package C4::Charset; # Copyright (C) 2008 LibLime # # This file is part of Koha. # # Koha is free software; you can redistribute it and/or modify it under the # terms of the GNU General Public License as published by the Free Software # Foundation; either version 2 of the License, or (at your option) any later # version. # # Koha 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 # Koha; if not, write to the Free Software Foundation, Inc., 59 Temple Place, # Suite 330, Boston, MA 02111-1307 USA use strict; use warnings; use MARC::Charset qw/marc8_to_utf8/; use Text::Iconv; use C4::Debug; use Unicode::Normalize; use vars qw($VERSION @ISA @EXPORT @EXPORT_OK %EXPORT_TAGS); BEGIN { # set the version for version checking $VERSION = 3.01; require Exporter; @ISA = qw(Exporter); @EXPORT = qw( IsStringUTF8ish MarcToUTF8Record SetUTF8Flag SetMarcUnicodeFlag StripNonXmlChars ); } =head1 NAME C4::Charset - utilities for handling character set conversions. =head1 SYNOPSIS use C4::Charset; =head1 DESCRIPTION This module contains routines for dealing with character set conversions, particularly for MARC records. A variety of character encodings are in use by various MARC standards, and even more character encodings are used by non-standard MARC records. The various MARC formats generally do not do a good job of advertising a given record's character encoding, and even when a record does advertise its encoding, e.g., via the Leader/09, experience has shown that one cannot trust it. Ultimately, all MARC records are stored in Koha in UTF-8 and must be converted from whatever the source character encoding is. The goal of this module is to ensure that these conversions take place accurately. When a character conversion cannot take place, or at least not accurately, the module was provide enough information to allow user-facing code to inform the user on how to deal with the situation. =cut =head1 FUNCTIONS =head2 IsStringUTF8ish =over 4 my $is_utf8 = IsStringUTF8ish($str); =back Determines if C<$str> is valid UTF-8. This can mean one of two things: =over 2 =item * The Perl UTF-8 flag is set and the string contains valid UTF-8. =item * The Perl UTF-8 flag is B set, but the octets contain valid UTF-8. =back The function is named C instead of C because in one could be presented with a MARC blob that is not actually in UTF-8 but whose sequence of octets appears to be valid UTF-8. The rest of the MARC character conversion functions will assume that this situation occur does not very often. =cut sub IsStringUTF8ish { my $str = shift; return 1 if utf8::is_utf8($str); return utf8::decode($str); } =head2 SetUTF8Flag =over 4 my $marc_record = SetUTF8Flag($marc_record); =back This function sets the PERL UTF8 flag for data. It is required when using new_from_usmarc since MARC::File::USMARC does not handle PERL UTF8 setting. When editing unicode marc records fields and subfields, you would end up in double encoding without using this function. FIXME In my opinion, this function belongs to MARC::Record and not to this package. But since it handles charset, and MARC::Record, it finds its way in that package =cut sub SetUTF8Flag{ my ($record)=@_; return unless ($record && $record->fields()); foreach my $field ($record->fields()){ if ($field->tag()>=10){ my @subfields; foreach my $subfield ($field->subfields()){ push @subfields,($$subfield[0],NormalizeString($$subfield[1])); } my $newfield=MARC::Field->new( $field->tag(), $field->indicator(1), $field->indicator(2), @subfields ); $field->replace_with($newfield); } } } =head2 NormalizeString =over 4 my $normalized_string=NormalizeString($string); =back Given a string nfc : If you want to set NFC and not NFD transform : If you expect all the signs to be removed Sets the PERL UTF8 Flag on your initial data if need be and applies cleaning if required Returns a utf8 NFD normalized string Sample code : my $string=NormalizeString ("l'ornithoptère"); #results into ornithoptère in NFD form and sets UTF8 Flag =cut sub NormalizeString{ my ($string,$nfc,$transform)=@_; utf8::decode($string) unless (utf8::is_utf8($string)); if ($nfc){ $string= NFD($string); } else { $string=NFC($string); } if ($transform){ $string=~s/\<|\>|\^|\;|\.|\?|,|\-|\(|\)|\[|\]|\{|\}|\$|\%|\!