diff options
Diffstat (limited to 'Master/tlpkg/tlperl/lib/Encode')
30 files changed, 4827 insertions, 0 deletions
diff --git a/Master/tlpkg/tlperl/lib/Encode/Alias.pm b/Master/tlpkg/tlperl/lib/Encode/Alias.pm new file mode 100644 index 00000000000..c0bbf69f469 --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/Alias.pm @@ -0,0 +1,341 @@ +package Encode::Alias; +use strict; +no warnings 'redefine'; +use Encode; +our $VERSION = do { my @r = (q$Revision: 2.4 $ =~ /\d+/g); sprintf "%d."."%02d" x $#r, @r }; +sub DEBUG () { 0 } + +use base qw(Exporter); + +# Public, encouraged API is exported by default + +our @EXPORT = + qw ( + define_alias + find_alias + ); + +our @Alias; # ordered matching list +our %Alias; # cached known aliases + +sub find_alias{ + my $class = shift; + my $find = shift; + unless (exists $Alias{$find}) { + $Alias{$find} = undef; # Recursion guard + for (my $i=0; $i < @Alias; $i += 2){ + my $alias = $Alias[$i]; + my $val = $Alias[$i+1]; + my $new; + if (ref($alias) eq 'Regexp' && $find =~ $alias){ + DEBUG and warn "eval $val"; + $new = eval $val; + DEBUG and $@ and warn "$val, $@"; + }elsif (ref($alias) eq 'CODE'){ + DEBUG and warn "$alias", "->", "($find)"; + $new = $alias->($find); + }elsif (lc($find) eq lc($alias)){ + $new = $val; + } + if (defined($new)){ + next if $new eq $find; # avoid (direct) recursion on bugs + DEBUG and warn "$alias, $new"; + my $enc = (ref($new)) ? $new : Encode::find_encoding($new); + if ($enc){ + $Alias{$find} = $enc; + last; + } + } + } + # case insensitive search when canonical is not in all lowercase + # RT ticket #7835 + unless ($Alias{$find}){ + my $lcfind = lc($find); + for my $name (keys %Encode::Encoding, keys %Encode::ExtModule){ + $lcfind eq lc($name) or next; + $Alias{$find} = Encode::find_encoding($name); + DEBUG and warn "$find => $name"; + } + } + } + if (DEBUG){ + my $name; + if (my $e = $Alias{$find}){ + $name = $e->name; + }else{ + $name = ""; + } + warn "find_alias($class, $find)->name = $name"; + } + return $Alias{$find}; +} + +sub define_alias{ + while (@_){ + my ($alias,$name) = splice(@_,0,2); + unshift(@Alias, $alias => $name); # newer one has precedence + if (ref($alias)){ + # clear %Alias cache to allow overrides + my @a = keys %Alias; + for my $k (@a){ + if (ref($alias) eq 'Regexp' && $k =~ $alias){ + DEBUG and warn "delete \$Alias\{$k\}"; + delete $Alias{$k}; + } + elsif (ref($alias) eq 'CODE'){ + DEBUG and warn "delete \$Alias\{$k\}"; + delete $Alias{$alias->($name)}; + } + } + }else{ + DEBUG and warn "delete \$Alias\{$alias\}"; + delete $Alias{$alias}; + } + } +} + +# Allow latin-1 style names as well +# 0 1 2 3 4 5 6 7 8 9 10 +our @Latin2iso = ( 0, 1, 2, 3, 4, 9, 10, 13, 14, 15, 16 ); +# Allow winlatin1 style names as well +our %Winlatin2cp = ( + 'latin1' => 1252, + 'latin2' => 1250, + 'cyrillic' => 1251, + 'greek' => 1253, + 'turkish' => 1254, + 'hebrew' => 1255, + 'arabic' => 1256, + 'baltic' => 1257, + 'vietnamese' => 1258, + ); + +init_aliases(); + +sub undef_aliases{ + @Alias = (); + %Alias = (); +} + +sub init_aliases +{ + undef_aliases(); + # Try all-lower-case version should all else fails + define_alias( qr/^(.*)$/ => '"\L$1"' ); + + # UTF/UCS stuff + define_alias( qr/^UTF-?7$/i => '"UTF-7"'); + define_alias( qr/^UCS-?2-?LE$/i => '"UCS-2LE"' ); + define_alias( qr/^UCS-?2-?(BE)?$/i => '"UCS-2BE"', + qr/^UCS-?4-?(BE|LE)?$/i => 'uc("UTF-32$1")', + qr/^iso-10646-1$/i => '"UCS-2BE"' ); + define_alias( qr/^UTF-?(16|32)-?BE$/i => '"UTF-$1BE"', + qr/^UTF-?(16|32)-?LE$/i => '"UTF-$1LE"', + qr/^UTF-?(16|32)$/i => '"UTF-$1"', + ); + # ASCII + define_alias(qr/^(?:US-?)ascii$/i => '"ascii"'); + define_alias('C' => 'ascii'); + define_alias(qr/\bISO[-_]?646[-_]?US$/i => '"ascii"'); + # Allow variants of iso-8859-1 etc. + define_alias( qr/\biso[-_]?(\d+)[-_](\d+)$/i => '"iso-$1-$2"' ); + + # At least HP-UX has these. + define_alias( qr/\biso8859(\d+)$/i => '"iso-8859-$1"' ); + + # More HP stuff. + define_alias( qr/\b(?:hp-)?(arabic|greek|hebrew|kana|roman|thai|turkish)8$/i => '"${1}8"' ); + + # The Official name of ASCII. + define_alias( qr/\bANSI[-_]?X3\.4[-_]?1968$/i => '"ascii"' ); + + # This is a font issue, not an encoding issue. + # (The currency symbol of the Latin 1 upper half + # has been redefined as the euro symbol.) + define_alias( qr/^(.+)\@euro$/i => '"$1"' ); + + define_alias( qr/\b(?:iso[-_]?)?latin[-_]?(\d+)$/i + => 'defined $Encode::Alias::Latin2iso[$1] ? "iso-8859-$Encode::Alias::Latin2iso[$1]" : undef' ); + + define_alias( qr/\bwin(latin[12]|cyrillic|baltic|greek|turkish| + hebrew|arabic|baltic|vietnamese)$/ix => + '"cp" . $Encode::Alias::Winlatin2cp{lc($1)}' ); + + # Common names for non-latin preferred MIME names + define_alias( 'ascii' => 'US-ascii', + 'cyrillic' => 'iso-8859-5', + 'arabic' => 'iso-8859-6', + 'greek' => 'iso-8859-7', + 'hebrew' => 'iso-8859-8', + 'thai' => 'iso-8859-11', + 'tis620' => 'iso-8859-11', + ); + + # At least AIX has IBM-NNN (surprisingly...) instead of cpNNN. + # And Microsoft has their own naming (again, surprisingly). + # And windows-* is registered in IANA! + define_alias( qr/\b(?:cp|ibm|ms|windows)[-_ ]?(\d{2,4})$/i => '"cp$1"'); + + # Sometimes seen with a leading zero. + # define_alias( qr/\bcp037\b/i => '"cp37"'); + + # Mac Mappings + # predefined in *.ucm; unneeded + # define_alias( qr/\bmacIcelandic$/i => '"macIceland"'); + define_alias( qr/^mac_(.*)$/i => '"mac$1"'); + # Ououououou. gone. They are differente! + # define_alias( qr/\bmacRomanian$/i => '"macRumanian"'); + + # Standardize on the dashed versions. + define_alias( qr/\bkoi8[\s\-_]*([ru])$/i => '"koi8-$1"' ); + + unless ($Encode::ON_EBCDIC){ + # for Encode::CN + define_alias( qr/\beuc.*cn$/i => '"euc-cn"' ); + define_alias( qr/\bcn.*euc$/i => '"euc-cn"' ); + # define_alias( qr/\bGB[- ]?(\d+)$/i => '"euc-cn"' ) + # CP936 doesn't have vendor-addon for GBK, so they're identical. + define_alias( qr/^gbk$/i => '"cp936"'); + # This fixes gb2312 vs. euc-cn confusion, practically + define_alias( qr/\bGB[-_ ]?2312(?!-?raw)/i => '"euc-cn"' ); + # for Encode::JP + define_alias( qr/\bjis$/i => '"7bit-jis"' ); + define_alias( qr/\beuc.*jp$/i => '"euc-jp"' ); + define_alias( qr/\bjp.*euc$/i => '"euc-jp"' ); + define_alias( qr/\bujis$/i => '"euc-jp"' ); + define_alias( qr/\bshift.*jis$/i => '"shiftjis"' ); + define_alias( qr/\bsjis$/i => '"shiftjis"' ); + define_alias( qr/\bwindows-31j$/i => '"cp932"' ); + # for Encode::KR + define_alias( qr/\beuc.*kr$/i => '"euc-kr"' ); + define_alias( qr/\bkr.*euc$/i => '"euc-kr"' ); + # This fixes ksc5601 vs. euc-kr confusion, practically + define_alias( qr/(?:x-)?uhc$/i => '"cp949"' ); + define_alias( qr/(?:x-)?windows-949$/i => '"cp949"' ); + define_alias( qr/\bks_c_5601-1987$/i => '"cp949"' ); + # for Encode::TW + define_alias( qr/\bbig-?5$/i => '"big5-eten"' ); + define_alias( qr/\bbig5-?et(?:en)?$/i => '"big5-eten"' ); + define_alias( qr/\btca[-_]?big5$/i => '"big5-eten"' ); + define_alias( qr/\bbig5-?hk(?:scs)?$/i => '"big5-hkscs"' ); + define_alias( qr/\bhk(?:scs)?[-_]?big5$/i => '"big5-hkscs"' ); + } + # utf8 is blessed :) + define_alias( qr/^UTF-8$/i => '"utf-8-strict"'); + # At last, Map white space and _ to '-' + define_alias( qr/^(\S+)[\s_]+(.*)$/i => '"$1-$2"' ); +} + +1; +__END__ + +# TODO: HP-UX '8' encodings arabic8 greek8 hebrew8 kana8 thai8 turkish8 +# TODO: HP-UX '15' encodings japanese15 korean15 roi15 +# TODO: Cyrillic encoding ISO-IR-111 (useful?) +# TODO: Armenian encoding ARMSCII-8 +# TODO: Hebrew encoding ISO-8859-8-1 +# TODO: Thai encoding TCVN +# TODO: Vietnamese encodings VPS +# TODO: Mac Asian+African encodings: Arabic Armenian Bengali Burmese +# ChineseSimp ChineseTrad Devanagari Ethiopic ExtArabic +# Farsi Georgian Gujarati Gurmukhi Hebrew Japanese +# Kannada Khmer Korean Laotian Malayalam Mongolian +# Oriya Sinhalese Symbol Tamil Telugu Tibetan Vietnamese + +=head1 NAME + +Encode::Alias - alias definitions to encodings + +=head1 SYNOPSIS + + use Encode; + use Encode::Alias; + define_alias( newName => ENCODING); + +=head1 DESCRIPTION + +Allows newName to be used as an alias for ENCODING. ENCODING may be +either the name of an encoding or an encoding object (as described +in L<Encode>). + +Currently I<newName> can be specified in the following ways: + +=over 4 + +=item As a simple string. + +=item As a qr// compiled regular expression, e.g.: + + define_alias( qr/^iso8859-(\d+)$/i => '"iso-8859-$1"' ); + +In this case, if I<ENCODING> is not a reference, it is C<eval>-ed +in order to allow C<$1> etc. to be substituted. The example is one +way to alias names as used in X11 fonts to the MIME names for the +iso-8859-* family. Note the double quotes inside the single quotes. + +(or, you don't have to do this yourself because this example is predefined) + +If you are using a regex here, you have to use the quotes as shown or +it won't work. Also note that regex handling is tricky even for the +experienced. Use this feature with caution. + +=item As a code reference, e.g.: + + define_alias( sub {shift =~ /^iso8859-(\d+)$/i ? "iso-8859-$1" : undef } ); + +The same effect as the example above in a different way. The coderef +takes the alias name as an argument and returns a canonical name on +success or undef if not. Note the second argument is not required. +Use this with even more caution than the regex version. + +=back + +=head3 Changes in code reference aliasing + +As of Encode 1.87, the older form + + define_alias( sub { return /^iso8859-(\d+)$/i ? "iso-8859-$1" : undef } ); + +no longer works. + +Encode up to 1.86 internally used "local $_" to implement ths older +form. But consider the code below; + + use Encode; + $_ = "eeeee" ; + while (/(e)/g) { + my $utf = decode('aliased-encoding-name', $1); + print "position:",pos,"\n"; + } + +Prior to Encode 1.86 this fails because of "local $_". + +=head2 Alias overloading + +You can override predefined aliases by simply applying define_alias(). +The new alias is always evaluated first, and when necessary, +define_alias() flushes the internal cache to make the new definition +available. + + # redirect SHIFT_JIS to MS/IBM Code Page 932, which is a + # superset of SHIFT_JIS + + define_alias( qr/shift.*jis$/i => '"cp932"' ); + define_alias( qr/sjis$/i => '"cp932"' ); + +If you want to zap all predefined aliases, you can use + + Encode::Alias->undef_aliases; + +to do so. And + + Encode::Alias->init_aliases; + +gets the factory settings back. + +=head1 SEE ALSO + +L<Encode>, L<Encode::Supported> + +=cut + diff --git a/Master/tlpkg/tlperl/lib/Encode/Byte.pm b/Master/tlpkg/tlperl/lib/Encode/Byte.pm new file mode 100644 index 00000000000..d40c1c3d9d1 --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/Byte.pm @@ -0,0 +1,119 @@ +package Encode::Byte; +use Encode; +our $VERSION = do { my @r = (q$Revision: 2.0 $ =~ /\d+/g); sprintf "%d."."%02d" x $#r, @r }; + +use XSLoader; +XSLoader::load(__PACKAGE__,$VERSION); + +1; +__END__ + +=head1 NAME + +Encode::Byte - Single Byte Encodings + +=head1 SYNOPSIS + + use Encode qw/encode decode/; + $greek = encode("iso-8859-7", $utf8); # loads Encode::Byte implicitly + $utf8 = decode("iso-8859-7", $greek); # ditto + +=head1 ABSTRACT + +This module implements various single byte encodings. For most cases it uses +\x80-\xff (upper half) to map non-ASCII characters. Encodings +supported are as follows. + + Canonical Alias Description + -------------------------------------------------------------------- + # ISO 8859 series + (iso-8859-1 is in built-in) + iso-8859-2 latin2 [ISO] + iso-8859-3 latin3 [ISO] + iso-8859-4 latin4 [ISO] + iso-8859-5 [ISO] + iso-8859-6 [ISO] + iso-8859-7 [ISO] + iso-8859-8 [ISO] + iso-8859-9 latin5 [ISO] + iso-8859-10 latin6 [ISO] + iso-8859-11 + (iso-8859-12 is nonexistent) + iso-8859-13 latin7 [ISO] + iso-8859-14 latin8 [ISO] + iso-8859-15 latin9 [ISO] + iso-8859-16 latin10 [ISO] + + # Cyrillic + koi8-f + koi8-r cp878 [RFC1489] + koi8-u [RFC2319] + + # Vietnamese + viscii + + # all cp* are also available as ibm-*, ms-*, and windows-* + # also see L<http://msdn.microsoft.com/workshop/author/dhtml/reference/charsets/charset4.asp> + + cp424 + cp437 + cp737 + cp775 + cp850 + cp852 + cp855 + cp856 + cp857 + cp860 + cp861 + cp862 + cp863 + cp864 + cp865 + cp866 + cp869 + cp874 + cp1006 + cp1250 WinLatin2 + cp1251 WinCyrillic + cp1252 WinLatin1 + cp1253 WinGreek + cp1254 WinTurkish + cp1255 WinHebrew + cp1256 WinArabic + cp1257 WinBaltic + cp1258 WinVietnamese + + # Macintosh + # Also see L<http://developer.apple.com/technotes/tn/tn1150.html> + MacArabic + MacCentralEurRoman + MacCroatian + MacCyrillic + MacFarsi + MacGreek + MacHebrew + MacIcelandic + MacRoman + MacRomanian + MacRumanian + MacSami + MacThai + MacTurkish + MacUkrainian + + # More vendor encodings + AdobeStandardEncoding + nextstep + gsm0338 # used in GSM handsets + hp-roman8 + +=head1 DESCRIPTION + +To find how to use this module in detail, see L<Encode>. + +=head1 SEE ALSO + +L<Encode> + +=cut diff --git a/Master/tlpkg/tlperl/lib/Encode/CJKConstants.pm b/Master/tlpkg/tlperl/lib/Encode/CJKConstants.pm new file mode 100644 index 00000000000..4ab40e72ef2 --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/CJKConstants.pm @@ -0,0 +1,66 @@ +# +# $Id: CJKConstants.pm,v 2.0 2004/05/16 20:55:16 dankogai Exp $ +# + +package Encode::CJKConstants; + +use strict; + +our $RCSID = q$Id: CJKConstants.pm,v 2.0 2004/05/16 20:55:16 dankogai Exp $; +our $VERSION = do { my @r = (q$Revision: 2.0 $ =~ /\d+/g); sprintf "%d."