/usr/share/perl5/MARC/Charset.pm is in libmarc-charset-perl 1.35-2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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use strict;
use warnings;
our $VERSION = '1.35';
use base qw(Exporter);
our @EXPORT_OK = qw(marc8_to_utf8 utf8_to_marc8);
use Unicode::Normalize;
use Encode 'decode';
use charnames ':full';
use MARC::Charset::Table;
use MARC::Charset::Constants qw(:all);
=head1 NAME
MARC::Charset - convert MARC-8 encoded strings to UTF-8
=head1 SYNOPSIS
# import the marc8_to_utf8 function
use MARC::Charset 'marc8_to_utf8';
# prepare STDOUT for utf8
binmode(STDOUT, 'utf8');
# print out some marc8 as utf8
print marc8_to_utf8($marc8_string);
=head1 DESCRIPTION
MARC::Charset allows you to turn MARC-8 encoded strings into UTF-8
strings. MARC-8 is a single byte character encoding that predates unicode, and
allows you to put non-Roman scripts in MARC bibliographic records.
http://www.loc.gov/marc/specifications/spechome.html
=head1 EXPORTS
=cut
# get the mapping table
our $table = MARC::Charset::Table->new();
# set default character sets
# these are viewable at the package level
# in case someone wants to set them
our $DEFAULT_G0 = ASCII_DEFAULT;
our $DEFAULT_G1 = EXTENDED_LATIN;
our %SPECIAL_DECOMPOSABLE = (
chr(0x01a0) => chr(0x01a0), # uppercase o-hook
chr(0x01af) => chr(0x01af), # uppercase u-hook
chr(0x01a1) => chr(0x01a1), # lowercase o-hook
chr(0x01b0) => chr(0x01b0), # lowercase u-hook
chr(0x1ef1) => chr(0x01b0) . chr(0x0323), # lowercase u-hook with dot below
chr(0x1ee9) => chr(0x01b0) . chr(0x0301), # lowercase u-hook with acute
# Arabic to not decompose
chr(0x0622) => chr(0x0622),
chr(0x0623) => chr(0x0623),
chr(0x0624) => chr(0x0624),
chr(0x0625) => chr(0x0625),
chr(0x0626) => chr(0x0626),
chr(0x0649) => chr(0x0649),
chr(0x0671) => chr(0x0671),
chr(0x06c0) => chr(0x06c0),
chr(0x06D3) => chr(0x06D3),
# Cyrillic to not decompose
chr(0x0439) => chr(0x0439),
chr(0x0419) => chr(0x0419),
chr(0x0453) => chr(0x0453),
chr(0x0451) => chr(0x0451),
chr(0x0457) => chr(0x0457),
chr(0x045C) => chr(0x045C),
chr(0x045E) => chr(0x045E),
chr(0x0403) => chr(0x0403),
chr(0x0401) => chr(0x0401),
chr(0x0407) => chr(0x0407),
chr(0x040C) => chr(0x040C),
chr(0x040E) => chr(0x040E),
# Katakana to not decompose
chr(0x309B) => chr(0x309B),
chr(0x309C) => chr(0x309C),
chr(0x30AC) => chr(0x30AC),
chr(0x30AE) => chr(0x30AE),
chr(0x30B0) => chr(0x30B0),
chr(0x30B2) => chr(0x30B2),
chr(0x30B4) => chr(0x30B4),
chr(0x30B6) => chr(0x30B6),
chr(0x30B8) => chr(0x30B8),
chr(0x30BA) => chr(0x30BA),
chr(0x30BC) => chr(0x30BC),
chr(0x30BE) => chr(0x30BE),
chr(0x30C0) => chr(0x30C0),
chr(0x30C2) => chr(0x30C2),
chr(0x30C5) => chr(0x30C5),
chr(0x30C7) => chr(0x30C7),
chr(0x30C9) => chr(0x30C9),
chr(0x30D0) => chr(0x30D0),
chr(0x30D1) => chr(0x30D1),
chr(0x30D3) => chr(0x30D3),
chr(0x30D4) => chr(0x30D4),
chr(0x30D6) => chr(0x30D6),
chr(0x30D7) => chr(0x30D7),
chr(0x30D9) => chr(0x30D9),
chr(0x30DA) => chr(0x30DA),
chr(0x30DC) => chr(0x30DC),
chr(0x30DD) => chr(0x30DD),
chr(0x30F4) => chr(0x30F4),
chr(0x30F7) => chr(0x30F7),
chr(0x30F8) => chr(0x30F8),
chr(0x30F9) => chr(0x30F9),
chr(0x30FA) => chr(0x30FA),
chr(0x30FE) => chr(0x30FE),
chr(0x30FF) => chr(0x30FF),
);
=head2 ignore_errors()
Tells MARC::Charset whether or not to ignore all encoding errors, and
returns the current setting. This is helpful if you have records that
contain both MARC8 and UNICODE characters.