|\*|\:|\\|\/|\&|\"|\'/ /g; #removing one letter words "d'" "l'" was changed into "d " "l " $string=~s/\b\S\b//g; $string=~s/\s+$//g; } return $string; } =head2 MarcToUTF8Record =over 4 ($marc_record, $converted_from, $errors_arrayref) = MarcToUTF8Record($marc_blob, $marc_flavour, [, $source_encoding]); =back Given a MARC blob or a C, the MARC flavour, and an optional source encoding, return a C that is converted to UTF-8. The returned C<$marc_record> is guaranteed to be in valid UTF-8, but is not guaranteed to have been converted correctly. Specifically, if C<$converted_from> is 'failed', the MARC record returned failed character conversion and had each of its non-ASCII octets changed to the Unicode replacement character. If the source encoding was not specified, this routine will try to guess it; the character encoding used for a successful conversion is returned in C<$converted_from>. =cut sub MarcToUTF8Record { my $marc = shift; my $marc_flavour = shift; my $source_encoding = shift; my $marc_record; my $marc_blob_is_utf8 = 0; if (ref($marc) eq 'MARC::Record') { my $marc_blob = $marc->as_usmarc(); $marc_blob_is_utf8 = IsStringUTF8ish($marc_blob); $marc_record = $marc; } else { # dealing with a MARC blob # remove any ersatz whitespace from the beginning and # end of the MARC blob -- these can creep into MARC # files produced by several sources -- caller really # should be doing this, however $marc =~ s/^\s+//; $marc =~ s/\s+$//; $marc_blob_is_utf8 = IsStringUTF8ish($marc); eval { $marc_record = MARC::Record->new_from_usmarc($marc); }; if ($@) { # if we fail the first time, one likely problem # is that we have a MARC21 record that says that it's # UTF-8 (Leader/09 = 'a') but contains non-UTF-8 characters. # We'll try parsing it again. substr($marc, 9, 1) = ' '; eval { $marc_record = MARC::Record->new_from_usmarc($marc); }; if ($@) { # it's hopeless; return an empty MARC::Record return MARC::Record->new(), 'failed', ['could not parse MARC blob']; } } } # If we do not know the source encoding, try some guesses # as follows: # 1. Record is UTF-8 already. # 2. If MARC flavor is MARC21, then # a. record is MARC-8 # b. record is ISO-8859-1 # 3. If MARC flavor is UNIMARC, then if (not defined $source_encoding) { if ($marc_blob_is_utf8) { # note that for MARC21 we are not bothering to check # if the Leader/09 is set to 'a' or not -- because # of problems with various ILSs (including Koha in the # past, alas), this just is not trustworthy. SetMarcUnicodeFlag($marc_record, $marc_flavour); return $marc_record, 'UTF-8', []; } else { if ($marc_flavour eq 'MARC21') { return _default_marc21_charconv_to_utf8($marc_record, $marc_flavour); } elsif ($marc_flavour =~/UNIMARC/) { return _default_unimarc_charconv_to_utf8($marc_record, $marc_flavour); } else { return _default_marc21_charconv_to_utf8($marc_record, $marc_flavour); } } } else { # caller knows the character encoding my $original_marc_record = $marc_record->clone(); my @errors; if ($source_encoding =~ /utf-?8/i) { if ($marc_blob_is_utf8) { SetMarcUnicodeFlag($marc_record, $marc_flavour); return $marc_record, 'UTF-8', []; } else { push @errors, 'specified UTF-8 => UTF-8 conversion, but record is not in UTF-8'; } } elsif ($source_encoding =~ /marc-?8/i) { @errors = _marc_marc8_to_utf8($marc_record, $marc_flavour); } elsif ($source_encoding =~ /5426/) { @errors = _marc_iso5426_to_utf8($marc_record, $marc_flavour); } else { # assume any other character encoding is for Text::Iconv @errors = _marc_to_utf8_via_text_iconv($marc_record, $marc_flavour, $source_encoding); } if (@errors) { _marc_to_utf8_replacement_char($original_marc_record, $marc_flavour); return $original_marc_record, 'failed', \@errors; } else { return $marc_record, $source_encoding, []; } } } =head2 SetMarcUnicodeFlag =over 4 SetMarcUnicodeFlag($marc_record, $marc_flavour); =back Set both the internal MARC::Record encoding flag and the appropriate Leader/09 (MARC21) or 100/26-29 (UNIMARC) to indicate that the record is in UTF-8. Note that this does B do any actual character conversion. =cut sub SetMarcUnicodeFlag { my $marc_record = shift; my $marc_flavour = shift; # || C4::Context->preference("marcflavour"); $marc_record->encoding('UTF-8'); if ($marc_flavour eq 'MARC21') { my $leader = $marc_record->leader(); substr($leader, 9, 1) = 'a'; $marc_record->leader($leader); } elsif ($marc_flavour =~/UNIMARC/) { my $string; my ($subflength,$encodingposition)=($marc_flavour=~/AUTH/?