."%02d" x $#r, @r }; + +use Carp; + +require Exporter; +our @ISA = qw(Exporter); +our @EXPORT = qw(); +our @EXPORT_OK = qw(%CHARCODE %ESC %RE); +our %EXPORT_TAGS = ( 'all' => [ @EXPORT_OK, @EXPORT ] ); + +my %_0208 = ( + 1978 => '\e\$\@', + 1983 => '\e\$B', + 1990 => '\e&\@\e\$B', + ); + +our %CHARCODE = ( + UNDEF_EUC => "\xa2\xae", # ¢® in EUC + UNDEF_SJIS => "\x81\xac", # ¢® in SJIS + UNDEF_JIS => "\xa2\xf7", # ¢÷ -- used in unicode + UNDEF_UNICODE => "\x20\x20", # ¢÷ -- used in unicode + ); + +our %ESC = ( + GB_2312 => "\e\$A", + JIS_0208 => "\e\$B", + JIS_0212 => "\e\$(D", + KSC_5601 => "\e\$(C", + ASC => "\e\(B", + KANA => "\e\(I", + '2022_KR' => "\e\$)C", + ); + +our %RE = + ( + ASCII => '[\x00-\x7f]', + BIN => '[\x00-\x06\x7f\xff]', + EUC_0212 => '\x8f[\xa1-\xfe][\xa1-\xfe]', + EUC_C => '[\xa1-\xfe][\xa1-\xfe]', + EUC_KANA => '\x8e[\xa1-\xdf]', + JIS_0208 => "$_0208{1978}|$_0208{1983}|$_0208{1990}", + JIS_0212 => "\e" . '\$\(D', + ISO_ASC => "\e" . '\([BJ]', + JIS_KANA => "\e" . '\(I', + '2022_KR' => "\e" . '\$\)C', + SJIS_C => '[\x81-\x9f\xe0-\xfc][\x40-\x7e\x80-\xfc]', + SJIS_KANA => '[\xa1-\xdf]', + UTF8 => '[\xc0-\xdf][\x80-\xbf]|[\xe0-\xef][\x80-\xbf][\x80-\xbf]' + ); + +1; + +=head1 NAME + +Encode::CJKConstants.pm -- Internally used by Encode::??::ISO_2022_* + +=cut diff --git a/Master/tlpkg/tlperl/lib/Encode/CN.pm b/Master/tlpkg/tlperl/lib/Encode/CN.pm new file mode 100644 index 00000000000..be5a830fc51 --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/CN.pm @@ -0,0 +1,76 @@ +package Encode::CN; +BEGIN { + if (ord("A") == 193) { + die "Encode::CN not supported on EBCDIC\n"; + } +} +our $VERSION = do { my @r = (q$Revision: 2.0 $ =~ /\d+/g); sprintf "%d."."%02d" x $#r, @r }; + +use Encode; +use XSLoader; +XSLoader::load(__PACKAGE__,$VERSION); + +# Relocated from Encode.pm + +use Encode::CN::HZ; +# use Encode::CN::2022_CN; + +1; +__END__ + +=head1 NAME + +Encode::CN - China-based Chinese Encodings + +=head1 SYNOPSIS + + use Encode qw/encode decode/; + $euc_cn = encode("euc-cn", $utf8); # loads Encode::CN implicitly + $utf8 = decode("euc-cn", $euc_cn); # ditto + +=head1 DESCRIPTION + +This module implements China-based Chinese charset encodings. +Encodings supported are as follows. + + Canonical Alias Description + -------------------------------------------------------------------- + euc-cn /\beuc.*cn$/i EUC (Extended Unix Character) + /\bcn.*euc$/i + /\bGB[-_ ]?2312(?:\D.*$|$)/i (see below) + gb2312-raw The raw (low-bit) GB2312 character map + gb12345-raw Traditional chinese counterpart to + GB2312 (raw) + iso-ir-165 GB2312 + GB6345 + GB8565 + additions + MacChineseSimp GB2312 + Apple Additions + cp936 Code Page 936, also known as GBK + (Extended GuoBiao) + hz 7-bit escaped GB2312 encoding + -------------------------------------------------------------------- + +To find how to use this module in detail, see L<Encode>. + +=head1 NOTES + +Due to size concerns, C<GB 18030> (an extension to C<GBK>) is distributed +separately on CPAN, under the name L<Encode::HanExtra>. That module +also contains extra Taiwan-based encodings. + +=head1 BUGS + +When you see C<charset=gb2312> on mails and web pages, they really +mean C<euc-cn> encodings. To fix that, C<gb2312> is aliased to C<euc-cn>. +Use C<gb2312-raw> when you really mean it. + +The ASCII region (0x00-0x7f) is preserved for all encodings, even though +this conflicts with mappings by the Unicode Consortium. See + +L<http://www.debian.or.jp/~kubota/unicode-symbols.html.en> + +to find out why it is implemented that way. + +=head1 SEE ALSO + +L<Encode> + +=cut diff --git a/Master/tlpkg/tlperl/lib/Encode/CN/HZ.pm b/Master/tlpkg/tlperl/lib/Encode/CN/HZ.pm new file mode 100644 index 00000000000..fbc6ba60ced --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/CN/HZ.pm @@ -0,0 +1,196 @@ +package Encode::CN::HZ; + +use strict; + +use vars qw($VERSION); +$VERSION = do { my @r = (q$Revision: 2.1 $ =~ /\d+/g); sprintf "%d."."%02d" x $#r, @r }; + +use Encode qw(:fallbacks); + +use base qw(Encode::Encoding); +__PACKAGE__->Define('hz'); + +# HZ is a combination of ASCII and escaped GB, so we implement it +# with the GB2312(raw) encoding here. Cf. RFCs 1842 & 1843. + +# not ported for EBCDIC. Which should be used, "~" or "\x7E"? + +sub needs_lines { 1 } + +sub decode ($$;$) +{ + my ($obj,$str,$chk) = @_; + + my $GB = Encode::find_encoding('gb2312-raw'); + my $ret = ''; + my $in_ascii = 1; # default mode is ASCII. + + while (length $str) { + if ($in_ascii) { # ASCII mode + if ($str =~ s/^([\x00-\x7D\x7F]+)//) { # no '~' => ASCII + $ret .= $1; + # EBCDIC should need ascii2native, but not ported. + } + elsif ($str =~ s/^\x7E\x7E//) { # escaped tilde + $ret .= '~'; + } + elsif ($str =~ s/^\x7E\cJ//) { # '\cJ' == LF in ASCII + 1; # no-op + } + elsif ($str =~ s/^\x7E\x7B//) { # '~{' + $in_ascii = 0; # to GB + } + else { # encounters an invalid escape, \x80 or greater + last; + } + } + else { # GB mode; the byte ranges are as in RFC 1843. + if ($str =~ s/^((?:[\x21-\x77][\x21-\x7E])+)//) { + $ret .= $GB->decode($1, $chk); + } + elsif ($str =~ s/^\x7E\x7D//) { # '~}' + $in_ascii = 1; + } + else { # invalid + last; + } + } + } + $_[1] = '' if $chk; # needs_lines guarantees no partial character + return $ret; +} + +sub cat_decode { + my ($obj, undef, $src, $pos, $trm, $chk) = @_; + my ($rdst, $rsrc, $rpos) = \@_[1..3]; + + my $GB = Encode::find_encoding('gb2312-raw'); + my $ret = ''; + my $in_ascii = 1; # default mode is ASCII. + + my $ini_pos = pos($$rsrc); + + substr($src, 0, $pos) = ''; + + my $ini_len = bytes::length($src); + + # $trm is the first of the pair '~~', then 2nd tilde is to be removed. + # XXX: Is better C<$src =~ s/^\x7E// or die if ...>? + $src =~ s/^\x7E// if $trm eq "\x7E"; + + while (length $src) { + my $now; + if ($in_ascii) { # ASCII mode + if ($src =~ s/^([\x00-\x7D\x7F])//) { # no '~' => ASCII + $now = $1; + } + elsif ($src =~ s/^\x7E\x7E//) { # escaped tilde + $now = '~'; + } + elsif ($src =~ s/^\x7E\cJ//) { # '\cJ' == LF in ASCII + next; + } + elsif ($src =~ s/^\x7E\x7B//) { # '~{' + $in_ascii = 0; # to GB + next; + } + else { # encounters an invalid escape, \x80 or greater + last; + } + } + else { # GB mode; the byte ranges are as in RFC 1843. + if ($src =~ s/^((?:[\x21-\x77][\x21-\x7F])+)//) { + $now = $GB->decode($1, $chk); + } + elsif ($src =~ s/^\x7E\x7D//) { # '~}' + $in_ascii = 1; + next; + } + else { # invalid + last; + } + } + + next if ! defined $now; + + $ret .= $now; + + if ($now eq $trm) { + $$rdst .= $ret; + $$rpos = $ini_pos + $pos + $ini_len - bytes::length($src); + pos($$rsrc) = $ini_pos; + return 1; + } + } + + $$rdst .= $ret; + $$rpos = $ini_pos + $pos + $ini_len - bytes::length($src); + pos($$rsrc) = $ini_pos; + return ''; # terminator not found +} + + +sub encode($$;$) +{ + my ($obj,$str,$chk) = @_; + + my $GB = Encode::find_encoding('gb2312-raw'); + my $ret = ''; + my $in_ascii = 1; # default mode is ASCII. + + no warnings 'utf8'; # $str may be malformed UTF8 at the end of a chunk. + + while (length $str) { + if ($str =~ s/^([[:ascii:]]+)//) { + my $tmp = $1; + $tmp =~ s/~/~~/g; # escapes tildes + if (! $in_ascii) { + $ret .= "\x7E\x7D"; # '~}' + $in_ascii = 1; + } + $ret .= pack 'a*', $tmp; # remove UTF8 flag. + } + elsif ($str =~ s/(.)//) { + my $s = $1; + my $tmp = $GB->encode($s, $chk); + last if !defined $tmp; + if (length $tmp == 2) { # maybe a valid GB char (XXX) + if ($in_ascii) { + $ret .= "\x7E\x7B"; # '~{' + $in_ascii = 0; + } + $ret .= $tmp; + } + elsif (length $tmp) { # maybe FALLBACK in ASCII (XXX) + if (!$in_ascii) { + $ret .= "\x7E\x7D"; # '~}' + $in_ascii = 1; + } + $ret .= $tmp; + } + } + else { # if $str is malformed UTF8 *and* if length $str != 0. + last; + } + } + $_[1] = $str if $chk; + + # The state at the end of the chunk is discarded, even if in GB mode. + # That results in the combination of GB-OUT and GB-IN, i.e. "~}~{". + # Parhaps it is harmless, but further investigations may be required... + + if (! $in_ascii) { + $ret .= "\x7E\x7D"; # '~}' + $in_ascii = 1; + } + return $ret; +} + +1; +__END__ + +=head1 NAME + +Encode::CN::HZ -- internally used by Encode::CN + +=cut diff --git a/Master/tlpkg/tlperl/lib/Encode/Changes.e2x b/Master/tlpkg/tlperl/lib/Encode/Changes.e2x new file mode 100644 index 00000000000..5c67c55cb93 --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/Changes.e2x @@ -0,0 +1,7 @@ +# +# $Id: Changes.e2x,v 2.0 2004/05/16 20:55:15 dankogai Exp $ +# Revision history for Perl extension Encode::$_Name_. +# + +0.01 $_Now_ + Autogenerated by enc2xs version $_Version_. diff --git a/Master/tlpkg/tlperl/lib/Encode/Config.pm b/Master/tlpkg/tlperl/lib/Encode/Config.pm new file mode 100644 index 00000000000..d69b92d8248 --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/Config.pm @@ -0,0 +1,166 @@ +# +# Demand-load module list +# +package Encode::Config; +our $VERSION = do { my @r = (q$Revision: 2.1 $ =~ /\d+/g); sprintf "%d."."%02d" x $#r, @r }; + +use strict; + +our %ExtModule = + ( + # Encode::Byte + #iso-8859-1 is in Encode.pm itself + 'iso-8859-2' => 'Encode::Byte', + 'iso-8859-3' => 'Encode::Byte', + 'iso-8859-4' => 'Encode::Byte', + 'iso-8859-5' => 'Encode::Byte', + 'iso-8859-6' => 'Encode::Byte', + 'iso-8859-7' => 'Encode::Byte', + 'iso-8859-8' => 'Encode::Byte', + 'iso-8859-9' => 'Encode::Byte', + 'iso-8859-10' => 'Encode::Byte', + 'iso-8859-11' => 'Encode::Byte', + 'iso-8859-13' => 'Encode::Byte', + 'iso-8859-14' => 'Encode::Byte', + 'iso-8859-15' => 'Encode::Byte', + 'iso-8859-16' => 'Encode::Byte', + 'koi8-f' => 'Encode::Byte', + 'koi8-r' => 'Encode::Byte', + 'koi8-u' => 'Encode::Byte', + 'viscii' => 'Encode::Byte', + 'cp424' => 'Encode::Byte', + 'cp437' => 'Encode::Byte', + 'cp737' => 'Encode::Byte', + 'cp775' => 'Encode::Byte', + 'cp850' => 'Encode::Byte', + 'cp852' => 'Encode::Byte', + 'cp855' => 'Encode::Byte', + 'cp856' => 'Encode::Byte', + 'cp857' => 'Encode::Byte', + 'cp860' => 'Encode::Byte', + 'cp861' => 'Encode::Byte', + 'cp862' => 'Encode::Byte', + 'cp863' => 'Encode::Byte', + 'cp864' => 'Encode::Byte', + 'cp865' => 'Encode::Byte', + 'cp866' => 'Encode::Byte', + 'cp869' => 'Encode::Byte', + 'cp874' => 'Encode::Byte', + 'cp1006' => 'Encode::Byte', + 'cp1250' => 'Encode::Byte', + 'cp1251' => 'Encode::Byte', + 'cp1252' => 'Encode::Byte', + 'cp1253' => 'Encode::Byte', + 'cp1254' => 'Encode::Byte', + 'cp1255' => 'Encode::Byte', + 'cp1256' => 'Encode::Byte', + 'cp1257' => 'Encode::Byte', + 'cp1258' => 'Encode::Byte', + 'AdobeStandardEncoding' => 'Encode::Byte', + 'MacArabic' => 'Encode::Byte', + 'MacCentralEurRoman' => 'Encode::Byte', + 'MacCroatian' => 'Encode::Byte', + 'MacCyrillic' => 'Encode::Byte', + 'MacFarsi' => 'Encode::Byte', + 'MacGreek' => 'Encode::Byte', + 'MacHebrew' => 'Encode::Byte', + 'MacIcelandic' => 'Encode::Byte', + 'MacRoman' => 'Encode::Byte', + 'MacRomanian' => 'Encode::Byte', + 'MacRumanian' => 'Encode::Byte', + 'MacSami' => 'Encode::Byte', + 'MacThai' => 'Encode::Byte', + 'MacTurkish' => 'Encode::Byte', + 'MacUkrainian' => 'Encode::Byte', + 'nextstep' => 'Encode::Byte', + 'hp-roman8' => 'Encode::Byte', + 'gsm0338' => 'Encode::Byte', + # Encode::EBCDIC + 'cp37' => 'Encode::EBCDIC', + 