my $ignore = MARC::Charset->ignore_errors();
MARC::Charset->ignore_errors(1); # ignore errors
MARC::Charset->ignore_errors(0); # DO NOT ignore errors
=cut
our $_ignore_errors = 0;
sub ignore_errors {
my ($self,$i) = @_;
$_ignore_errors = $i if (defined($i));
return $_ignore_errors;
}
=head2 assume_unicode()
Tells MARC::Charset whether or not to assume UNICODE when an error is
encountered in ignore_errors mode and returns the current setting.
This is helpful if you have records that contain both MARC8 and UNICODE
characters.
my $setting = MARC::Charset->assume_unicode();
MARC::Charset->assume_unicode(1); # assume characters are unicode (utf-8)
MARC::Charset->assume_unicode(0); # DO NOT assume characters are unicode
=cut
our $_assume = '';
sub assume_unicode {
my ($self,$i) = @_;
$_assume = 'utf8' if (defined($i) and $i);
return 1 if ($_assume eq 'utf8');
}
=head2 assume_encoding()
Tells MARC::Charset whether or not to assume a specific encoding when an error
is encountered in ignore_errors mode and returns the current setting. This
is helpful if you have records that contain both MARC8 and other characters.
my $setting = MARC::Charset->assume_encoding();
MARC::Charset->assume_encoding('cp850'); # assume characters are cp850
MARC::Charset->assume_encoding(''); # DO NOT assume any encoding
=cut
sub assume_encoding {
my ($self,$i) = @_;
$_assume = $i if (defined($i));
return $_assume;
}
# place holders for working graphical character sets
my $G0;
my $G1;
=head2 marc8_to_utf8()
Converts a MARC-8 encoded string to UTF-8.
my $utf8 = marc8_to_utf8($marc8);
If you'd like to ignore errors pass in a true value as the 2nd
parameter or call MARC::Charset->ignore_errors() with a true
value:
my $utf8 = marc8_to_utf8($marc8, 'ignore-errors');
or
MARC::Charset->ignore_errors(1);
my $utf8 = marc8_to_utf8($marc8);
=cut
sub marc8_to_utf8
{
my ($marc8, $ignore_errors) = @_;
reset_charsets();
$ignore_errors = $_ignore_errors if (!defined($ignore_errors));
# holder for our utf8
my $utf8 = '';
my $index = 0;
my $length = length($marc8);
my $combining = '';
CHAR_LOOP: while ($index < $length)
{
# whitespace, line feeds and carriage returns just get added on unmolested
if (substr($marc8, $index, 1) =~ m/(\s+|\x0A+|\x0D+)/so)
{
$utf8 .= $1;
$index += 1;
next CHAR_LOOP;
}
# look for any escape sequences
my $new_index = _process_escape(\$marc8, $index, $length);
if ($new_index > $index)
{
$index = $new_index;
next CHAR_LOOP;
}
my $found;
CHARSET_LOOP: foreach my $charset ($G0, $G1)
{
# cjk characters are a string of three chars
my $char_size = $charset eq CJK ? 3 : 1;
# extract the next code point to examine
my $chunk = substr($marc8, $index, $char_size);
my $code;
if ($char_size == 1) {
my $codepoint = ord($chunk);
if ($codepoint >= 0x21 && $codepoint <= 0x7e) {
# character is G0
$code = $table->lookup_by_marc8($G0, $chunk);
} elsif ($codepoint >= 0xa1 && $codepoint <= 0xfe) {
# character is G1, map it to G0 before atttempting lookup
$code = $table->lookup_by_marc8($G1, chr($codepoint - 128));
} elsif ($codepoint >= 0x88 && $codepoint <= 0x8e) {
# in the C1 range used by MARC8
$code = $table->lookup_by_marc8(EXTENDED_LATIN, $chunk);
} elsif ($codepoint >= 0x1b && $codepoint <= 0x1f) {
# in the C0 range used by MARC8
$code = $table->lookup_by_marc8(BASIC_LATIN, $chunk);
}
} else {
# EACC doesn't need G0/G1 conversion
$code = $table->lookup_by_marc8($charset, $chunk);
}
# try the next character set if no mapping was found
next CHARSET_LOOP if ! $code;
$found = 1;