(21,9):(36,22)); $string=$marc_record->subfield( 100, "a" ); if (defined $string && length($string)==$subflength) { $string = substr $string, 0,$subflength if (length($string)>$subflength); } else { $string = POSIX::strftime( "%Y%m%d", localtime ); $string =~ s/\-//g; $string = sprintf( "%-*s", $subflength, $string ); } substr( $string, $encodingposition, 8, "frey50 " ); if ( $marc_record->subfield( 100, "a" ) ) { $marc_record->field('100')->update(a=>$string); } else { $marc_record->insert_grouped_field( MARC::Field->new( 100, '', '', "a" => $string ) ); } $debug && warn "encodage: ", substr( $marc_record->subfield(100, 'a'), $encodingposition, 8 ); } else { warn "Unrecognized marcflavour: $marc_flavour"; } } =head2 StripNonXmlChars =over 4 my $new_str = StripNonXmlChars($old_str); =back Given a string, return a copy with the characters that are illegal in XML removed. This function exists to work around a problem that can occur with badly-encoded MARC records. Specifically, if a UTF-8 MARC record also has excape (\x1b) characters, MARC::File::XML will let the escape characters pass through when as_xml() or as_xml_record() is called. The problem is that the escape character is not legal in well-formed XML documents, so when MARC::File::XML attempts to parse such a record, the XML parser will fail. Stripping such characters will allow a MARC::Record->new_from_xml() to work, at the possible risk of some data loss. =cut sub StripNonXmlChars { my $str = shift; if (!defined($str) || $str eq ""){ return ""; } $str =~ s/[^\x09\x0A\x0D\x{0020}-\x{D7FF}\x{E000}-\x{FFFD}\x{10000}-\x{10FFFF}]//g; return $str; } =head1 INTERNAL FUNCTIONS =head2 _default_marc21_charconv_to_utf8 =over 4 my ($new_marc_record, $guessed_charset) = _default_marc21_charconv_to_utf8($marc_record); =back Converts a C of unknown character set to UTF-8, first by trying a MARC-8 to UTF-8 conversion, then ISO-8859-1 to UTF-8, then a default conversion that replaces each non-ASCII character with the replacement character. The C<$guessed_charset> return value contains the character set that resulted in a conversion to valid UTF-8; note that if the MARC-8 and ISO-8859-1 conversions failed, the value of this is 'failed'. =cut sub _default_marc21_charconv_to_utf8 { my $marc_record = shift; my $marc_flavour = shift; my $trial_marc8 = $marc_record->clone(); my @all_errors = (); my @errors = _marc_marc8_to_utf8($trial_marc8, $marc_flavour); unless (@errors) { return $trial_marc8, 'MARC-8', []; } push @all_errors, @errors; my $trial_8859_1 = $marc_record->clone(); @errors = _marc_to_utf8_via_text_iconv($trial_8859_1, $marc_flavour, 'iso-8859-1'); unless (@errors) { return $trial_8859_1, 'iso-8859-1', []; # note -- we could return \@all_errors # instead if we wanted to report details # of the failed attempt at MARC-8 => UTF-8 } push @all_errors, @errors; my $default_converted = $marc_record->clone(); _marc_to_utf8_replacement_char($default_converted, $marc_flavour); return $default_converted, 'failed', \@all_errors; } =head2 _default_unimarc_charconv_to_utf8 =over 4 my ($new_marc_record, $guessed_charset) = _default_unimarc_charconv_to_utf8($marc_record); =back Converts a C of unknown character set to UTF-8, first by trying a ISO-5426 to UTF-8 conversion, then ISO-8859-1 to UTF-8, then a default conversion that replaces each non-ASCII character with the replacement character. The C<$guessed_charset> return value contains the character set that resulted in a conversion to valid UTF-8; note that if the MARC-8 and ISO-8859-1 conversions failed, the value of this is 'failed'. =cut sub _default_unimarc_charconv_to_utf8 { my $marc_record = shift; my $marc_flavour = shift; my $trial_marc8 = $marc_record->clone(); my @all_errors = (); my @errors = _marc_iso5426_to_utf8($trial_marc8, $marc_flavour); unless (@errors) { return $trial_marc8, 'iso-5426'; } push @all_errors, @errors; my $trial_8859_1 = $marc_record->clone(); @errors = _marc_to_utf8_via_text_iconv($trial_8859_1, $marc_flavour, 'iso-8859-1'); unless (@errors) { return $trial_8859_1, 'iso-8859-1'; } push @all_errors, @errors; my $default_converted = $marc_record->clone(); _marc_to_utf8_replacement_char($default_converted, $marc_flavour); return $default_converted, 'failed', \@all_errors; } =head2 _marc_marc8_to_utf8 =over 4 my @errors = _marc_marc8_to_utf8($marc_record, $marc_flavour, $source_encoding); =back Convert a C to UTF-8 in-place from MARC-8. If the conversion fails for some reason, an appropriate messages will be placed in the returned C<@errors> array. =cut sub _marc_marc8_to_utf8 { my $marc_record = shift; my $marc_flavour = shift; my $prev_ignore = MARC::Charset->ignore_errors(); MARC::Charset->ignore_errors(1); # trap warnings raised by MARC::Charset my @errors = (); local $SIG{__WARN__} = sub { my $msg = $_[0]; if ($msg =~ /MARC.Charset/) { # FIXME - purpose of this regexp is to strip out the # line reference to MARC/Charset.pm, but as it # exists probably won't work quite on Windows -- # some sort of minimal-bunch back-tracking RE # would be helpful here $msg =~ s/at [\/].*?.MARC.Charset\.pm line \d+\.