'cp500' => 'Encode::EBCDIC', + 'cp875' => 'Encode::EBCDIC', + 'cp1026' => 'Encode::EBCDIC', + 'cp1047' => 'Encode::EBCDIC', + 'posix-bc' => 'Encode::EBCDIC', + # Encode::Symbol + 'dingbats' => 'Encode::Symbol', + 'symbol' => 'Encode::Symbol', + 'AdobeSymbol' => 'Encode::Symbol', + 'AdobeZdingbat' => 'Encode::Symbol', + 'MacDingbats' => 'Encode::Symbol', + 'MacSymbol' => 'Encode::Symbol', + # Encode::Unicode + 'UCS-2BE' => 'Encode::Unicode', + 'UCS-2LE' => 'Encode::Unicode', + 'UTF-16' => 'Encode::Unicode', + 'UTF-16BE' => 'Encode::Unicode', + 'UTF-16LE' => 'Encode::Unicode', + 'UTF-32' => 'Encode::Unicode', + 'UTF-32BE' => 'Encode::Unicode', + 'UTF-32LE' => 'Encode::Unicode', + 'UTF-7' => 'Encode::Unicode::UTF7', + ); + +unless (ord("A") == 193){ + %ExtModule = + ( + %ExtModule, + 'euc-cn' => 'Encode::CN', + 'gb12345-raw' => 'Encode::CN', + 'gb2312-raw' => 'Encode::CN', + 'hz' => 'Encode::CN', + 'iso-ir-165' => 'Encode::CN', + 'cp936' => 'Encode::CN', + 'MacChineseSimp' => 'Encode::CN', + + '7bit-jis' => 'Encode::JP', + 'euc-jp' => 'Encode::JP', + 'iso-2022-jp' => 'Encode::JP', + 'iso-2022-jp-1' => 'Encode::JP', + 'jis0201-raw' => 'Encode::JP', + 'jis0208-raw' => 'Encode::JP', + 'jis0212-raw' => 'Encode::JP', + 'cp932' => 'Encode::JP', + 'MacJapanese' => 'Encode::JP', + 'shiftjis' => 'Encode::JP', + + + 'euc-kr' => 'Encode::KR', + 'iso-2022-kr' => 'Encode::KR', + 'johab' => 'Encode::KR', + 'ksc5601-raw' => 'Encode::KR', + 'cp949' => 'Encode::KR', + 'MacKorean' => 'Encode::KR', + + 'big5-eten' => 'Encode::TW', + 'big5-hkscs' => 'Encode::TW', + 'cp950' => 'Encode::TW', + 'MacChineseTrad' => 'Encode::TW', + + #'big5plus' => 'Encode::HanExtra', + #'euc-tw' => 'Encode::HanExtra', + #'gb18030' => 'Encode::HanExtra', + + 'MIME-Header' => 'Encode::MIME::Header', + 'MIME-B' => 'Encode::MIME::Header', + 'MIME-Q' => 'Encode::MIME::Header', + + 'MIME-Header-ISO_2022_JP' => 'Encode::MIME::Header::ISO_2022_JP', + ); +} + +# +# Why not export ? to keep ConfigLocal Happy! +# +while (my ($enc,$mod) = each %ExtModule){ + $Encode::ExtModule{$enc} = $mod; +} + +1; +__END__ + +=head1 NAME + +Encode::Config -- internally used by Encode + +=cut diff --git a/Master/tlpkg/tlperl/lib/Encode/ConfigLocal_PM.e2x b/Master/tlpkg/tlperl/lib/Encode/ConfigLocal_PM.e2x new file mode 100644 index 00000000000..e203dfded50 --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/ConfigLocal_PM.e2x @@ -0,0 +1,13 @@ +# +# Local demand-load module list +# +# You should not edit this file by hand! use "enc2xs -C" +# +package Encode::ConfigLocal; +our $VERSION = $_LocalVer_; + +use strict; + +$_ModLines_ + +1; diff --git a/Master/tlpkg/tlperl/lib/Encode/EBCDIC.pm b/Master/tlpkg/tlperl/lib/Encode/EBCDIC.pm new file mode 100644 index 00000000000..200a82fea46 --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/EBCDIC.pm @@ -0,0 +1,43 @@ +package Encode::EBCDIC; +use Encode; +our $VERSION = do { my @r = (q$Revision: 2.0 $ =~ /\d+/g); sprintf "%d."."%02d" x $#r, @r }; + +use XSLoader; +XSLoader::load(__PACKAGE__,$VERSION); + +1; +__END__ + +=head1 NAME + +Encode::EBCDIC - EBCDIC Encodings + +=head1 SYNOPSIS + + use Encode qw/encode decode/; + $posix_bc = encode("posix-bc", $utf8); # loads Encode::EBCDIC implicitly + $utf8 = decode("", $posix_bc); # ditto + +=head1 ABSTRACT + +This module implements various EBCDIC-Based encodings. Encodings +supported are as follows. + + Canonical Alias Description + -------------------------------------------------------------------- + cp37 + cp500 + cp875 + cp1026 + cp1047 + posix-bc + +=head1 DESCRIPTION + +To find how to use this module in detail, see L<Encode>. + +=head1 SEE ALSO + +L<Encode>, L<perlebcdic> + +=cut diff --git a/Master/tlpkg/tlperl/lib/Encode/Encoder.pm b/Master/tlpkg/tlperl/lib/Encode/Encoder.pm new file mode 100644 index 00000000000..fe2a2b90ff6 --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/Encoder.pm @@ -0,0 +1,249 @@ +# +# $Id: Encoder.pm,v 2.0 2004/05/16 20:55:17 dankogai Exp $ +# +package Encode::Encoder; +use strict; +use warnings; +our $VERSION = do { my @r = (q$Revision: 2.0 $ =~ /\d+/g); sprintf "%d."."%02d" x $#r, @r }; + +require Exporter; +our @ISA = qw(Exporter); +our @EXPORT_OK = qw ( encoder ); + +our $AUTOLOAD; +sub DEBUG () { 0 } +use Encode qw(encode decode find_encoding from_to); +use Carp; + +sub new{ + my ($class, $data, $encname) = @_; + unless($encname){ + $encname = Encode::is_utf8($data) ? 'utf8' : ''; + }else{ + my $obj = find_encoding($encname) + or croak __PACKAGE__, ": unknown encoding: $encname"; + $encname = $obj->name; + } + my $self = { + data => $data, + encoding => $encname, + }; + bless $self => $class; +} + +sub encoder{ __PACKAGE__->new(@_) } + +sub data{ + my ($self, $data) = @_; + if (defined $data){ + $self->{data} = $data; + return $data; + }else{ + return $self->{data}; + } +} + +sub encoding{ + my ($self, $encname) = @_; + if ($encname){ + my $obj = find_encoding($encname) + or confess __PACKAGE__, ": unknown encoding: $encname"; + $self->{encoding} = $obj->name; + return $self; + }else{ + return $self->{encoding} + } +} + +sub bytes { + my ($self, $encname) = @_; + $encname ||= $self->{encoding}; + my $obj = find_encoding($encname) + or confess __PACKAGE__, ": unknown encoding: $encname"; + $self->{data} = $obj->decode($self->{data}, 1); + $self->{encoding} = '' ; + return $self; +} + +sub DESTROY{ # defined so it won't autoload. + DEBUG and warn shift; +} + +sub AUTOLOAD { + my $self = shift; + my $type = ref($self) + or confess "$self is not an object"; + my $myname = $AUTOLOAD; + $myname =~ s/.*://; # strip fully-qualified portion + my $obj = find_encoding($myname) + or confess __PACKAGE__, ": unknown encoding: $myname"; + DEBUG and warn $self->{encoding}, " => ", $obj->name; + if ($self->{encoding}){ + from_to($self->{data}, $self->{encoding}, $obj->name, 1); + }else{ + $self->{data} = $obj->encode($self->{data}, 1); + } + $self->{encoding} = $obj->name; + return $self; +} + +use overload + q("") => sub { $_[0]->{data} }, + q(0+) => sub { use bytes (); bytes::length($_[0]->{data}) }, + fallback => 1, + ; + +1; +__END__ + +=head1 NAME + +Encode::Encoder -- Object Oriented Encoder + +=head1 SYNOPSIS + + use Encode::Encoder; + # Encode::encode("ISO-8859-1", $data); + Encode::Encoder->new($data)->iso_8859_1; # OOP way + # shortcut + use Encode::Encoder qw(encoder); + encoder($data)->iso_8859_1; + # you can stack them! + encoder($data)->iso_8859_1->base64; # provided base64() is defined + # you can use it as a decoder as well + encoder($base64)->bytes('base64')->latin1; + # stringified + print encoder($data)->utf8->latin1; # prints the string in latin1 + # numified + encoder("\x{abcd}\x{ef}g")->utf8 == 6; # true. bytes::length($data) + +=head1 ABSTRACT + +B<Encode::Encoder> allows you to use Encode in an object-oriented +style. This is not only more intuitive than a functional approach, +but also handier when you want to stack encodings. Suppose you want +your UTF-8 string converted to Latin1 then Base64: you can simply say + + my $base64 = encoder($utf8)->latin1->base64; + +instead of + + my $latin1 = encode("latin1", $utf8); + my $base64 = encode_base64($utf8); + +or the lazier and more convoluted + + my $base64 = encode_base64(encode("latin1", $utf8)); + +=head1 Description + +Here is how to use this module. + +=over 4 + +=item * + +There are at least two instance variables stored in a hash reference, +{data} and {encoding}. + +=item * + +When there is no method, it takes the method name as the name of the +encoding and encodes the instance I<data> with I<encoding>. If successful, +the instance I<encoding> is set accordingly. + +=item * + +You can retrieve the result via -E<gt>data but usually you don't have to +because the stringify operator ("") is overridden to do exactly that. + +=back + +=head2 Predefined Methods + +This module predefines the methods below: + +=over 4 + +=item $e = Encode::Encoder-E<gt>new([$data, $encoding]); + +returns an encoder object. Its data is initialized with $data if +present, and its encoding is set to $encoding if present. + +When $encoding is omitted, it defaults to utf8 if $data is already in +utf8 or "" (empty string) otherwise. + +=item encoder() + +is an alias of Encode::Encoder-E<gt>new(). This one is exported on demand. + +=item $e-E<gt>data([$data]) + +When $data is present, sets the instance data to $data and returns the +object itself. Otherwise, the current instance data is returned. + +=item $e-E<gt>encoding([$encoding]) + +When $encoding is present, sets the instance encoding to $encoding and +returns the object itself. Otherwise, the current instance encoding is +returned. + +=item $e-E<gt>bytes([$encoding]) + +decodes instance data from $encoding, or the instance encoding if +omitted. If the conversion is successful, the instance encoding +will be set to "". + +The name I<bytes> was deliberately picked to avoid namespace tainting +-- this module may be used as a base class so method names that appear +in Encode::Encoding are avoided. + +=back + +=head2 Example: base64 transcoder + +This module is designed to work with L<Encode::Encoding>. +To make the Base64 transcoder example above really work, you could +write a module like this: + + package Encode::Base64; + use base 'Encode::Encoding'; + __PACKAGE__->Define('base64'); + use MIME::Base64; + sub encode{ + my ($obj, $data) = @_; + return encode_base64($data); + } + sub decode{ + my ($obj, $data) = @_; + return decode_base64($data); + } + 1; + __END__ + +And your caller module would be something like this: + + use Encode::Encoder; + use Encode::Base64; + + # now you can really do the following + + encoder($data)->iso_8859_1->base64; + encoder($base64)->bytes('base64')->latin1; + +=head2 Operator Overloading + +This module overloads two operators, stringify ("") and numify (0+). + +Stringify dumps the data inside the object. + +Numify returns the number of bytes in the instance data. + +They come in handy when you want to print or find the size of data. + +=head1 SEE ALSO + +L<Encode>, +L<Encode::Encoding> + +=cut diff --git a/Master/tlpkg/tlperl/lib/Encode/Encoding.pm b/Master/tlpkg/tlperl/lib/Encode/Encoding.pm new file mode 100644 index 00000000000..06af9fb6994 --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/Encoding.pm @@ -0,0 +1,341 @@ +package Encode::Encoding; +# Base class for classes which implement encodings +use strict; +our $VERSION = do { my @r = (q$Revision: 2.2 $ =~ /\d+/g); sprintf "%d."."%02d" x $#r, @r }; + +require Encode; + +sub DEBUG { 0 } +sub Define +{ + my $obj = shift; + my $canonical = shift; + $obj = bless { Name => $canonical },$obj unless ref $obj; + # warn "$canonical => $obj\n"; + Encode::define_encoding($obj, $canonical, @_); +} + +sub name { return shift->{'Name'} } + +# sub renew { return $_[0] } + +sub renew { + my $self = shift; + my $clone = bless { %$self } => ref($self); + $clone->{renewed}++; # so the caller can see it + DEBUG and warn $clone->{renewed}; + return $clone; +} + +sub renewed{ return $_[0]->{renewed} || 0 } + +*new_sequence = \&renew; + +sub needs_lines { 0 }; + +sub perlio_ok { + eval{ require PerlIO::encoding }; + return $@ ? 