# gobble up all combining characters for appending later
# this is necessary because combinging characters precede
# the character they modify in MARC-8, whereas they follow
# the character they modify in UTF-8.
if ($code->is_combining())
{
# If the current character is the right half of a MARC-8
# ligature or double tilde, we don't want to include
# it in the UTF-8 output. For the explanation, see
# http://lcweb2.loc.gov/diglib/codetables/45.html#Note1
# Note that if the MARC-8 string includes a right half
# without the corresponding left half, the right half will
# get dropped instead of being mapped to its UCS alternate.
# That's OK since including only one half of a double diacritic
# was presumably a mistake to begin with.
unless (defined $code->marc_left_half())
{
$combining .= $code->char_value();
}
}
else
{
$utf8 .= $code->char_value() . $combining;
$combining = '';
}
$index += $char_size;
next CHAR_LOOP;
}
if (!$found)
{
warn(sprintf("no mapping found for [0x\%X] at position $index in $marc8 ".
"g0=".MARC::Charset::Constants::charset_name($G0) . " " .
"g1=".MARC::Charset::Constants::charset_name($G1), unpack('C',substr($marc8,$index,1))));
if (!$ignore_errors)
{
reset_charsets();
return;
}
if ($_assume)
{
reset_charsets();
return NFC(decode($_assume => $marc8));
}
$index += 1;
}
}
# return the utf8
reset_charsets();
utf8::upgrade($utf8);
return $utf8;
}
=head2 utf8_to_marc8()
Will attempt to translate utf8 into marc8.
my $marc8 = utf8_to_marc8($utf8);
If you'd like to ignore errors, or characters that can't be
converted to marc8 then pass in a true value as the second
parameter:
my $marc8 = utf8_to_marc8($utf8, 'ignore-errors');
or
MARC::Charset->ignore_errors(1);
my $utf8 = marc8_to_utf8($marc8);
=cut
sub utf8_to_marc8
{
my ($utf8, $ignore_errors) = @_;
reset_charsets();
$ignore_errors = $_ignore_errors if (!defined($ignore_errors));
# decompose combined characters
$utf8 = join('',
map { exists $SPECIAL_DECOMPOSABLE{$_} ? $SPECIAL_DECOMPOSABLE{$_} : NFD($_) }
split //, $utf8
);
my $len = length($utf8);
my $marc8 = '';
for (my $i=0; $i<$len; $i++)
{
my $slice = substr($utf8, $i, 1);
# spaces are copied from utf8 into marc8
if ($slice eq ' ')
{
$marc8 .= ' ';
next;
}
# try to find the code point in our mapping table
my $code = $table->lookup_by_utf8($slice);
if (! $code)
{
warn("no mapping found at position $i in $utf8");
reset_charsets() and return unless $ignore_errors;
}
# if it's a combining character move it around
if ($code->is_combining())
{
my $prev = chop($marc8);
if ($code->marc_left_half())
{
# don't add the MARC-8 right half character
# if it was already inserted when the double
# diacritic was converted from UTF-8
if ($code->marc_value() eq substr($marc8, -1, 1))
{
$marc8 .= $prev;
next;
}
}
$marc8 .= $code->marc_value() . $prev;
if ($code->marc_right_half())
{
$marc8 .= chr(hex($code->marc_right_half()));
}
next;
}
# look to see if we need to escape to a new G0 charset
my $charset_value = $code->charset_value();
if ($code->default_charset_group() eq 'G0'
and $G0 ne $charset_value)
{
if ($G0 eq ASCII_DEFAULT and $charset_value eq BASIC_LATIN)
{