\n$//; push @errors, $msg; } else { # if warning doesn't come from MARC::Charset, just # pass it on warn $msg; } }; foreach my $field ($marc_record->fields()) { if ($field->is_control_field()) { ; # do nothing -- control fields should not contain non-ASCII characters } else { my @converted_subfields; foreach my $subfield ($field->subfields()) { my $utf8sf = MARC::Charset::marc8_to_utf8($subfield->[1]); unless (IsStringUTF8ish($utf8sf)) { # Because of a bug in MARC::Charset 0.98, if the string # has (a) one or more diacritics that (b) are only in character positions # 128 to 255 inclusive, the resulting converted string is not in # UTF-8, but the legacy 8-bit encoding (e.g., ISO-8859-1). If that # occurs, upgrade the string in place. Moral of the story seems to be # that pack("U", ...) is better than chr(...) if you need to guarantee # that the resulting string is UTF-8. utf8::upgrade($utf8sf); } push @converted_subfields, $subfield->[0], $utf8sf; } $field->replace_with(MARC::Field->new( $field->tag(), $field->indicator(1), $field->indicator(2), @converted_subfields) ); } } MARC::Charset->ignore_errors($prev_ignore); SetMarcUnicodeFlag($marc_record, $marc_flavour); return @errors; } =head2 _marc_iso5426_to_utf8 =over 4 my @errors = _marc_iso5426_to_utf8($marc_record, $marc_flavour, $source_encoding); =back Convert a C to UTF-8 in-place from ISO-5426. If the conversion fails for some reason, an appropriate messages will be placed in the returned C<@errors> array. FIXME - is ISO-5426 equivalent enough to MARC-8 that C can be used instead? =cut sub _marc_iso5426_to_utf8 { my $marc_record = shift; my $marc_flavour = shift; my @errors = (); foreach my $field ($marc_record->fields()) { if ($field->is_control_field()) { ; # do nothing -- control fields should not contain non-ASCII characters } else { my @converted_subfields; foreach my $subfield ($field->subfields()) { my $utf8sf = char_decode5426($subfield->[1]); push @converted_subfields, $subfield->[0], $utf8sf; } $field->replace_with(MARC::Field->new( $field->tag(), $field->indicator(1), $field->indicator(2), @converted_subfields) ); } } SetMarcUnicodeFlag($marc_record, $marc_flavour); return @errors; } =head2 _marc_to_utf8_via_text_iconv =over 4 my @errors = _marc_to_utf8_via_text_iconv($marc_record, $marc_flavour, $source_encoding); =back Convert a C to UTF-8 in-place using the C CPAN module. Any source encoding accepted by the user's iconv installation should work. If the source encoding is not recognized on the user's server or the conversion fails for some reason, appropriate messages will be placed in the returned C<@errors> array. =cut sub _marc_to_utf8_via_text_iconv { my $marc_record = shift; my $marc_flavour = shift; my $source_encoding = shift; my @errors = (); my $decoder; eval { $decoder = Text::Iconv->new($source_encoding, 'utf8'); }; if ($@) { push @errors, "Could not initialze $source_encoding => utf8 converter: $@"; return @errors; } my $prev_raise_error = Text::Iconv->raise_error(); Text::Iconv->raise_error(1); foreach my $field ($marc_record->fields()) { if ($field->is_control_field()) { ; # do nothing -- control fields should not contain non-ASCII characters } else { my @converted_subfields; foreach my $subfield ($field->subfields()) { my $converted_value; my $conversion_ok = 1; eval { $converted_value = $decoder->convert($subfield->[1]); }; if ($@) { $conversion_ok = 0; push @errors, $@; } elsif (not defined $converted_value) { $conversion_ok = 0; push @errors, "Text::Iconv conversion failed - retval is " . $decoder->retval(); } if ($conversion_ok) { push @converted_subfields, $subfield->[0], $converted_value; } else { $converted_value = $subfield->[1]; $converted_value =~ s/[\200-\377]/\xef\xbf\xbd/g; push @converted_subfields, $subfield->[0], $converted_value; } } $field->replace_with(MARC::Field->new( $field->tag(), $field->indicator(1), $field->indicator(2), @converted_subfields) ); } } SetMarcUnicodeFlag($marc_record, $marc_flavour); Text::Iconv->raise_error($prev_raise_error); return @errors; } =head2 _marc_to_utf8_replacement_char =over 4 _marc_to_utf8_replacement_char($marc_record, $marc_flavour); =back Convert a C to UTF-8 in-place, adopting the unsatisfactory method of replacing all non-ASCII (e.g., where the eight bit is set) octet with the Unicode replacement character. This is meant as a last-ditch method, and would be best used as part of a UI that lets a cataloguer pick various character conversions until he or she finds the right one. =cut sub _marc_to_utf8_replacement_char { my $marc_record = shift; my $marc_flavour = shift; foreach my $field ($marc_record->fields()) { if ($field->is_control_field()) { ; # do nothing -- control fields should not contain non-ASCII characters } else { my @converted_subfields; foreach my $subfield ($field->subfields()) { my $value = $subfield->[1]; $value =~ s/[\200-\377]/\xef\xbf\xbd/g; push @converted_subfields, $subfield->[0], $value; } $field->replace_with(MARC::Field->new( $field->tag(), $field->indicator(1), $field->indicator(2), @converted_subfields) ); } } SetMarcUnicodeFlag($marc_record, $marc_flavour); } =head2 char_decode5426 =over 4 my $utf8string = char_decode5426($iso_5426_string); =back Converts a string from ISO-5426 to UTF-8. =cut my %chars; $chars{0xb0}=0x0101;#3/0ayn[ain] $chars{0xb1}=0x0623;#3/1alif/hamzah[alefwithhamzaabove] #$chars{0xb2}=0x00e0;#'à'; $chars{0xb2}=0x00e0;#3/2leftlowsinglequotationmark #$chars{0xb3}=0x00e7;#'ç'; $chars{0xb3}=0x00e7;#3/2leftlowsinglequotationmark # $chars{0xb4}='è'; $chars{0xb4}=0x00e8; # $chars{0xb5}='é'; $chars{0xb5}=0x00e9; $chars{0x97}=0x003c;#3/2leftlowsinglequotationmark $chars{0x98}=0x003e;#3/2leftlowsinglequotationmark $chars{0xfa}=0x0153;#oe $chars{0x81d1}=0x00b0; #### ## combined characters iso5426 $chars{0xc041}=0x1ea2; # capital a with hook above $chars{0xc045}=0x1eba; # capital e with hook above $chars{0xc049}=0x1ec8; # capital i with hook above $chars{0xc04f}=0x1ece; # capital o with hook above $chars{0xc055}=0x1ee6; # capital u with hook above $chars{0xc059}=0x1ef6; # capital y with hook above $chars{0xc061}=0x1ea3; # small a with hook above $chars{0xc065}=0x1ebb; # small e with hook above $chars{0xc069}=0x1ec9; # small i with hook above $chars{0xc06f}=0x1ecf; # small o with hook above $chars{0xc075}=0x1ee7; # small u with hook above $chars{0xc079}=0x1ef7; # small y with hook above # 4/1 grave accent $chars{0xc141}=0x00c0; # capital a with grave accent $chars{0xc145}=0x00c8; # capital e with grave accent $chars{0xc149}=0x00cc; # capital i with grave accent $chars{0xc14f}=0x00d2; # capital o with grave accent $chars{0xc155}=0x00d9; # capital u with grave accent $chars{0xc157}=0x1e80; # capital w with grave $chars{0xc159}=0x1ef2; # capital y with grave $chars{0xc161}=0x00e0; # small a with grave accent $chars{0xc165}=0x00e8; # small e with grave accent $chars{0xc169}=0x00ec; # small i with grave accent $chars{0xc16f}=0x00f2; # small o with grave accent $chars{0xc175}=0x00f9; # small u with grave accent $chars{0xc177}=0x1e81; # small w with grave $chars{0xc179}=0x1ef3; # small y with grave # 4/2 acute accent $chars{0xc241}=0x00c1; # capital a with acute accent $chars{0xc243}=0x0106; # capital c with acute accent $chars{0xc245}=0x00c9; # capital e with acute accent $chars{0xc247}=0x01f4; # capital g with acute $chars{0xc249}=0x00cd; # capital i with acute accent $chars{0xc24b}=0x1e30; # capital k with acute $chars{0xc24c}=0x0139; # capital l with acute accent $chars{0xc24d}=0x1e3e; # capital m with acute $chars{0xc24e}=0x0143; # capital n with acute accent $chars{0xc24f}=0x00d3; # capital o with acute accent $chars{0xc250}=0x1e54; # capital p with acute $chars{0xc252}=0x0154; # capital r with acute accent $chars{0xc253}=0x015a; # capital s with acute accent $chars{0xc255}=0x00da; # capital u with acute accent $chars{0xc257}=0x1e82; # capital w with acute $chars{0xc259}=0x00dd; # capital y with acute accent $chars{0xc25a}=0x0179; # capital z with acute accent $chars{0xc261}=0x00e1; # small a with acute accent $chars{0xc263}=0x0107; # small c with acute accent $chars{0xc265}=0x00e9; # small e with acute accent $chars{0xc267}=0x01f5; # small g with acute $chars{0xc269}=0x00ed; # small i with acute accent $chars{0xc26b}=0x1e31; # small k with acute $chars{0xc26c}=0x013a; # small l with acute accent $chars{0xc26d}=0x1e3f; # small m with acute $chars{0xc26e}=0x0144; # small n with acute accent $chars{0xc26f}=0x00f3; # small o with acute accent $chars{0xc270}=0x1e55; # small p with acute $chars{0xc272}=0x0155; # small r with acute accent $chars{0xc273}=0x015b; # small s with acute accent $chars{0xc275}=0x00fa; # small u with acute accent $chars{0xc277}=0x1e83; # small w with acute $chars{0xc279}=0x00fd; # small y with acute accent $chars{0xc27a}=0x017a; # small z with acute accent $chars{0xc2e1}=0x01fc; # capital ae with acute $chars{0xc2f1}=0x01fd; # small ae with acute # 4/3 circumflex accent $chars{0xc341}=0x00c2; # capital a with circumflex accent $chars{0xc343}=0x0108; # capital c with circumflex $chars{0xc345}=0x00ca; # capital e with circumflex accent $chars{0xc347}=0x011c; # capital g with circumflex $chars{0xc348}=0x0124; # capital h with circumflex $chars{0xc349}=0x00ce; # capital i with circumflex accent $chars{0xc34a}=0x0134; # capital