0 : 1; +} + +# (Temporary|legacy) methods + +sub toUnicode { shift->decode(@_) } +sub fromUnicode { shift->encode(@_) } + +# +# Needs to be overloaded or just croak +# + +sub encode { + require Carp; + my $obj = shift; + my $class = ref($obj) ? ref($obj) : $obj; + Carp::croak($class . "->encode() not defined!"); +} + +sub decode{ + require Carp; + my $obj = shift; + my $class = ref($obj) ? ref($obj) : $obj; + Carp::croak($class . "->encode() not defined!"); +} + +sub DESTROY {} + +1; +__END__ + +=head1 NAME + +Encode::Encoding - Encode Implementation Base Class + +=head1 SYNOPSIS + + package Encode::MyEncoding; + use base qw(Encode::Encoding); + + __PACKAGE__->Define(qw(myCanonical myAlias)); + +=head1 DESCRIPTION + +As mentioned in L<Encode>, encodings are (in the current +implementation at least) defined as objects. The mapping of encoding +name to object is via the C<%Encode::Encoding> hash. Though you can +directly manipulate this hash, it is strongly encouraged to use this +base class module and add encode() and decode() methods. + +=head2 Methods you should implement + +You are strongly encouraged to implement methods below, at least +either encode() or decode(). + +=over 4 + +=item -E<gt>encode($string [,$check]) + +MUST return the octet sequence representing I<$string>. + +=over 2 + +=item * + +If I<$check> is true, it SHOULD modify I<$string> in place to remove +the converted part (i.e. the whole string unless there is an error). +If perlio_ok() is true, SHOULD becomes MUST. + +=item * + +If an error occurs, it SHOULD return the octet sequence for the +fragment of string that has been converted and modify $string in-place +to remove the converted part leaving it starting with the problem +fragment. If perlio_ok() is true, SHOULD becomes MUST. + +=item * + +If I<$check> is is false then C<encode> MUST make a "best effort" to +convert the string - for example, by using a replacement character. + +=back + +=item -E<gt>decode($octets [,$check]) + +MUST return the string that I<$octets> represents. + +=over 2 + +=item * + +If I<$check> is true, it SHOULD modify I<$octets> in place to remove +the converted part (i.e. the whole sequence unless there is an +error). If perlio_ok() is true, SHOULD becomes MUST. + +=item * + +If an error occurs, it SHOULD return the fragment of string that has +been converted and modify $octets in-place to remove the converted +part leaving it starting with the problem fragment. If perlio_ok() is +true, SHOULD becomes MUST. + +=item * + +If I<$check> is false then C<decode> should make a "best effort" to +convert the string - for example by using Unicode's "\x{FFFD}" as a +replacement character. + +=back + +=back + +If you want your encoding to work with L<encoding> pragma, you should +also implement the method below. + +=over 4 + +=item -E<gt>cat_decode($destination, $octets, $offset, $terminator [,$check]) + +MUST decode I<$octets> with I<$offset> and concatenate it to I<$destination>. +Decoding will terminate when $terminator (a string) appears in output. +I<$offset> will be modified to the last $octets position at end of decode. +Returns true if $terminator appears output, else returns false. + +=back + +=head2 Other methods defined in Encode::Encodings + +You do not have to override methods shown below unless you have to. + +=over 4 + +=item -E<gt>name + +Predefined As: + + sub name { return shift->{'Name'} } + +MUST return the string representing the canonical name of the encoding. + +=item -E<gt>renew + +Predefined As: + + sub renew { + my $self = shift; + my $clone = bless { %$self } => ref($self); + $clone->{renewed}++; + return $clone; + } + +This method reconstructs the encoding object if necessary. If you need +to store the state during encoding, this is where you clone your object. + +PerlIO ALWAYS calls this method to make sure it has its own private +encoding object. + +=item -E<gt>renewed + +Predefined As: + + sub renewed { $_[0]->{renewed} || 0 } + +Tells whether the object is renewed (and how many times). Some +modules emit C<Use of uninitialized value in null operation> warning +unless the value is numeric so return 0 for false. + +=item -E<gt>perlio_ok() + +Predefined As: + + sub perlio_ok { + eval{ require PerlIO::encoding }; + return $@ ? 0 : 1; + } + +If your encoding does not support PerlIO for some reasons, just; + + sub perlio_ok { 0 } + +=item -E<gt>needs_lines() + +Predefined As: + + sub needs_lines { 0 }; + +If your encoding can work with PerlIO but needs line buffering, you +MUST define this method so it returns true. 7bit ISO-2022 encodings +are one example that needs this. When this method is missing, false +is assumed. + +=back + +=head2 Example: Encode::ROT13 + + package Encode::ROT13; + use strict; + use base qw(Encode::Encoding); + + __PACKAGE__->Define('rot13'); + + sub encode($$;$){ + my ($obj, $str, $chk) = @_; + $str =~ tr/A-Za-z/N-ZA-Mn-za-m/; + $_[1] = '' if $chk; # this is what in-place edit means + return $str; + } + + # Jr pna or ynml yvxr guvf; + *decode = \&encode; + + 1; + +=head1 Why the heck Encode API is different? + +It should be noted that the I<$check> behaviour is different from the +outer public API. The logic is that the "unchecked" case is useful +when the encoding is part of a stream which may be reporting errors +(e.g. STDERR). In such cases, it is desirable to get everything +through somehow without causing additional errors which obscure the +original one. Also, the encoding is best placed to know what the +correct replacement character is, so if that is the desired behaviour +then letting low level code do it is the most efficient. + +By contrast, if I<$check> is true, the scheme above allows the +encoding to do as much as it can and tell the layer above how much +that was. What is lacking at present is a mechanism to report what +went wrong. The most likely interface will be an additional method +call to the object, or perhaps (to avoid forcing per-stream objects +on otherwise stateless encodings) an additional parameter. + +It is also highly desirable that encoding classes inherit from +C<Encode::Encoding> as a base class. This allows that class to define +additional behaviour for all encoding objects. + + package Encode::MyEncoding; + use base qw(Encode::Encoding); + + __PACKAGE__->Define(qw(myCanonical myAlias)); + +to create an object with C<< bless {Name => ...}, $class >>, and call +define_encoding. They inherit their C<name> method from +C<Encode::Encoding>. + +=head2 Compiled Encodings + +For the sake of speed and efficiency, most of the encodings are now +supported via a I<compiled form>: XS modules generated from UCM +files. Encode provides the enc2xs tool to achieve that. Please see +L<enc2xs> for more details. + +=head1 SEE ALSO + +L<perlmod>, L<enc2xs> + +=begin future + +=over 4 + +=item Scheme 1 + +The fixup routine gets passed the remaining fragment of string being +processed. It modifies it in place to remove bytes/characters it can +understand and returns a string used to represent them. For example: + + sub fixup { + my $ch = substr($_[0],0,1,''); + return sprintf("\x{%02X}",ord($ch); + } + +This scheme is close to how the underlying C code for Encode works, +but gives the fixup routine very little context. + +=item Scheme 2 + +The fixup routine gets passed the original string, an index into +it of the problem area, and the output string so far. It appends +what it wants to the output string and returns a new index into the +original string. For example: + + sub fixup { + # my ($s,$i,$d) = @_; + my $ch = substr($_[0],$_[1],1); + $_[2] .= sprintf("\x{%02X}",ord($ch); + return $_[1]+1; + } + +This scheme gives maximal control to the fixup routine but is more +complicated to code, and may require that the internals of Encode be tweaked to +keep the original string intact. + +=item Other Schemes + +Hybrids of the above. + +Multiple return values rather than in-place modifications. + +Index into the string could be C<pos($str)> allowing C<s/\G...//>. + +=back + +=end future + +=cut diff --git a/Master/tlpkg/tlperl/lib/Encode/Guess.pm b/Master/tlpkg/tlperl/lib/Encode/Guess.pm new file mode 100644 index 00000000000..5692cee9a4a --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/Guess.pm @@ -0,0 +1,351 @@ +package Encode::Guess; +use strict; + +use Encode qw(:fallbacks find_encoding); +our $VERSION = do { my @r = (q$Revision: 2.0 $ =~ /\d+/g); sprintf "%d."."%02d" x $#r, @r }; + +my $Canon = 'Guess'; +sub DEBUG () { 0 } +our %DEF_SUSPECTS = map { $_ => find_encoding($_) } qw(ascii utf8); +$Encode::Encoding{$Canon} = + bless { + Name => $Canon, + Suspects => { %DEF_SUSPECTS }, + } => __PACKAGE__; + +use base qw(Encode::Encoding); +sub needs_lines { 1 } +sub perlio_ok { 0 } + +our @EXPORT = qw(guess_encoding); +our $NoUTFAutoGuess = 0; +our $UTF8_BOM = pack("C3", 0xef, 0xbb, 0xbf); + +sub import { # Exporter not used so we do it on our own + my $callpkg = caller; + for my $item (@EXPORT){ + no strict 'refs'; + *{"$callpkg\::$item"} = \&{"$item"}; + } + set_suspects(@_); +} + +sub set_suspects{ + my $class = shift; + my $self = ref($class) ? $class : $Encode::Encoding{$Canon}; + $self->{Suspects} = { %DEF_SUSPECTS }; + $self->add_suspects(@_); +} + +sub add_suspects{ + my $class = shift; + my $self = ref($class) ? $class : $Encode::Encoding{$Canon}; + for my $c (@_){ + my $e = find_encoding($c) or die "Unknown encoding: $c"; + $self->{Suspects}{$e->name} = $e; + DEBUG and warn "Added: ", $e->name; + } +} + +sub decode($$;$){ + my ($obj, $octet, $chk) = @_; + my $guessed = guess($obj, $octet); + unless (ref($guessed)){ + require Carp; + Carp::croak($guessed); + } + my $utf8 = $guessed->decode($octet, $chk); + $_[1] = $octet if $chk; + return $utf8; +} + +sub guess_encoding{ + guess($Encode::Encoding{$Canon}, @_); +} + +sub guess { + my $class = shift; + my $obj = ref($class) ? $class : $Encode::Encoding{$Canon}; + my $octet = shift; + + # sanity check + return unless defined $octet and length $octet; + + # cheat 0: utf8 flag; + if ( Encode::is_utf8($octet) ) { + return find_encoding('utf8') unless $NoUTFAutoGuess; + Encode::_utf8_off($octet); + } + # cheat 1: BOM + use Encode::Unicode; + unless ($NoUTFAutoGuess) { + my $BOM = pack('C3', unpack("C3", $octet)); + return find_encoding('utf8') + if (defined $BOM and $BOM eq $UTF8_BOM); + $BOM = unpack('N', $octet); + return find_encoding('UTF-32') + if (defined $BOM and ($BOM == 0xFeFF or $BOM == 0xFFFe0000)); + $BOM = unpack('n', $octet); + return find_encoding('UTF-16') + if (defined $BOM and ($BOM == 0xFeFF or $BOM == 0xFFFe)); + if ($octet =~ /\x00/o){ # if \x00 found, we assume UTF-(16|32)(BE|LE) + my $utf; + my ($be, $le) = (0, 0); + if ($octet =~ /\x00\x00/o){ # UTF-32(BE|LE) assumed + $utf = "UTF-32"; + for my $char (unpack('N*', $octet)){ + $char & 0x0000ffff and $be++; + $char & 0xffff0000 and $le++; + } + }else{ # UTF-16(BE|LE) assumed + $utf = "UTF-16"; + for my $char (unpack('n*', $octet)){ + $char & 0x00ff and $be++; + $char & 0xff00 and $le++; + } + } + DEBUG and warn "$utf, be == $be, le == $le"; + $be == $le + and return + "Encodings ambiguous between $utf BE and LE ($be, $le)"; + $utf .= ($be > $le) ? 'BE' : 'LE'; + return find_encoding($utf); + } + } + my %try = %{$obj->{Suspects}}; + for my $c (@_){ + my $e = find_encoding($c) or die "Unknown encoding: $c"; + $try{$e->name} = $e; + DEBUG and warn "Added: ", $e->name; + } + my $nline = 1; + for my $line (split /\r\n?|\n/, $octet){ + # cheat 2 -- \e in the string + if ($line =~ /\e/o){ + my @keys = keys %try; + delete @try{qw/utf8 ascii/}; + for my $k (@keys){ + ref($try{$k}) eq 'Encode::XS' and delete $try{$k}; + } + } + my %ok = %try; + # warn join(",", keys %try); + for my $k (keys %try){ + my $scratch = $line; + $try{$k}->decode($scratch, FB_QUIET); + if ($scratch eq ''){ + DEBUG and warn sprintf("%4d:%-24s ok\n", $nline, $k); + }else{ + use bytes (); + DEBUG and + warn sprintf("%4d:%-24s not ok; %d bytes left\n", + $nline, $k, bytes::length($scratch)); + delete $ok{$k}; + } + } + %ok or return "No appropriate encodings found!"; + if (scalar(keys(%ok)) == 1){ + my ($retval) = values(%ok); + return $retval; + } + %try = %ok; $nline++; + } + $try{ascii} or + return "Encodings too ambiguous: ", join(" or ", keys %try); + return $try{ascii}; +} + + + +1; +__END__ + +=head1 NAME + +Encode::Guess -- Guesses encoding from data + +=head1 SYNOPSIS + + # if you are sure $data won't contain anything bogus + + use Encode; + use Encode::Guess qw/euc-jp shiftjis 7bit-jis/; + my $utf8 = decode("Guess", $data); + my $data = encode("Guess", $utf8); # this doesn't work! + + # more elaborate way + use Encode::Guess; + my $enc = guess_encoding($data, qw/euc-jp shiftjis 7bit-jis/); + ref($enc) or die "Can't guess: $enc"; # trap error this way + $utf8 = $enc->decode($data); + # or + $utf8 = decode($enc->name, $data) + +=head1 ABSTRACT + +Encode::Guess enables you to guess in what encoding a given data is +encoded, or at least tries to. + +=head1 DESCRIPTION + +By default, it checks only ascii, utf8 and UTF-16/32 with BOM. + + use Encode::Guess; # ascii/utf8/BOMed UTF + +To use it more practically, you have to give the names of encodings to +check (I<suspects> as follows). The name of suspects can either be +canonical names or aliases. + +CAVEAT: Unlike UTF-(16|32), BOM in utf8 is NOT AUTOMATICALLY STRIPPED. + + # tries all major Japanese Encodings as well + use Encode::Guess qw/euc-jp