands})) {
foreach my $command (@{$collected_image_commands}) {
my @extension;
my $basefile;
my $extension;
if (defined($command->{'args'}->[0])
and $command->{'args'}->[0]->{'contents'}
and @{$command->{'args'}->[0]->{'contents'}}) {
$basefile = Texinfo::Convert::Text::convert_to_text(
{'contents' => $command->{'args'}->[0]->{'contents'}},
{'code' => 1,
Texinfo::Convert::Text::copy_options_for_convert_text($self, 1)});
} else {
next;
}
if (defined($command->{'args'}->[4])
and $command->{'args'}->[4]->{'contents'}
and @{$command->{'args'}->[4]->{'contents'}}) {
$extension = Texinfo::Convert::Text::convert_to_text(
{'contents' => $command->{'args'}->[4]->{'contents'}},
{'code' => 1,
Texinfo::Convert::Text::copy_options_for_convert_text($self, 1)});
$extension =~ s/^\.//;
@extension = ($extension);
}
foreach my $extension (@extension, @image_files_extensions) {
my $file_name_text = "$basefile.$extension";
my ($file_name, $file_name_encoding)
= $self->encoded_input_file_name($file_name_text);
my $file = $self->Texinfo::Common::locate_include_file($file_name);
if (defined($file)) {
my $filehandle = do { local *FH };
if (open ($filehandle, $file)) {
$blob_nr++;
if ($extension eq 'txt') {
binmode($filehandle, ":encoding("
.$self->{'parser_info'}->{'input_perl_encoding'}.")")
if (defined($self->{'parser_info'}->{'input_perl_encoding'}));
}
my $file_content;
if (-z $file) {
$file_content = '';
} else {
$file_content = <$filehandle>;
}
my $encoded_file = encode_base64($file_content);
$blobs .= $encoded_file;
my $blob_len = $self->_count_bytes($encoded_file);
my $mime_type;
if ($extension_mime_mapping{lc($extension)}) {
$mime_type = $extension_mime_mapping{lc($extension)};
} else {
$mime_type = $extension_mime_mapping{''};
}
$blobs_index .= $self->ixin_element('blobentry',
[['bloblen', $blob_len], ['encoding', 'base64'],
['mimetype', $mime_type], ['filename', $file_name_text]]) ."\n";
}
}
}
#print STDERR "$basefile\n";
}
}
$blobs_index = $self->ixin_open_element('blobsindex',
[['count', $blob_nr]])
.$blobs_index.$self->ixin_close_element('blobsindex')."\n";
my @counts_attributes = (['nodeindexlen', $self->_count_bytes($nodes_index)],
['nodecounts', $node_nr],
['sectioningtreelen', $self->_count_bytes($sectioning_tree)],
['labelslen', $self->_count_bytes($labels_text)],
['blobsindexlen', $self->_count_bytes($blobs_index)]);
my $output = $self->write_or_return($result, $fh);
my $counts_text = $self->ixin_open_element('counts', \@counts_attributes);
$counts_text .= $dts_index;
$counts_text .= $floats_index;
$counts_text .= $self->ixin_close_element('counts') . "\n";
$output .= $self->write_or_return($counts_text, $fh);
$output .= $self->write_or_return($nodes_index, $fh);
$output .= $self->write_or_return($sectioning_tree, $fh);
$output .= $self->write_or_return($labels_text, $fh);
$output .= $self->write_or_return($dts_text, $fh);
$output .= $self->write_or_return($floats_text, $fh);
$output .= $self->write_or_return($blobs_index, $fh);
$output .= $self->write_or_return($document_output, $fh);
$output .= $self->write_or_return($blobs, $fh);
if ($fh and $output_file ne '-') {
Texinfo::Common::output_files_register_closed(
$self->output_files_information(), $encoded_output_file);
if (!close ($fh)) {
$self->document_error($self,
sprintf(__("error on closing %s: %s"),
$output_file, $!));
}
}
return $output;
}
1;