j with circumflex $chars{0xc34f}=0x00d4; # capital o with circumflex accent $chars{0xc353}=0x015c; # capital s with circumflex $chars{0xc355}=0x00db; # capital u with circumflex $chars{0xc357}=0x0174; # capital w with circumflex $chars{0xc359}=0x0176; # capital y with circumflex $chars{0xc35a}=0x1e90; # capital z with circumflex $chars{0xc361}=0x00e2; # small a with circumflex accent $chars{0xc363}=0x0109; # small c with circumflex $chars{0xc365}=0x00ea; # small e with circumflex accent $chars{0xc367}=0x011d; # small g with circumflex $chars{0xc368}=0x0125; # small h with circumflex $chars{0xc369}=0x00ee; # small i with circumflex accent $chars{0xc36a}=0x0135; # small j with circumflex $chars{0xc36e}=0x00f1; # small n with tilde $chars{0xc36f}=0x00f4; # small o with circumflex accent $chars{0xc373}=0x015d; # small s with circumflex $chars{0xc375}=0x00fb; # small u with circumflex $chars{0xc377}=0x0175; # small w with circumflex $chars{0xc379}=0x0177; # small y with circumflex $chars{0xc37a}=0x1e91; # small z with circumflex # 4/4 tilde $chars{0xc441}=0x00c3; # capital a with tilde $chars{0xc445}=0x1ebc; # capital e with tilde $chars{0xc449}=0x0128; # capital i with tilde $chars{0xc44e}=0x00d1; # capital n with tilde $chars{0xc44f}=0x00d5; # capital o with tilde $chars{0xc455}=0x0168; # capital u with tilde $chars{0xc456}=0x1e7c; # capital v with tilde $chars{0xc459}=0x1ef8; # capital y with tilde $chars{0xc461}=0x00e3; # small a with tilde $chars{0xc465}=0x1ebd; # small e with tilde $chars{0xc469}=0x0129; # small i with tilde $chars{0xc46e}=0x00f1; # small n with tilde $chars{0xc46f}=0x00f5; # small o with tilde $chars{0xc475}=0x0169; # small u with tilde $chars{0xc476}=0x1e7d; # small v with tilde $chars{0xc479}=0x1ef9; # small y with tilde # 4/5 macron $chars{0xc541}=0x0100; # capital a with macron $chars{0xc545}=0x0112; # capital e with macron $chars{0xc547}=0x1e20; # capital g with macron $chars{0xc549}=0x012a; # capital i with macron $chars{0xc54f}=0x014c; # capital o with macron $chars{0xc555}=0x016a; # capital u with macron $chars{0xc561}=0x0101; # small a with macron $chars{0xc565}=0x0113; # small e with macron $chars{0xc567}=0x1e21; # small g with macron $chars{0xc569}=0x012b; # small i with macron $chars{0xc56f}=0x014d; # small o with macron $chars{0xc575}=0x016b; # small u with macron $chars{0xc572}=0x0159; # small r with macron $chars{0xc5e1}=0x01e2; # capital ae with macron $chars{0xc5f1}=0x01e3; # small ae with macron # 4/6 breve $chars{0xc641}=0x0102; # capital a with breve $chars{0xc645}=0x0114; # capital e with breve $chars{0xc647}=0x011e; # capital g with breve $chars{0xc649}=0x012c; # capital i with breve $chars{0xc64f}=0x014e; # capital o with breve $chars{0xc655}=0x016c; # capital u with breve $chars{0xc661}=0x0103; # small a with breve $chars{0xc665}=0x0115; # small e with breve $chars{0xc667}=0x011f; # small g with breve $chars{0xc669}=0x012d; # small i with breve $chars{0xc66f}=0x014f; # small o with breve $chars{0xc675}=0x016d; # small u with breve # 4/7 dot above $chars{0xc7b0}=0x01e1; # Ain with dot above $chars{0xc742}=0x1e02; # capital b with dot above $chars{0xc743}=0x010a; # capital c with dot above $chars{0xc744}=0x1e0a; # capital d with dot above $chars{0xc745}=0x0116; # capital e with dot above $chars{0xc746}=0x1e1e; # capital f with dot above $chars{0xc747}=0x0120; # capital g with dot above $chars{0xc748}=0x1e22; # capital h with dot above $chars{0xc749}=0x0130; # capital i with dot above $chars{0xc74d}=0x1e40; # capital m with dot above $chars{0xc74e}=0x1e44; # capital n with dot above $chars{0xc750}=0x1e56; # capital p with dot above $chars{0xc752}=0x1e58; # capital r with dot above $chars{0xc753}=0x1e60; # capital s with dot above $chars{0xc754}=0x1e6a; # capital t with dot above $chars{0xc757}=0x1e86; # capital w with dot above $chars{0xc758}=0x1e8a; # capital x with dot above $chars{0xc759}=0x1e8e; # capital y with dot above $chars{0xc75a}=0x017b; # capital z with dot above $chars{0xc761}=0x0227; # small b with dot above $chars{0xc762}=0x1e03; # small b with dot above $chars{0xc763}=0x010b; # small c with dot above $chars{0xc764}=0x1e0b; # small d with dot above $chars{0xc765}=0x0117; # small e with dot above $chars{0xc766}=0x1e1f; # small f with dot above $chars{0xc767}=0x0121; # small g with dot above $chars{0xc768}=0x1e23; # small h with dot above $chars{0xc76d}=0x1e41; # small m with dot above $chars{0xc76e}=0x1e45; # small n with dot above $chars{0xc770}=0x1e57; # small p with dot above $chars{0xc772}=0x1e59; # small r with dot above $chars{0xc773}=0x1e61; # small s with