shiftjis 7bit-jis/; + +If the C<$Encode::Guess::NoUTFAutoGuess> variable is set to a true +value, no heuristics will be applied to UTF8/16/32, and the result +will be limited to the suspects and C<ascii>. + +=over 4 + +=item Encode::Guess->set_suspects + +You can also change the internal suspects list via C<set_suspects> +method. + + use Encode::Guess; + Encode::Guess->set_suspects(qw/euc-jp shiftjis 7bit-jis/); + +=item Encode::Guess->add_suspects + +Or you can use C<add_suspects> method. The difference is that +C<set_suspects> flushes the current suspects list while +C<add_suspects> adds. + + use Encode::Guess; + Encode::Guess->add_suspects(qw/euc-jp shiftjis 7bit-jis/); + # now the suspects are euc-jp,shiftjis,7bit-jis, AND + # euc-kr,euc-cn, and big5-eten + Encode::Guess->add_suspects(qw/euc-kr euc-cn big5-eten/); + +=item Encode::decode("Guess" ...) + +When you are content with suspects list, you can now + + my $utf8 = Encode::decode("Guess", $data); + +=item Encode::Guess->guess($data) + +But it will croak if: + +=over + +=item * + +Two or more suspects remain + +=item * + +No suspects left + +=back + +So you should instead try this; + + my $decoder = Encode::Guess->guess($data); + +On success, $decoder is an object that is documented in +L<Encode::Encoding>. So you can now do this; + + my $utf8 = $decoder->decode($data); + +On failure, $decoder now contains an error message so the whole thing +would be as follows; + + my $decoder = Encode::Guess->guess($data); + die $decoder unless ref($decoder); + my $utf8 = $decoder->decode($data); + +=item guess_encoding($data, [, I<list of suspects>]) + +You can also try C<guess_encoding> function which is exported by +default. It takes $data to check and it also takes the list of +suspects by option. The optional suspect list is I<not reflected> to +the internal suspects list. + + my $decoder = guess_encoding($data, qw/euc-jp euc-kr euc-cn/); + die $decoder unless ref($decoder); + my $utf8 = $decoder->decode($data); + # check only ascii and utf8 + my $decoder = guess_encoding($data); + +=back + +=head1 CAVEATS + +=over 4 + +=item * + +Because of the algorithm used, ISO-8859 series and other single-byte +encodings do not work well unless either one of ISO-8859 is the only +one suspect (besides ascii and utf8). + + use Encode::Guess; + # perhaps ok + my $decoder = guess_encoding($data, 'latin1'); + # definitely NOT ok + my $decoder = guess_encoding($data, qw/latin1 greek/); + +The reason is that Encode::Guess guesses encoding by trial and error. +It first splits $data into lines and tries to decode the line for each +suspect. It keeps it going until all but one encoding is eliminated +out of suspects list. ISO-8859 series is just too successful for most +cases (because it fills almost all code points in \x00-\xff). + +=item * + +Do not mix national standard encodings and the corresponding vendor +encodings. + + # a very bad idea + my $decoder + = guess_encoding($data, qw/shiftjis MacJapanese cp932/); + +The reason is that vendor encoding is usually a superset of national +standard so it becomes too ambiguous for most cases. + +=item * + +On the other hand, mixing various national standard encodings +automagically works unless $data is too short to allow for guessing. + + # This is ok if $data is long enough + my $decoder = + guess_encoding($data, qw/euc-cn + euc-jp shiftjis 7bit-jis + euc-kr + big5-eten/); + +=item * + +DO NOT PUT TOO MANY SUSPECTS! Don't you try something like this! + + my $decoder = guess_encoding($data, + Encode->encodings(":all")); + +=back + +It is, after all, just a guess. You should alway be explicit when it +comes to encodings. But there are some, especially Japanese, +environment that guess-coding is a must. Use this module with care. + +=head1 TO DO + +Encode::Guess does not work on EBCDIC platforms. + +=head1 SEE ALSO + +L<Encode>, L<Encode::Encoding> + +=cut + diff --git a/Master/tlpkg/tlperl/lib/Encode/JP.pm b/Master/tlpkg/tlperl/lib/Encode/JP.pm new file mode 100644 index 00000000000..01ad37f30db --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/JP.pm @@ -0,0 +1,97 @@ +package Encode::JP; +BEGIN { + if (ord("A") == 193) { + die "Encode::JP not supported on EBCDIC\n"; + } +} +use Encode; +our $VERSION = do { my @r = (q$Revision: 2.1 $ =~ /\d+/g); sprintf "%d."."%02d" x $#r, @r }; + +use XSLoader; +XSLoader::load(__PACKAGE__,$VERSION); + +use Encode::JP::JIS7; + +1; +__END__ + +=head1 NAME + +Encode::JP - Japanese Encodings + +=head1 SYNOPSIS + + use Encode qw/encode decode/; + $euc_jp = encode("euc-jp", $utf8); # loads Encode::JP implicitly + $utf8 = decode("euc-jp", $euc_jp); # ditto + +=head1 ABSTRACT + +This module implements Japanese charset encodings. Encodings +supported are as follows. + + Canonical Alias Description + -------------------------------------------------------------------- + euc-jp /\beuc.*jp$/i EUC (Extended Unix Character) + /\bjp.*euc/i + /\bujis$/i + shiftjis /\bshift.*jis$/i Shift JIS (aka MS Kanji) + /\bsjis$/i + 7bit-jis /\bjis$/i 7bit JIS + iso-2022-jp ISO-2022-JP [RFC1468] + = 7bit JIS with all Halfwidth Kana + converted to Fullwidth + iso-2022-jp-1 ISO-2022-JP-1 [RFC2237] + = ISO-2022-JP with JIS X 0212-1990 + support. See below + MacJapanese Shift JIS + Apple vendor mappings + cp932 /\bwindows-31j$/i Code Page 932 + = Shift JIS + MS/IBM vendor mappings + jis0201-raw JIS0201, raw format + jis0208-raw JIS0201, raw format + jis0212-raw JIS0201, raw format + -------------------------------------------------------------------- + +=head1 DESCRIPTION + +To find out how to use this module in detail, see L<Encode>. + +=head1 Note on ISO-2022-JP(-1)? + +ISO-2022-JP-1 (RFC2237) is a superset of ISO-2022-JP (RFC1468) which +adds support for JIS X 0212-1990. That means you can use the same +code to decode to utf8 but not vice versa. + + $utf8 = decode('iso-2022-jp-1', $stream); + +and + + $utf8 = decode('iso-2022-jp', $stream); + +yield the same result but + + $with_0212 = encode('iso-2022-jp-1', $utf8); + +is now different from + + $without_0212 = encode('iso-2022-jp', $utf8 ); + +In the latter case, characters that map to 0212 are first converted +to U+3013 (0xA2AE in EUC-JP; a white square also known as 'Tofu' or +'geta mark') then fed to the decoding engine. U+FFFD is not used, +in order to preserve text layout as much as possible. + +=head1 BUGS + +The ASCII region (0x00-0x7f) is preserved for all encodings, even +though this conflicts with mappings by the Unicode Consortium. See + +L<http://www.debian.or.jp/~kubota/unicode-symbols.html.en> + +to find out why it is implemented that way. + +=head1 SEE ALSO + +L<Encode> + +=cut diff --git a/Master/tlpkg/tlperl/lib/Encode/JP/H2Z.pm b/Master/tlpkg/tlperl/lib/Encode/JP/H2Z.pm new file mode 100644 index 00000000000..0c84c62fda6 --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/JP/H2Z.pm @@ -0,0 +1,174 @@ +# +# $Id: H2Z.pm,v 2.0 2004/05/16 20:55:17 dankogai Exp $ +# + +package Encode::JP::H2Z; + +use strict; + +our $RCSID = q$Id: H2Z.pm,v 2.0 2004/05/16 20:55:17 dankogai Exp $; +our $VERSION = do { my @r = (q$Revision: 2.0 $ =~ /\d+/g); sprintf "%d."."%02d" x $#r, @r }; + +use Encode::CJKConstants qw(:all); + +use vars qw(%_D2Z $_PAT_D2Z + %_Z2D $_PAT_Z2D + %_H2Z $_PAT_H2Z + %_Z2H $_PAT_Z2H); + +%_H2Z = ( + "\x8e\xa1" => "\xa1\xa3", #¡£ + "\x8e\xa2" => "\xa1\xd6", #¡Ö + "\x8e\xa3" => "\xa1\xd7", #¡× + "\x8e\xa4" => "\xa1\xa2", #¡¢ + "\x8e\xa5" => "\xa1\xa6", #¡¦ + "\x8e\xa6" => "\xa5\xf2", #¥ò + "\x8e\xa7" => "\xa5\xa1", #¥¡ + "\x8e\xa8" => "\xa5\xa3", #¥£ + "\x8e\xa9" => "\xa5\xa5", #¥¥ + "\x8e\xaa" => "\xa5\xa7", #¥§ + "\x8e\xab" => "\xa5\xa9", #¥© + "\x8e\xac" => "\xa5\xe3", #¥ã + "\x8e\xad" => "\xa5\xe5", #¥å + "\x8e\xae" => "\xa5\xe7", #¥ç + "\x8e\xaf" => "\xa5\xc3", #¥Ã + "\x8e\xb0" => "\xa1\xbc", #¡¼ + "\x8e\xb1" => "\xa5\xa2", #¥¢ + "\x8e\xb2" => "\xa5\xa4", #¥¤ + "\x8e\xb3" => "\xa5\xa6", #¥¦ + "\x8e\xb4" => "\xa5\xa8", #¥¨ + "\x8e\xb5" => "\xa5\xaa", #¥ª + "\x8e\xb6" => "\xa5\xab", #¥« + "\x8e\xb7" => "\xa5\xad", #¥ + "\x8e\xb8" => "\xa5\xaf", #¥¯ + "\x8e\xb9" => "\xa5\xb1", #¥± + "\x8e\xba" => "\xa5\xb3", #¥³ + "\x8e\xbb" => "\xa5\xb5", #¥µ + "\x8e\xbc" => "\xa5\xb7", #¥· + "\x8e\xbd" => "\xa5\xb9", #¥¹ + "\x8e\xbe" => "\xa5\xbb", #¥» + "\x8e\xbf" => "\xa5\xbd", #¥½ + "\x8e\xc0" => "\xa5\xbf", #¥¿ + "\x8e\xc1" => "\xa5\xc1", #¥Á + "\x8e\xc2" => "\xa5\xc4", #¥Ä + "\x8e\xc3" => "\xa5\xc6", #¥Æ + "\x8e\xc4" => "\xa5\xc8", #¥È + "\x8e\xc5" => "\xa5\xca", #¥Ê + "\x8e\xc6" => "\xa5\xcb", #¥Ë + "\x8e\xc7" => "\xa5\xcc", #¥Ì + "\x8e\xc8" => "\xa5\xcd", #¥Í + "\x8e\xc9" => "\xa5\xce", #¥Î + "\x8e\xca" => "\xa5\xcf", #¥Ï + "\x8e\xcb" => "\xa5\xd2", #¥Ò + "\x8e\xcc" => "\xa5\xd5", #¥Õ + "\x8e\xcd" => "\xa5\xd8", #¥Ø + "\x8e\xce" => "\xa5\xdb", #¥Û + "\x8e\xcf" => "\xa5\xde", #¥Þ + "\x8e\xd0" => "\xa5\xdf", #¥ß + "\x8e\xd1" => "\xa5\xe0", #¥à + "\x8e\xd2" => "\xa5\xe1", #¥á + "\x8e\xd3" => "\xa5\xe2", #¥â + "\x8e\xd4" => "\xa5\xe4", #¥ä + "\x8e\xd5" => "\xa5\xe6", #¥æ + "\x8e\xd6" => "\xa5\xe8", #¥è + "\x8e\xd7" => "\xa5\xe9", #¥é + "\x8e\xd8" => "\xa5\xea", #¥ê + "\x8e\xd9" => "\xa5\xeb", #¥ë + "\x8e\xda" => "\xa5\xec", #¥ì + "\x8e\xdb" => "\xa5\xed", #¥í + "\x8e\xdc" => "\xa5\xef", #¥ï + "\x8e\xdd" => "\xa5\xf3", #¥ó + "\x8e\xde" => "\xa1\xab", #¡« + "\x8e\xdf" => "\xa1\xac", #¡¬ +); + +%_D2Z = ( + "\x8e\xb6\x8e\xde" => "\xa5\xac", #¥¬ + "\x8e\xb7\x8e\xde" => "\xa5\xae", #¥® + "\x8e\xb8\x8e\xde" => "\xa5\xb0", #¥° + "\x8e\xb9\x8e\xde" => "\xa5\xb2", #¥² + "\x8e\xba\x8e\xde" => "\xa5\xb4", #¥´ + "\x8e\xbb\x8e\xde" => "\xa5\xb6", #¥¶ + "\x8e\xbc\x8e\xde" => "\xa5\xb8", #¥¸ + "\x8e\xbd\x8e\xde" => "\xa5\xba", #¥º + "\x8e\xbe\x8e\xde" => "\xa5\xbc", #¥¼ + "\x8e\xbf\x8e\xde" => "\xa5\xbe", #¥¾ + "\x8e\xc0\x8e\xde" => "\xa5\xc0", #¥À + "\x8e\xc1\x8e\xde" => "\xa5\xc2", #¥Â + "\x8e\xc2\x8e\xde" => "\xa5\xc5", #¥Å + "\x8e\xc3\x8e\xde" => "\xa5\xc7", #¥Ç + "\x8e\xc4\x8e\xde" => "\xa5\xc9", #¥É + "\x8e\xca\x8e\xde" => "\xa5\xd0", #¥Ð + "\x8e\xcb\x8e\xde" => "\xa5\xd3", #¥Ó + "\x8e\xcc\x8e\xde" => "\xa5\xd6", #¥Ö + "\x8e\xcd\x8e\xde" => "\xa5\xd9", #¥Ù + "\x8e\xce\x8e\xde" => "\xa5\xdc", #¥Ü + "\x8e\xca\x8e\xdf" => "\xa5\xd1", #¥Ñ + "\x8e\xcb\x8e\xdf" => "\xa5\xd4", #¥Ô + "\x8e\xcc\x8e\xdf" => "\xa5\xd7", #¥× + "\x8e\xcd\x8e\xdf" => "\xa5\xda", #¥Ú + "\x8e\xce\x8e\xdf" => "\xa5\xdd", #¥Ý + "\x8e\xb3\x8e\xde" => "\xa5\xf4", #¥ô +); + +# init only once; + +#$_PAT_D2Z = join("|", keys %_D2Z); +#$_PAT_H2Z = join("|", keys %_H2Z); + +%_Z2H = reverse %_H2Z; +%_Z2D = reverse %_D2Z; + +#$_PAT_Z2H = join("|", keys %_Z2H); +#$_PAT_Z2D = join("|", keys %_Z2D); + +sub h2z { + no warnings qw(uninitialized); + my $r_str = shift; + my ($keep_dakuten) = @_; + my $n = 0; + unless ($keep_dakuten){ + $n = ( + $$r_str =~ s( + ($RE{EUC_KANA} + (?:\x8e[\xde\xdf])?) + ){ + my $str = $1; + $_D2Z{$str} || $_H2Z{$str} || + # in case dakuten and handakuten are side-by-side! + $_H2Z{substr($str,0,2)} . $_H2Z{substr($str,2,2)}; + }eogx + ); + }else{ + $n = ( + $$r_str =~ s( + ($RE{EUC_KANA}) + ){ + $_H2Z{$1}; + }eogx + ); + } + $n; +} + +sub z2h { + my $r_str = shift; + my $n = ( + $$r_str =~ s( + ($RE{EUC_C}|$RE{EUC_0212}|$RE{EUC_KANA}) + ){ + $_Z2D{$1} || $_Z2H{$1} || $1; + }eogx + ); + $n; +} + +1; +__END__ + + +=head1 NAME + +Encode::JP::H2Z -- internally used by Encode::JP::2022_JP* + +=cut diff --git a/Master/tlpkg/tlperl/lib/Encode/JP/JIS7.pm b/Master/tlpkg/tlperl/lib/Encode/JP/JIS7.pm new file mode 100644 index 00000000000..28503ec760c --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/JP/JIS7.pm @@ -0,0 +1,165 @@ +package Encode::JP::JIS7; +use strict; + +our $VERSION = do { my @r = (q$Revision: 2.0 $ =~ /\d+/g); sprintf "%d."."%02d" x $#r, @r }; + +use Encode qw(:fallbacks); + +for my $name ('7bit-jis', 'iso-2022-jp', 'iso-2022-jp-1'){ + my $h2z = ($name eq '7bit-jis') ? 0 : 1; + my $jis0212 = ($name eq 'iso-2022-jp') ? 0 : 1; + + $Encode::Encoding{$name} = + bless { + Name => $name, + h2z => $h2z, + jis0212 => $jis0212, + } => __PACKAGE__; +} + +use base qw(Encode::Encoding); + +# we override this to 1 so PerlIO works +sub needs_lines { 1 } + +use Encode::CJKConstants qw(:all); + +# +# decode is identical for all 2022 variants +# + +sub decode($$;$) +{ + my ($obj, $str, $chk) = @_; + my $residue = ''; + if ($chk){ + $str =~ s/([^\x00-\x7f].