# don't bother escaping, they're functionally the same
}
else
{
$marc8 .= $code->get_escape();
$G0 = $charset_value;
}
}
# look to see if we need to escape to a new G1 charset
elsif ($code->default_charset_group() eq 'G1'
and $G1 ne $charset_value)
{
$marc8 .= $code->get_escape();
$G1 = $charset_value;
}
$marc8 .= $code->marc_value();
}
# escape back to default G0 if necessary
if ($G0 ne $DEFAULT_G0)
{
if ($DEFAULT_G0 eq ASCII_DEFAULT) { $marc8 .= ESCAPE . ASCII_DEFAULT; }
elsif ($DEFAULT_G0 eq CJK) { $marc8 .= ESCAPE . MULTI_G0_A . CJK; }
else { $marc8 .= ESCAPE . SINGLE_G0_A . $DEFAULT_G0; }
}
# escape back to default G1 if necessary
if ($G1 ne $DEFAULT_G1)
{
if ($DEFAULT_G1 eq CJK) { $marc8 .= ESCAPE . MULTI_G1_A . $DEFAULT_G1; }
else { $marc8 .= ESCAPE . SINGLE_G1_A . $DEFAULT_G1; }
}
return $marc8;
}
=head1 DEFAULT CHARACTER SETS
If you need to alter the default character sets you can set the
$MARC::Charset::DEFAULT_G0 and $MARC::Charset::DEFAULT_G1 variables to the
appropriate character set code:
use MARC::Charset::Constants qw(:all);
$MARC::Charset::DEFAULT_G0 = BASIC_ARABIC;
$MARC::Charset::DEFAULT_G1 = EXTENDED_ARABIC;
=head1 SEE ALSO
=over 4
=item * L<MARC::Charset::Constant>
=item * L<MARC::Charset::Table>
=item * L<MARC::Charset::Code>
=item * L<MARC::Charset::Compiler>
=item * L<MARC::Record>
=item * L<MARC::XML>
=back
=head1 AUTHOR
Ed Summers (ehs@pobox.com)
=cut
sub _process_escape
{
## this stuff is kind of scary ... for an explanation of what is
## going on here check out the MARC-8 specs at LC.
## http://lcweb.loc.gov/marc/specifications/speccharmarc8.html
my ($str_ref, $left, $right) = @_;
# first char needs to be an escape or else this isn't an escape sequence
return $left unless substr($$str_ref, $left, 1) eq ESCAPE;
## if we don't have at least one character after the escape
## then this can't be a character escape sequence
return $left if ($left+1 >= $right);
## pull off the first escape
my $esc_char_1 = substr($$str_ref, $left+1, 1);
## the first method of escaping to small character sets
if ( $esc_char_1 eq GREEK_SYMBOLS
or $esc_char_1 eq SUBSCRIPTS
or $esc_char_1 eq SUPERSCRIPTS
or $esc_char_1 eq ASCII_DEFAULT)
{
$G0 = $esc_char_1;
return $left+2;
}
## the second more complicated method of escaping to bigger charsets
return $left if $left+2 >= $right;
my $esc_char_2 = substr($$str_ref, $left+2, 1);
my $esc_chars = $esc_char_1 . $esc_char_2;
if ($esc_char_1 eq SINGLE_G0_A
or $esc_char_1 eq SINGLE_G0_B)
{
$G0 = $esc_char_2;
return $left+3;
}
elsif ($esc_char_1 eq SINGLE_G1_A
or $esc_char_1 eq SINGLE_G1_B)
{
$G1 = $esc_char_2;
return $left+3;
}
elsif ( $esc_char_1 eq MULTI_G0_A ) {
$G0 = $esc_char_2;
return $left+3;
}
elsif ($esc_chars eq MULTI_G0_B
and ($left+3 < $right))
{
$G0 = substr($$str_ref, $left+3, 1);
return $left+4;
}
elsif (($esc_chars eq MULTI_G1_A or $esc_chars eq MULTI_G1_B)
and ($left + 3 < $right))
{
$G1 = substr($$str_ref, $left+3, 1);
return $left+4;
}
# we should never get here
warn("seem to have fallen through in _process_escape()");
return $left;
}
sub reset_charsets
{
$G0 = $DEFAULT_G0;
$G1 = $DEFAULT_G1;
}
1;
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