dot above $chars{0xc774}=0x1e6b; # small t with dot above $chars{0xc777}=0x1e87; # small w with dot above $chars{0xc778}=0x1e8b; # small x with dot above $chars{0xc779}=0x1e8f; # small y with dot above $chars{0xc77a}=0x017c; # small z with dot above # 4/8 trema, diaresis $chars{0xc820}=0x00a8; # diaeresis $chars{0xc841}=0x00c4; # capital a with diaeresis $chars{0xc845}=0x00cb; # capital e with diaeresis $chars{0xc848}=0x1e26; # capital h with diaeresis $chars{0xc849}=0x00cf; # capital i with diaeresis $chars{0xc84f}=0x00d6; # capital o with diaeresis $chars{0xc855}=0x00dc; # capital u with diaeresis $chars{0xc857}=0x1e84; # capital w with diaeresis $chars{0xc858}=0x1e8c; # capital x with diaeresis $chars{0xc859}=0x0178; # capital y with diaeresis $chars{0xc861}=0x00e4; # small a with diaeresis $chars{0xc865}=0x00eb; # small e with diaeresis $chars{0xc868}=0x1e27; # small h with diaeresis $chars{0xc869}=0x00ef; # small i with diaeresis $chars{0xc86f}=0x00f6; # small o with diaeresis $chars{0xc874}=0x1e97; # small t with diaeresis $chars{0xc875}=0x00fc; # small u with diaeresis $chars{0xc877}=0x1e85; # small w with diaeresis $chars{0xc878}=0x1e8d; # small x with diaeresis $chars{0xc879}=0x00ff; # small y with diaeresis # 4/9 umlaut $chars{0xc920}=0x00a8; # [diaeresis] $chars{0xc961}=0x00e4; # a with umlaut $chars{0xc965}=0x00eb; # e with umlaut $chars{0xc969}=0x00ef; # i with umlaut $chars{0xc96f}=0x00f6; # o with umlaut $chars{0xc975}=0x00fc; # u with umlaut # 4/10 circle above $chars{0xca41}=0x00c5; # capital a with ring above $chars{0xcaad}=0x016e; # capital u with ring above $chars{0xca61}=0x00e5; # small a with ring above $chars{0xca75}=0x016f; # small u with ring above $chars{0xca77}=0x1e98; # small w with ring above $chars{0xca79}=0x1e99; # small y with ring above # 4/11 high comma off centre # 4/12 inverted high comma centred # 4/13 double acute accent $chars{0xcd4f}=0x0150; # capital o with double acute $chars{0xcd55}=0x0170; # capital u with double acute $chars{0xcd6f}=0x0151; # small o with double acute $chars{0xcd75}=0x0171; # small u with double acute # 4/14 horn $chars{0xce54}=0x01a0; # latin capital letter o with horn $chars{0xce55}=0x01af; # latin capital letter u with horn $chars{0xce74}=0x01a1; # latin small letter o with horn $chars{0xce75}=0x01b0; # latin small letter u with horn # 4/15 caron (hacek $chars{0xcf41}=0x01cd; # capital a with caron $chars{0xcf43}=0x010c; # capital c with caron $chars{0xcf44}=0x010e; # capital d with caron $chars{0xcf45}=0x011a; # capital e with caron $chars{0xcf47}=0x01e6; # capital g with caron $chars{0xcf49}=0x01cf; # capital i with caron $chars{0xcf4b}=0x01e8; # capital k with caron $chars{0xcf4c}=0x013d; # capital l with caron $chars{0xcf4e}=0x0147; # capital n with caron $chars{0xcf4f}=0x01d1; # capital o with caron $chars{0xcf52}=0x0158; # capital r with caron $chars{0xcf53}=0x0160; # capital s with caron $chars{0xcf54}=0x0164; # capital t with caron $chars{0xcf55}=0x01d3; # capital u with caron $chars{0xcf5a}=0x017d; # capital z with caron $chars{0xcf61}=0x01ce; # small a with caron $chars{0xcf63}=0x010d; # small c with caron $chars{0xcf64}=0x010f; # small d with caron $chars{0xcf65}=0x011b; # small e with caron $chars{0xcf67}=0x01e7; # small g with caron $chars{0xcf69}=0x01d0; # small i with caron $chars{0xcf6a}=0x01f0; # small j with caron $chars{0xcf6b}=0x01e9; # small k with caron $chars{0xcf6c}=0x013e; # small l with caron $chars{0xcf6e}=0x0148; # small n with caron $chars{0xcf6f}=0x01d2; # small o with caron $chars{0xcf72}=0x0159; # small r with caron $chars{0xcf73}=0x0161; # small s with caron $chars{0xcf74}=0x0165; # small t with caron $chars{0xcf75}=0x01d4; # small u with caron $chars{0xcf7a}=0x017e; # small z with caron # 5/0 cedilla $chars{0xd020}=0x00b8; # cedilla $chars{0xd043}=0x00c7; # capital c with cedilla $chars{0xd044}=0x1e10; # capital d with cedilla $chars{0xd047}=0x0122; # capital g with cedilla $chars{0xd048}=0x1e28; # capital h with cedilla $chars{0xd04b}=0x0136; # capital k with cedilla $chars{0xd04c}=0x013b; # capital l with cedilla $chars{0xd04e}=0x0145; # capital n with cedilla $chars{0xd052}=0x0156; # capital r with cedilla $chars{0xd053}=0x015e; # capital s with cedilla $chars{0xd054}=0x0162; # capital t with cedilla $chars{0xd063}=0x00e7; # small c with cedilla $chars{0xd064}=0x1e11; # small d with cedilla $chars{0xd065}=0x0119; # small e with cedilla $chars{0xd067}=0x0123; # small g with cedilla $chars{0xd068}=0x1e29; # small h with cedilla $chars{0xd06b}=0x0137; # small k with cedilla $chars{0xd06c}=0x013c; # small l with cedilla $chars{0xd06e}=0x0146; # small