*)$//so and $residue = $1; + } + $residue .= jis_euc(\$str); + $_[1] = $residue if $chk; + return Encode::decode('euc-jp', $str, FB_PERLQQ); +} + +# +# encode is different +# + +sub encode($$;$) +{ + require Encode::JP::H2Z; + my ($obj, $utf8, $chk) = @_; + # empty the input string in the stack so perlio is ok + $_[1] = '' if $chk; + my ($h2z, $jis0212) = @$obj{qw(h2z jis0212)}; + my $octet = Encode::encode('euc-jp', $utf8, FB_PERLQQ) ; + $h2z and &Encode::JP::H2Z::h2z(\$octet); + euc_jis(\$octet, $jis0212); + return $octet; +} + +# +# cat_decode +# +my $re_scan_jis_g = qr{ + \G ( ($RE{JIS_0212}) | $RE{JIS_0208} | + ($RE{ISO_ASC}) | ($RE{JIS_KANA}) | ) + ([^\e]*) +}x; +sub cat_decode { # ($obj, $dst, $src, $pos, $trm, $chk) + my ($obj, undef, undef, $pos, $trm) = @_; # currently ignores $chk + my ($rdst, $rsrc, $rpos) = \@_[1,2,3]; + local ${^ENCODING}; + use bytes; + my $opos = pos($$rsrc); + pos($$rsrc) = $pos; + while ($$rsrc =~ /$re_scan_jis_g/gc) { + my ($esc, $esc_0212, $esc_asc, $esc_kana, $chunk) = + ($1, $2, $3, $4, $5); + + unless ($chunk) { $esc or last; next; } + + if ($esc && !$esc_asc) { + $chunk =~ tr/\x21-\x7e/\xa1-\xfe/; + if ($esc_kana) { + $chunk =~ s/([\xa1-\xdf])/\x8e$1/og; + } elsif ($esc_0212) { + $chunk =~ s/([\xa1-\xfe][\xa1-\xfe])/\x8f$1/og; + } + $chunk = Encode::decode('euc-jp', $chunk, 0); + } + elsif ((my $npos = index($chunk, $trm)) >= 0) { + $$rdst .= substr($chunk, 0, $npos + length($trm)); + $$rpos += length($esc) + $npos + length($trm); + pos($$rsrc) = $opos; + return 1; + } + $$rdst .= $chunk; + $$rpos = pos($$rsrc); + } + $$rpos = pos($$rsrc); + pos($$rsrc) = $opos; + return ''; +} + +# JIS<->EUC +my $re_scan_jis = qr{ + (?:($RE{JIS_0212})|$RE{JIS_0208}|($RE{ISO_ASC})|($RE{JIS_KANA}))([^\e]*) +}x; + +sub jis_euc { + local ${^ENCODING}; + my $r_str = shift; + $$r_str =~ s($re_scan_jis) + { + my ($esc_0212, $esc_asc, $esc_kana, $chunk) = + ($1, $2, $3, $4); + if (!$esc_asc) { + $chunk =~ tr/\x21-\x7e/\xa1-\xfe/; + if ($esc_kana) { + $chunk =~ s/([\xa1-\xdf])/\x8e$1/og; + } + elsif ($esc_0212) { + $chunk =~ s/([\xa1-\xfe][\xa1-\xfe])/\x8f$1/og; + } + } + $chunk; + }geox; + my ($residue) = ($$r_str =~ s/(\e.*)$//so); + return $residue; +} + +sub euc_jis{ + no warnings qw(uninitialized); + my $r_str = shift; + my $jis0212 = shift; + $$r_str =~ s{ + ((?:$RE{EUC_C})+|(?:$RE{EUC_KANA})+|(?:$RE{EUC_0212})+) + }{ + my $chunk = $1; + my $esc = + ( $chunk =~ tr/\x8E//d ) ? $ESC{KANA} : + ( $chunk =~ tr/\x8F//d ) ? $ESC{JIS_0212} : + $ESC{JIS_0208}; + if ($esc eq $ESC{JIS_0212} && !$jis0212){ + # fallback to '?' + $chunk =~ tr/\xA1-\xFE/\x3F/; + }else{ + $chunk =~ tr/\xA1-\xFE/\x21-\x7E/; + } + $esc . $chunk . $ESC{ASC}; + }geox; + $$r_str =~ + s/\Q$ESC{ASC}\E + (\Q$ESC{KANA}\E|\Q$ESC{JIS_0212}\E|\Q$ESC{JIS_0208}\E)/$1/gox; + $$r_str; +} + +1; +__END__ + + +=head1 NAME + +Encode::JP::JIS7 -- internally used by Encode::JP + +=cut diff --git a/Master/tlpkg/tlperl/lib/Encode/KR.pm b/Master/tlpkg/tlperl/lib/Encode/KR.pm new file mode 100644 index 00000000000..e9d4073b7b4 --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/KR.pm @@ -0,0 +1,72 @@ +package Encode::KR; +BEGIN { + if (ord("A") == 193) { + die "Encode::KR not supported on EBCDIC\n"; + } +} +our $VERSION = do { my @r = (q$Revision: 2.0 $ =~ /\d+/g); sprintf "%d."."%02d" x $#r, @r }; + +use Encode; +use XSLoader; +XSLoader::load(__PACKAGE__,$VERSION); + +use Encode::KR::2022_KR; + +1; +__END__ + +=head1 NAME + +Encode::KR - Korean Encodings + +=head1 SYNOPSIS + + use Encode qw/encode decode/; + $euc_kr = encode("euc-kr", $utf8); # loads Encode::KR implicitly + $utf8 = decode("euc-kr", $euc_kr); # ditto + +=head1 DESCRIPTION + +This module implements Korean charset encodings. Encodings supported +are as follows. + + + Canonical Alias Description + -------------------------------------------------------------------- + euc-kr /\beuc.*kr$/i EUC (Extended Unix Character) + /\bkr.*euc$/i + ksc5601-raw Korean standard code set (as is) + cp949 /(?:x-)?uhc$/i + /(?:x-)?windows-949$/i + /\bks_c_5601-1987$/i + Code Page 949 (EUC-KR + 8,822 + (additional Hangul syllables) + MacKorean EUC-KR + Apple Vendor Mappings + johab JOHAB A supplementary encoding defined in + Annex 3 of KS X 1001:1998 + iso-2022-kr iso-2022-kr [RFC1557] + -------------------------------------------------------------------- + +To find how to use this module in detail, see L<Encode>. + +=head1 BUGS + +When you see C<charset=ks_c_5601-1987> on mails and web pages, they really +mean "cp949" encodings. To fix that, the following aliases are set; + + qr/(?:x-)?uhc$/i => '"cp949"' + qr/(?:x-)?windows-949$/i => '"cp949"' + qr/ks_c_5601-1987$/i => '"cp949"' + +The ASCII region (0x00-0x7f) is preserved for all encodings, even +though this conflicts with mappings by the Unicode Consortium. See + +L<http://www.debian.or.jp/~kubota/unicode-symbols.html.en> + +to find out why it is implemented that way. + +=head1 SEE ALSO + +L<Encode> + +=cut diff --git a/Master/tlpkg/tlperl/lib/Encode/KR/2022_KR.pm b/Master/tlpkg/tlperl/lib/Encode/KR/2022_KR.pm new file mode 100644 index 00000000000..8b4052be570 --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/KR/2022_KR.pm @@ -0,0 +1,79 @@ +package Encode::KR::2022_KR; +use strict; + +our $VERSION = do { my @r = (q$Revision: 2.0 $ =~ /\d+/g); sprintf "%d."."%02d" x $#r, @r }; + +use Encode qw(:fallbacks); + +use base qw(Encode::Encoding); +__PACKAGE__->Define('iso-2022-kr'); + +sub needs_lines { 1 } + +sub perlio_ok { + return 0; # for the time being +} + +sub decode +{ + my ($obj, $str, $chk) = @_; + my $res = $str; + my $residue = iso_euc(\$res); + # This is for PerlIO + $_[1] = $residue if $chk; + return Encode::decode('euc-kr', $res, FB_PERLQQ); +} + +sub encode +{ + my ($obj, $utf8, $chk) = @_; + # empty the input string in the stack so perlio is ok + $_[1] = '' if $chk; + my $octet = Encode::encode('euc-kr', $utf8, FB_PERLQQ) ; + euc_iso(\$octet); + return $octet; +} + +use Encode::CJKConstants qw(:all); + +# ISO<->EUC + +sub iso_euc{ + my $r_str = shift; + $$r_str =~ s/$RE{'2022_KR'}//gox; # remove the designator + $$r_str =~ s{ # replace characters in GL + \x0e # between SO(\x0e) and SI(\x0f) + ([^\x0f]*) # with characters in GR + \x0f + } + { + my $out= $1; + $out =~ tr/\x21-\x7e/\xa1-\xfe/; + $out; + }geox; + my ($residue) = ($$r_str =~ s/(\e.*)$//so); + return $residue; +} + +sub euc_iso{ + no warnings qw(uninitialized); + my $r_str = shift; + substr($$r_str,0,0)=$ESC{'2022_KR'}; # put the designator at the beg. + $$r_str =~ s{ # move KS X 1001 characters in GR to GL + ($RE{EUC_C}+) # and enclose them with SO and SI + }{ + my $str = $1; + $str =~ tr/\xA1-\xFE/\x21-\x7E/; + "\x0e" . $str . "\x0f"; + }geox; + $$r_str; +} + +1; +__END__ + +=head1 NAME + +Encode::KR::2022_KR -- internally used by Encode::KR + +=cut diff --git a/Master/tlpkg/tlperl/lib/Encode/MIME/Header.pm b/Master/tlpkg/tlperl/lib/Encode/MIME/Header.pm new file mode 100644 index 00000000000..f4e2ad6e2b5 --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/MIME/Header.pm @@ -0,0 +1,230 @@ +package Encode::MIME::Header; +use strict; +# use warnings; +our $VERSION = do { my @r = (q$Revision: 2.1 $ =~ /\d+/g); sprintf "%d."."%02d" x $#r, @r }; +use Encode qw(find_encoding encode_utf8 decode_utf8); +use MIME::Base64; +use Carp; + +my %seed = + ( + decode_b => '1', # decodes 'B' encoding ? + decode_q => '1', # decodes 'Q' encoding ? + encode => 'B', # encode with 'B' or 'Q' ? + bpl => 75, # bytes per line + ); + +$Encode::Encoding{'MIME-Header'} = + bless { + %seed, + Name => 'MIME-Header', + } => __PACKAGE__; + +$Encode::Encoding{'MIME-B'} = + bless { + %seed, + decode_q => 0, + Name => 'MIME-B', + } => __PACKAGE__; + +$Encode::Encoding{'MIME-Q'} = + bless { + %seed, + decode_q => 1, + encode => 'Q', + Name => 'MIME-Q', + } => __PACKAGE__; + +use base qw(Encode::Encoding); + +sub needs_lines { 1 } +sub perlio_ok{ 0 }; + +sub decode($$;$){ + use utf8; + my ($obj, $str, $chk) = @_; + # zap spaces between encoded words + $str =~ s/\?=\s+=\?/\?==\?/gos; + # multi-line header to single line + $str =~ s/(:?\r|\n|\r\n)[ \t]//gos; + $str =~ + s{ + =\? # begin encoded word + ([0-9A-Za-z\-_]+) # charset (encoding) + \?([QqBb])\? # delimiter + (.*?) # Base64-encodede contents + \?= # end encoded word + }{ + if (uc($2) eq 'B'){ + $obj->{decode_b} or croak qq(MIME "B" unsupported); + decode_b($1, $3); + }elsif(uc($2) eq 'Q'){ + $obj->{decode_q} or croak qq(MIME "Q" unsupported); + decode_q($1, $3); + }else{ + croak qq(MIME "$2" encoding is nonexistent!); + } + }egox; + $_[1] = '' if $chk; + return $str; +} + +sub decode_b{ + my $enc = shift; + my $d = find_encoding($enc) or croak qq(Unknown encoding "$enc"); + my $db64 = decode_base64(shift); + return $d->name eq 'utf8' ? + Encode::decode_utf8($db64) : $d->decode($db64, Encode::FB_PERLQQ); +} + +sub decode_q{ + my ($enc, $q) = @_; + my $d = find_encoding($enc) or croak qq(Unknown encoding "$enc"); + $q =~ s/_/ /go; + $q =~ s/=([0-9A-Fa-f]{2})/pack("C", hex($1))/ego; + return $d->name eq 'utf8' ? + Encode::decode_utf8($q) : $d->decode($q, Encode::FB_PERLQQ); +} + +my $especials = + join('|' => + map {quotemeta(chr($_))} + unpack("C*", qq{()<>@,;:\"\'/[]?.=})); + +my $re_encoded_word = + qr{ + (?: + =\? # begin encoded word + (?:[0-9A-Za-z\-_]+) # charset (encoding) + \?(?:[QqBb])\? # delimiter + (?:.*?) # Base64-encodede contents + \?= # end encoded word + ) + }xo; + +my $re_especials = qr{$re_encoded_word|$especials}xo; + +sub encode($$;$){ + my ($obj, $str, $chk) = @_; + my @line = (); + for my $line (split /\r|\n|\r\n/o, $str){ + my (@word, @subline); + for my $word (split /($re_especials)/o, $line){ + if ($word =~ /[^\x00-\x7f]/o or $word =~ /^$re_encoded_word$/o){ + push @word, $obj->_encode($word); + }else{ + push @word, $word; + } + } + my $subline = ''; + for my $word (@word){ + use bytes (); + if (bytes::length($subline) + bytes::length($word) > $obj->{bpl}){ + push @subline, $subline; + $subline = ''; + } + $subline .= $word; + } + $subline and push @subline, $subline; + push @line, join("\n " => @subline); + } + $_[1] = '' if $chk; + return join("\n", @line); +} + +use constant HEAD => '=?UTF-8?'; +use constant TAIL => '?='; +use constant SINGLE => { B => \&_encode_b, Q => \&_encode_q, }; + +sub _encode{ + my ($o, $str) = @_; + my $enc = $o->{encode}; + my $llen = ($o->{bpl} - length(HEAD) - 2 - length(TAIL)); + # to coerce a floating-point arithmetics, the following contains + # .0 in numbers -- dankogai + $llen *= $enc eq 'B' ? 3.0/4.0 : 1.0/3.0; + my @result = (); + my $chunk = ''; + while(length(my $chr = substr($str, 0, 1, ''))){ + use bytes (); + if (bytes::length($chunk) + bytes::length($chr) > $llen){ + push @result, SINGLE->{$enc}($chunk); + $chunk = ''; + } + $chunk .= $chr; + } + $chunk and push @result, SINGLE->{$enc}($chunk); + return @result; +} + +sub _encode_b{ + HEAD . 'B?' . encode_base64(encode_utf8(shift), '') . TAIL; +} + +sub _encode_q{ + my $chunk = shift; + $chunk =~ s{ + ([^0-9A-Za-z]) + }{ + join("" => map {sprintf "=%02X", $_} unpack("C*", $1)) + }egox; + return decode_utf8(HEAD . 'Q?' . $chunk . TAIL); +} + +1; +__END__ + +=head1 NAME + +Encode::MIME::Header -- MIME 'B' and 'Q' header encoding + +=head1 SYNOPSIS + + use Encode qw/encode decode/; + $utf8 = decode('MIME-Header', $header); + $header = encode('MIME-Header', $utf8); + +=head1 ABSTRACT + +This module implements RFC 2047 Mime Header Encoding. There are 3 +variant encoding names; C<MIME-Header>, C<MIME-B> and C<MIME-Q>. The +difference is described below + + decode() encode() + ---------------------------------------------- + MIME-Header Both B and Q =?UTF-8?B?....?= + MIME-B B only; Q croaks =?UTF-8?B?....?= + MIME-Q Q only; B croaks =?UTF-8?Q?....?= + +=head1 DESCRIPTION + +When you decode(=?I<encoding>?I<X>?I<ENCODED WORD>?=), I<ENCODED WORD> +is extracted and decoded for I<X> encoding (B for Base64, Q for +Quoted-Printable). Then the decoded chunk is fed to +decode(I<encoding>). So long as I<encoding> is supported by Encode, +any source encoding is fine. + +When you encode, it just encodes UTF-8 string with I<X> encoding then +quoted with =?UTF-8?I<X>?....?= . The parts that RFC 2047 forbids to +encode are left as is and long lines are folded within 76 bytes per +line. + +=head1 BUGS + +It would be nice to support encoding to non-UTF8, such as =?ISO-2022-JP? +and =?ISO-8859-1?= but that makes the implementation too complicated. +These days major mail agents all support =?UTF-8? so I think it is +just good enough. + +Due to popular demand, 'MIME-Header-ISO_2022_JP' was introduced by +Makamaka. Thre are still too many MUAs especially cellular phone +handsets which does not grok UTF-8. + +=head1 SEE ALSO + +L<Encode> + +RFC 2047, L<http://www.faqs.org/rfcs/rfc2047.html> and many other +locations. + +=cut diff --git a/Master/tlpkg/tlperl/lib/Encode/MIME/Header/ISO_2022_JP.pm b/Master/tlpkg/tlperl/lib/Encode/MIME/Header/ISO_2022_JP.pm new file mode 100644 index 00000000000..5f637a32472 --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/MIME/Header/ISO_2022_JP.pm @@ -0,0 +1,127 @@ +package Encode::MIME::Header::ISO_2022_JP; + +use strict; +use base qw(Encode::MIME::Header); + +$Encode::Encoding{'MIME-Header-ISO_2022_JP'} + = bless {encode => 'B', bpl => 76, Name => 'MIME-Header-ISO_2022_JP'} + => __PACKAGE__; + +use constant HEAD => '=?ISO-2022-JP?B?'; +use constant TAIL => '?='; + +use Encode::CJKConstants qw(%RE); + +our $VERSION = do { my @r = (q$Revision: 1.1 $ =~ /\d+/g); sprintf "%d."."%02d" x $#r, @r }; + + +# I owe the below codes totally to +# Jcode by Dan Kogai & http://www.din.or.jp/~ohzaki/perl.htm#JP_Base64 + +sub encode { + my $self = shift; + my $str = shift; + + utf8::encode($str) if( Encode::is_utf8($str) ); + Encode::from_to($str, 'utf8', 'euc-jp'); + + my($trailing_crlf) = ($str =~ /(\n|\r|\x0d\x0a)$/o); + + $str = _mime_unstructured_header($str, $self->{bpl}); + + not $trailing_crlf and $str =~ s/(\n|\r|\x0d\x0a)$//o; + + return $str; +} + + +sub _mime_unstructured_header { + my ($oldheader, $bpl) = @_; + my $crlf = $oldheader =~ /\n$/; + my($header, @words, @wordstmp, $i) = (''); + + $oldheader =~ s/\s+$//; + + @wordstmp = split /\s+/, $oldheader; + + for ($i = 0; $i < $#wordstmp; $i++){ + if( $wordstmp[$i] !~ /^[\x21-\x7E]+$/ and $wordstmp[$i + 1] !~ /^[\x21-\x7E]+$/){ + $wordstmp[$i + 1] = "$wordstmp[$i] $wordstmp[$i + 1]"; + } + else{ + push(@words, $wordstmp[$i]); + } + } + + push(@words, $wordstmp[-1]); + + for my $word (@words){ + if ($word =~ /^[\x21-\x7E]+$/) { + $header =~ /(?:.*\n)*(.*)/; + if (length($1) + length($word) > $bpl) { + $header .= "\n $word"; + } + else{ + $header .= $word; + } + } + else{ + $header = _add_encoded_word($word, $header, $bpl); + } + + $header =~ /(?:.*\n)*(.*)/; + + if(length($1) == $bpl){ + $header .= "\n "; + } + else { + $header .= ' '; + } + } + + $header =~ s/\n? $//mg; + + $crlf ? "$header\n" : $header; +} + + +sub _add_encoded_word { + my($str, $line, $bpl) = @_; + my $result = ''; + + while( length($str) ){ + my $target = $str; + $str = ''; + + if(length($line) + 22 + ($target =~ /^(?:$RE{EUC_0212}|$RE{EUC_C})/o) * 8 > $bpl){ + $line =~ s/[ \t\n\r]*$/\n/; + $result .= $line; + $line = ' '; + } + + while(1){ + my $iso_2022_jp = $target; + Encode::from_to($iso_2022_jp, 'euc-jp', 'iso-2022-jp'); + + my $encoded + = HEAD . MIME::Base64::encode_base64($iso_2022_jp, '') . TAIL; + + if(length($encoded) + length($line) > $bpl){ + $target =~ s/($RE{EUC_0212}|$RE{EUC_KANA}|$RE{EUC_C}|$RE{ASCII})$//o; + $str = $1 . $str; + } + else{ + $line .= $encoded; + last; + } + } + + } + + $result . $line; +} + + +1; +__END__ + diff --git a/Master/tlpkg/tlperl/lib/Encode/Makefile_PL.e2x b/Master/tlpkg/tlperl/lib/Encode/Makefile_PL.e2x new file mode 100644 index 00000000000..3bca0bff52b --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/Makefile_PL.e2x @@ -0,0 +1,180 @@ +# +# This file is auto-generated by: +# enc2xs version $_Version_ +# $_Now_ +# +use 5.7.2; +use strict; +use ExtUtils::MakeMaker; +use Config; + +# Please edit the following to the taste! +my $name = '$_Name_'; +my %tables = ( + $_Name__t => [ $_TableFiles_ ], + ); + +#### DO NOT EDIT BEYOND THIS POINT! +require File::Spec; +my ($enc2xs, $encode_h) = (); +PATHLOOP: +for my $d (@Config{qw/bin sitebin vendorbin/}, + (split /$Config{path_sep}/o, $ENV{PATH})){ + for my $f (qw/enc2xs enc2xs5.7.3/){ + my $path = File::Spec->catfile($d, $f); + -r $path and $enc2xs = $path and last PATHLOOP; + } +} +$enc2xs or die "enc2xs not found!"; +print "enc2xs is $enc2xs\n"; +my %encode_h = (); +for my $d (@INC){ + my $dir = File::Spec->catfile($d, "Encode"); + my $file = File::Spec->catfile($dir, "encode.h"); + -f $file and $encode_h{$dir} = -M $file; +} +%encode_h or die "encode.h not found!"; +# find the latest one +($encode_h) = sort {$encode_h{$b} <=> $encode_h{$a}} keys %encode_h; +print "encode.h is at $encode_h\n"; + +WriteMakefile( + INC => "-I$encode_h", +#### END_OF_HEADER -- DO NOT EDIT THIS LINE BY HAND! #### + NAME => 'Encode::'.$name, + VERSION_FROM => "$name.pm", + OBJECT => '$(O_FILES)', + 'dist' => { + COMPRESS => 'gzip -9f', + SUFFIX => 'gz', + DIST_DEFAULT => 'all tardist', + }, + MAN3PODS => {}, + PREREQ_PM => { + 'Encode' => "1.41", + }, + # OS 390 winges about line numbers > 64K ??? + XSOPT => '-nolinenumbers', + ); + +package MY; + +sub post_initialize +{ + my ($self) = @_; + my %o; + my $x = $self->{'OBJ_EXT'}; + # Add the table O_FILES + foreach my $e (keys %tables) + { + $o{$e.$x} = 1; + } + $o{"$name$x"} = 1; + $self->{'O_FILES'} = [sort keys %o]; + my @files = ("$name.xs"); + $self->{'C'} = ["$name.c"]; + # The next two lines to make MacPerl Happy -- dankogai via pudge + $self->{SOURCE} .= " $name.c" + if $^O eq 'MacOS' && $self->{SOURCE} !~ /\b$name\.c\b/; + # $self->{'H'} = [$self->catfile($self->updir,'encode.h')]; + my %xs; + foreach my $table (keys %tables) { + push (@{$self->{'C'}},"$table.c"); + # Do NOT add $table.h etc. to H_FILES unless we own up as to how they + # get built. + foreach my $ext (qw($(OBJ_EXT) .c .h .exh .fnm)) { + push (@files,$table.$ext); + } + } + $self->{'XS'} = { "$name.xs" => "$name.c" }; + $self->{'clean'}{'FILES'} .= join(' ',@files); + open(XS,">$name.xs") || die "Cannot open $name.xs:$!"; + print XS <<'END'; +#include <EXTERN.h> +#include <perl.h> +#include <XSUB.h> +#define U8 U8 +#include "encode.h" +END + foreach my $table (keys %tables) { + print XS qq[#include "${table}.h"\n]; + } + print XS <<"END"; + +static void +Encode_XSEncoding(pTHX_ encode_t *enc) +{ + dSP; + HV *stash = gv_stashpv("Encode::XS", TRUE); + SV *sv = sv_bless(newRV_noinc(newSViv(PTR2IV(enc))),stash); + int i = 0; + PUSHMARK(sp); + XPUSHs(sv); + while (enc->name[i]) + { + const char *name = enc->name[i++]; + XPUSHs(sv_2mortal(newSVpvn(name,strlen(name)))); + } + PUTBACK; + call_pv("Encode::define_encoding",G_DISCARD); + SvREFCNT_dec(sv); +} + +MODULE = Encode::$name PACKAGE = Encode::$name +PROTOTYPES: DISABLE +BOOT: +{ +END + foreach my $table (keys %tables) { + print XS qq[#include "${table}.exh"\n]; + } + print XS "}\n"; + close(XS); + return "# Built $name.xs\n\n"; +} + +sub postamble +{ + my $self = shift; + my $dir = "."; # $self->catdir('Encode'); + my $str = "# $name\$(OBJ_EXT) depends on .h and .exh files not .c files - but all written by enc2xs\n"; + $str .= "$name.c : $name.xs "; + foreach my $table (keys %tables) + { + $str .= " $table.c"; + } + $str .= "\n\n"; + $str .= "$name\$(OBJ_EXT) : $name.c\n\n"; + + foreach my $table (keys %tables) + { + my $numlines = 1; + my $lengthsofar = length($str); + my $continuator = ''; + $str .= "$table.c : Makefile.PL"; + foreach my $file (@{$tables{$table}}) + { + $str .= $continuator.' '.$self->catfile($dir,$file); + if ( length($str)-$lengthsofar > 128*$numlines ) + { + $continuator .= " \\\n\t"; + $numlines++; + } else { + $continuator = ''; + } + } + my $plib = $self->{PERL_CORE} ? '"-I$(PERL_LIB)"' : ''; + my $ucopts = '-"Q"'; + $str .= + qq{\n\t\$(PERL) $plib $enc2xs $ucopts -o \$\@ -f $table.fnm\n\n}; + open (FILELIST, ">$table.fnm") + || die "Could not open $table.fnm: $!"; + foreach my $file (@{$tables{$table}}) + { + print FILELIST $self->catfile($dir,$file) . "\n"; + } + close(FILELIST); + } + return $str; +} + diff --git a/Master/tlpkg/tlperl/lib/Encode/PerlIO.pod b/Master/tlpkg/tlperl/lib/Encode/PerlIO.pod new file mode 100644 index 00000000000..abd1f2d10a1 --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/PerlIO.pod @@ -0,0 +1,167 @@ +=head1 NAME + +Encode::PerlIO -- a detailed document on Encode and PerlIO + +=head1 Overview + +It is very common to want to do encoding transformations when +reading or writing files, network connections, pipes etc. +If Perl is configured to use the new 'perlio' IO system then +C<Encode> provides a "layer" (see L<PerlIO>) which can transform +data as it is read or written. + +Here is how the blind poet would modernise the encoding: + + use Encode; + open(my $iliad,'<:encoding(iso-8859-7)','iliad.greek'); + open(my $utf8,'>:utf8','iliad.utf8'); + my @epic = <$iliad>; + print $utf8 @epic; + close($utf8); + close($illiad); + +In addition, the new IO system can also be configured to read/write +UTF-8 encoded characters (as noted above, this is efficient): + + open(my $fh,'>:utf8','anything'); + print $fh "Any \x{0021} string \N{SMILEY FACE}\n"; + +Either of the above forms of "layer" specifications can be made the default +for a lexical scope with the C<use open ...> pragma. See L<open>. + +Once a handle is open, its layers can be altered using C<binmode>. + +Without any such configuration, or if Perl itself is built using the +system's own IO, then write operations assume that the file handle +accepts only I<bytes> and will C<die> if a character larger than 255 is +written to the handle. When reading, each octet from the handle becomes +a byte-in-a-character. Note that this default is the same behaviour +as bytes-only languages (including Perl before v5.6) would have, +and is sufficient to handle native 8-bit encodings e.g. iso-8859-1, +EBCDIC etc. and any legacy mechanisms for handling other encodings +and binary data. + +In other cases, it is the program's responsibility to transform +characters into bytes using the API above before doing writes, and to +transform the bytes read from a handle into characters before doing +"character operations" (e.g. C<lc>, C</\W+/>, ...). + +You can also use PerlIO to convert larger amounts of data you don't +want to bring into memory. For example, to convert between ISO-8859-1 +(Latin 1) and UTF-8 (or UTF-EBCDIC in EBCDIC machines): + + open(F, "<:encoding(iso-8859-1)", "data.txt") or die $!; + open(G, ">:utf8", "data.utf") or die $!; + while (<F>) { print G } + + # Could also do "print G <F>" but that would pull + # the whole file into memory just to write it out again. + +More examples: + + open(my $f, "<:encoding(cp1252)") + open(my $g, ">:encoding(iso-8859-2)") + open(my $h, ">:encoding(latin9)") # iso-8859-15 + +See also L<encoding> for how to change the default encoding of the +data in your script. + +=head1 How does it work? + +Here is a crude diagram of how filehandle, PerlIO, and Encode +interact. + + filehandle <-> PerlIO PerlIO <-> scalar (read/printed) + \ / + Encode + +When PerlIO receives data from either direction, it fills a buffer +(currently with 1024 bytes) and passes the buffer to Encode. +Encode tries to convert the valid part and passes it back to PerlIO, +leaving invalid parts (usually a partial character) in the buffer. +PerlIO then appends more data to the buffer, calls Encode again, +and so on until the data stream ends. + +To do so, PerlIO always calls (de|en)code methods with CHECK set to 1. +This ensures that the method stops at the right place when it +encounters partial character. The following is what happens when +PerlIO and Encode tries to encode (from utf8) more than 1024 bytes +and the buffer boundary happens to be in the middle of a character. + + A B C .... ~ \x{3000} .... + 41 42 43 .... 7E e3 80 80 .... + <- buffer ---------------> + << encoded >>>>>>>>>> + <- next buffer ------ + +Encode converts from the beginning to \x7E, leaving \xe3 in the buffer +because it is invalid (partial character). + +Unfortunately, this scheme does not work well with escape-based +encodings such as ISO-2022-JP. + +=head1 Line Buffering + +Now let's see what happens when you try to decode from ISO-2022-JP and +the buffer ends in the middle of a character. + + JIS208-ESC \x{5f3e} + A B C .... ~ \e $ B |DAN | .... + 41 42 43 .... 