n with cedilla $chars{0xd072}=0x0157; # small r with cedilla $chars{0xd073}=0x015f; # small s with cedilla $chars{0xd074}=0x0163; # small t with cedilla # 5/1 rude # 5/2 hook to left # 5/3 ogonek (hook to right $chars{0xd320}=0x02db; # ogonek $chars{0xd341}=0x0104; # capital a with ogonek $chars{0xd345}=0x0118; # capital e with ogonek $chars{0xd349}=0x012e; # capital i with ogonek $chars{0xd34f}=0x01ea; # capital o with ogonek $chars{0xd355}=0x0172; # capital u with ogonek $chars{0xd361}=0x0105; # small a with ogonek $chars{0xd365}=0x0119; # small e with ogonek $chars{0xd369}=0x012f; # small i with ogonek $chars{0xd36f}=0x01eb; # small o with ogonek $chars{0xd375}=0x0173; # small u with ogonek # 5/4 circle below $chars{0xd441}=0x1e00; # capital a with ring below $chars{0xd461}=0x1e01; # small a with ring below # 5/5 half circle below $chars{0xf948}=0x1e2a; # capital h with breve below $chars{0xf968}=0x1e2b; # small h with breve below # 5/6 dot below $chars{0xd641}=0x1ea0; # capital a with dot below $chars{0xd642}=0x1e04; # capital b with dot below $chars{0xd644}=0x1e0c; # capital d with dot below $chars{0xd645}=0x1eb8; # capital e with dot below $chars{0xd648}=0x1e24; # capital h with dot below $chars{0xd649}=0x1eca; # capital i with dot below $chars{0xd64b}=0x1e32; # capital k with dot below $chars{0xd64c}=0x1e36; # capital l with dot below $chars{0xd64d}=0x1e42; # capital m with dot below $chars{0xd64e}=0x1e46; # capital n with dot below $chars{0xd64f}=0x1ecc; # capital o with dot below $chars{0xd652}=0x1e5a; # capital r with dot below $chars{0xd653}=0x1e62; # capital s with dot below $chars{0xd654}=0x1e6c; # capital t with dot below $chars{0xd655}=0x1ee4; # capital u with dot below $chars{0xd656}=0x1e7e; # capital v with dot below $chars{0xd657}=0x1e88; # capital w with dot below $chars{0xd659}=0x1ef4; # capital y with dot below $chars{0xd65a}=0x1e92; # capital z with dot below $chars{0xd661}=0x1ea1; # small a with dot below $chars{0xd662}=0x1e05; # small b with dot below $chars{0xd664}=0x1e0d; # small d with dot below $chars{0xd665}=0x1eb9; # small e with dot below $chars{0xd668}=0x1e25; # small h with dot below $chars{0xd669}=0x1ecb; # small i with dot below $chars{0xd66b}=0x1e33; # small k with dot below $chars{0xd66c}=0x1e37; # small l with dot below $chars{0xd66d}=0x1e43; # small m with dot below $chars{0xd66e}=0x1e47; # small n with dot below $chars{0xd66f}=0x1ecd; # small o with dot below $chars{0xd672}=0x1e5b; # small r with dot below $chars{0xd673}=0x1e63; # small s with dot below $chars{0xd674}=0x1e6d; # small t with dot below $chars{0xd675}=0x1ee5; # small u with dot below $chars{0xd676}=0x1e7f; # small v with dot below $chars{0xd677}=0x1e89; # small w with dot below $chars{0xd679}=0x1ef5; # small y with dot below $chars{0xd67a}=0x1e93; # small z with dot below # 5/7 double dot below $chars{0xd755}=0x1e72; # capital u with diaeresis below $chars{0xd775}=0x1e73; # small u with diaeresis below # 5/8 underline $chars{0xd820}=0x005f; # underline # 5/9 double underline $chars{0xd920}=0x2017; # double underline # 5/10 small low vertical bar $chars{0xda20}=0x02cc; # # 5/11 circumflex below # 5/12 (this position shall not be used) # 5/13 left half of ligature sign and of double tilde # 5/14 right half of ligature sign # 5/15 right half of double tilde # map {printf "%x :%x\n",$_,$chars{$_};}keys %chars; sub char_decode5426 { my ( $string) = @_; my $result; my @data = unpack("C*", $string); my @characters; my $length=scalar(@data); for (my $i = 0; $i < scalar(@data); $i++) { my $char= $data[$i]; if ($char >= 0x00 && $char <= 0x7F){ #IsAscii push @characters,$char unless ($char<0x02 ||$char== 0x0F); }elsif (($char >= 0xC0 && $char <= 0xDF)) { #Combined Char my $convchar ; if ($chars{$char*256+$data[$i+1]}) { $convchar= $chars{$char * 256 + $data[$i+1]}; $i++; # printf "char %x $char, char to convert %x , converted %x\n",$char,$char * 256 + $data[$i - 1],$convchar; } elsif ($chars{$char}) { $convchar= $chars{$char}; # printf "0xC char %x, converted %x\n",$char,$chars{$char}; }else { $convchar=$char; } push @characters,$convchar; } else { my $convchar; if ($chars{$char}) { $convchar= $chars{$char}; # printf "char %x, converted %x\n",$char,$chars{$char}; }else { # printf "char %x $char\n",$char; $convchar=$char; } push @characters,$convchar; } } $result=pack "U*",@characters; # $result=~s/\x01//; # $result=~s/\x00//; $result=~s/\x0f//; $result=~s/\x1b.//; $result=~s/\x0e//; $result=~s/\x1b\x5b//; # map{printf "%x",$_} @characters; # printf "\n"; return $result; } 1; =head1 AUTHOR Koha Development Team Galen Charlton =cut