7E 1b 24 41 43 46 .... + <- buffer ---------------------------> + << encoded >>>>>>>>>>>>>>>>>>>>>>> + +As you see, the next buffer begins with \x43. But \x43 is 'C' in +ASCII, which is wrong in this case because we are now in JISX 0208 +area so it has to convert \x43\x46, not \x43. Unlike utf8 and EUC, +in escape-based encodings you can't tell if a given octet is a whole +character or just part of it. + +Fortunately PerlIO also supports line buffer if you tell PerlIO to use +one instead of fixed buffer. Since ISO-2022-JP is guaranteed to revert to ASCII at the end of the line, partial +character will never happen when line buffer is used. + +To tell PerlIO to use line buffer, implement -E<gt>needs_lines method +for your encoding object. See L<Encode::Encoding> for details. + +Thanks to these efforts most encodings that come with Encode support +PerlIO but that still leaves following encodings. + + iso-2022-kr + MIME-B + MIME-Header + MIME-Q + +Fortunately iso-2022-kr is hardly used (according to Jungshik) and +MIME-* are very unlikely to be fed to PerlIO because they are for mail +headers. See L<Encode::MIME::Header> for details. + +=head2 How can I tell whether my encoding fully supports PerlIO ? + +As of this writing, any encoding whose class belongs to Encode::XS and +Encode::Unicode works. The Encode module has a C<perlio_ok> method +which you can use before applying PerlIO encoding to the filehandle. +Here is an example: + + my $use_perlio = perlio_ok($enc); + my $layer = $use_perlio ? "<:raw" : "<:encoding($enc)"; + open my $fh, $layer, $file or die "$file : $!"; + while(<$fh>){ + $_ = decode($enc, $_) unless $use_perlio; + # .... + } + +=head1 SEE ALSO + +L<Encode::Encoding>, +L<Encode::Supported>, +L<Encode::PerlIO>, +L<encoding>, +L<perlebcdic>, +L<perlfunc/open>, +L<perlunicode>, +L<utf8>, +the Perl Unicode Mailing List E<lt>perl-unicode@perl.orgE<gt> + +=cut + diff --git a/Master/tlpkg/tlperl/lib/Encode/README.e2x b/Master/tlpkg/tlperl/lib/Encode/README.e2x new file mode 100644 index 00000000000..28a31a655c2 --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/README.e2x @@ -0,0 +1,31 @@ +Encode::$_Name_ version 0.1 +======== + +NAME + Encode::$_Name_ - <describe encoding> + +SYNOPSIS + use Encode::$_Name_; + #<put more words here> +ABSTRACT + <fill this in> +INSTALLATION + +To install this module type the following: + + perl Makefile.PL + make + make test + make install + +DEPENDENCIES + +This module requires perl version 5.7.3 or later. + +COPYRIGHT AND LICENCE + +Copyright (C) 2002 Your Name <your@address.domain> + +This library is free software; you can redistribute it and/or modify +it under the same terms as Perl itself. + diff --git a/Master/tlpkg/tlperl/lib/Encode/Supported.pod b/Master/tlpkg/tlperl/lib/Encode/Supported.pod new file mode 100644 index 00000000000..651f7e6ed4f --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/Supported.pod @@ -0,0 +1,890 @@ +=head1 NAME + +Encode::Supported -- Encodings supported by Encode + +=head1 DESCRIPTION + +=head2 Encoding Names + +Encoding names are case insensitive. White space in names +is ignored. In addition, an encoding may have aliases. +Each encoding has one "canonical" name. The "canonical" +name is chosen from the names of the encoding by picking +the first in the following sequence (with a few exceptions). + +=over 4 + +=item * + +The name used by the Perl community. That includes 'utf8' and 'ascii'. +Unlike aliases, canonical names directly reach the method so such +frequently used words like 'utf8' don't need to do alias lookups. + +=item * + +The MIME name as defined in IETF RFCs. This includes all "iso-"s. + +=item * + +The name in the IANA registry. + +=item * + +The name used by the organization that defined it. + +=back + +In case I<de jure> canonical names differ from that of the Encode +module, they are always aliased if it ever be implemented. So you can +safely tell if a given encoding is implemented or not just by passing +the canonical name. + +Because of all the alias issues, and because in the general case +encodings have state, "Encode" uses an encoding object internally +once an operation is in progress. + +=head1 Supported Encodings + +As of Perl 5.8.0, at least the following encodings are recognized. +Note that unless otherwise specified, they are all case insensitive +(via alias) and all occurrence of spaces are replaced with '-'. +In other words, "ISO 8859 1" and "iso-8859-1" are identical. + +Encodings are categorized and implemented in several different modules +but you don't have to C<use Encode::XX> to make them available for +most cases. Encode.pm will automatically load those modules on demand. + +=head2 Built-in Encodings + +The following encodings are always available. + + Canonical Aliases Comments & References + ---------------------------------------------------------------- + ascii US-ascii ISO-646-US [ECMA] + ascii-ctrl Special Encoding + iso-8859-1 latin1 [ISO] + null Special Encoding + utf8 UTF-8 [RFC2279] + ---------------------------------------------------------------- + +I<null> and I<ascii-ctrl> are special. "null" fails for all character +so when you set fallback mode to PERLQQ, HTMLCREF or XMLCREF, ALL +CHARACTERS will fall back to character references. Ditto for +"ascii-ctrl" except for control characters. For fallback modes, see +L<Encode>. + +=head2 Encode::Unicode -- other Unicode encodings + +Unicode coding schemes other than native utf8 are supported by +Encode::Unicode, which will be autoloaded on demand. + + ---------------------------------------------------------------- + UCS-2BE UCS-2, iso-10646-1 [IANA, UC] + UCS-2LE [UC] + UTF-16 [UC] + UTF-16BE [UC] + UTF-16LE [UC] + UTF-32 [UC] + UTF-32BE UCS-4 [UC] + UTF-32LE [UC] + UTF-7 [RFC2152] + ---------------------------------------------------------------- + +To find how (UCS-2|UTF-(16|32))(LE|BE)? differ from one another, +see L<Encode::Unicode>. + +UTF-7 is a special encoding which "re-encodes" UTF-16BE into a 7-bit +encoding. It is implemented seperately by Encode::Unicode::UTF7. + +=head2 Encode::Byte -- Extended ASCII + +Encode::Byte implements most single-byte encodings except for +Symbols and EBCDIC. The following encodings are based on single-byte +encodings implemented as extended ASCII. Most of them map +\x80-\xff (upper half) to non-ASCII characters. + +=over 4 + +=item ISO-8859 and corresponding vendor mappings + +Since there are so many, they are presented in table format with +languages and corresponding encoding names by vendors. Note that +the table is sorted in order of ISO-8859 and the corresponding vendor +mappings are slightly different from that of ISO. See +L<http://czyborra.com/charsets/iso8859.html> for details. + + Lang/Regions ISO/Other Std. DOS Windows Macintosh Others + ---------------------------------------------------------------- + N. America (ASCII) cp437 AdobeStandardEncoding + cp863 (DOSCanadaF) + W. Europe iso-8859-1 cp850 cp1252 MacRoman nextstep + hp-roman8 + cp860 (DOSPortuguese) + Cntrl. Europe iso-8859-2 cp852 cp1250 MacCentralEurRoman + MacCroatian + MacRomanian + MacRumanian + Latin3[1] iso-8859-3 + Latin4[2] iso-8859-4 + Cyrillics iso-8859-5 cp855 cp1251 MacCyrillic + (See also next section) cp866 MacUkrainian + Arabic iso-8859-6 cp864 cp1256 MacArabic + cp1006 MacFarsi + Greek iso-8859-7 cp737 cp1253 MacGreek + cp869 (DOSGreek2) + Hebrew iso-8859-8 cp862 cp1255 MacHebrew + Turkish iso-8859-9 cp857 cp1254 MacTurkish + Nordics iso-8859-10 cp865 + cp861 MacIcelandic + MacSami + Thai iso-8859-11[3] cp874 MacThai + (iso-8859-12 is nonexistent. Reserved for Indics?) + Baltics iso-8859-13 cp775 cp1257 + Celtics iso-8859-14 + Latin9 [4] iso-8859-15 + Latin10 iso-8859-16 + Vietnamese viscii cp1258 MacVietnamese + ---------------------------------------------------------------- + + [1] Esperanto, Maltese, and Turkish. Turkish is now on 8859-9. + [2] Baltics. Now on 8859-10, except for Latvian. + [3] TIS 620 + Non-Breaking Space (0xA0 / U+00A0) + [4] Nicknamed Latin0; the Euro sign as well as French and Finnish + letters that are missing from 8859-1 were added. + +All cp* are also available as ibm-*, ms-*, and windows-* . See also +L<http://czyborra.com/charsets/codepages.html>. + +Macintosh encodings don't seem to be registered in such entities as +IANA. "Canonical" names in Encode are based upon Apple's Tech Note +1150. See L<http://developer.apple.com/technotes/tn/tn1150.html> +for details. + +=item KOI8 - De Facto Standard for the Cyrillic world + +Though ISO-8859 does have ISO-8859-5, the KOI8 series is far more +popular in the Net. L<Encode> comes with the following KOI charsets. +For gory details, see L<http://czyborra.com/charsets/cyrillic.html> + + ---------------------------------------------------------------- + koi8-f + koi8-r cp878 [RFC1489] + koi8-u [RFC2319] + ---------------------------------------------------------------- + +=item gsm0338 - Hentai Latin 1 + +GSM0338 is for GSM handsets. Though it shares alphanumerals with +ASCII, control character ranges and other parts are mapped very +differently, mainly to store Greek characters. There are also escape +sequences (starting with 0x1B) to cover e.g. the Euro sign. Some +special cases like a trailing 0x00 byte or a lone 0x1B byte are not +well-defined and decode() will return an empty string for them. +One possible workaround is + + $gsm =~ s/\x00\z/\x00\x00/; + $uni = decode("gsm0338", $gsm); + $uni .= "\xA0" if $gsm =~ /\x1B\z/; + +Note that the Encode implementation of GSM0338 does not implement the +reuse of Latin capital letters as Greek capital letters (for example, +the 0x5A is U+005A (LATIN CAPITAL LETTER Z), not U+0396 (GREEK CAPITAL +LETTER ZETA). + +The GSM0338 is also covered in Encode::Byte even though it is not +an "extended ASCII" encoding. + +=back + +=head2 CJK: Chinese, Japanese, Korean (Multibyte) + +Note that Vietnamese is listed above. Also read "Encoding vs Charset" +below. Also note that these are implemented in distinct modules by +countries, due to the size concerns (simplified Chinese is mapped +to 'CN', continental China, while traditional Chinese is mapped to +'TW', Taiwan). Please refer to their respective documentation pages. + +=over 4 + +=item Encode::CN -- Continental China + + Standard DOS/Win Macintosh Comment/Reference + ---------------------------------------------------------------- + euc-cn [1] MacChineseSimp + (gbk) cp936 [2] + gb12345-raw { GB12345 without CES } + gb2312-raw { GB2312 without CES } + hz + iso-ir-165 + ---------------------------------------------------------------- + + [1] GB2312 is aliased to this. See L<Microsoft-related naming mess> + [2] gbk is aliased to this. See L<Microsoft-related naming mess> + +=item Encode::JP -- Japan + + Standard DOS/Win Macintosh Comment/Reference + ---------------------------------------------------------------- + euc-jp + shiftjis cp932 macJapanese + 7bit-jis + iso-2022-jp [RFC1468] + iso-2022-jp-1 [RFC2237] + jis0201-raw { JIS X 0201 (roman + halfwidth kana) without CES } + jis0208-raw { JIS X 0208 (Kanji + fullwidth kana) without CES } + jis0212-raw { JIS X 0212 (Extended Kanji) without CES } + ---------------------------------------------------------------- + +=item Encode::KR -- Korea + + Standard DOS/Win Macintosh Comment/Reference + ---------------------------------------------------------------- + euc-kr MacKorean [RFC1557] + cp949 [1] + iso-2022-kr [RFC1557] + johab [KS X 1001:1998, Annex 3] + ksc5601-raw { KSC5601 without CES } + ---------------------------------------------------------------- + + [1] ks_c_5601-1987, (x-)?windows-949, and uhc are aliased to this. + See below. + +=item Encode::TW -- Taiwan + + Standard DOS/Win Macintosh Comment/Reference + ---------------------------------------------------------------- + big5-eten cp950 MacChineseTrad {big5 aliased to big5-eten} + big5-hkscs + ---------------------------------------------------------------- + +=item Encode::HanExtra -- More Chinese via CPAN + +Due to the size concerns, additional Chinese encodings below are +distributed separately on CPAN, under the name Encode::HanExtra. + + Standard DOS/Win Macintosh Comment/Reference + ---------------------------------------------------------------- + big5ext CMEX's Big5e Extension + big5plus CMEX's Big5+ Extension + cccii Chinese Character Code for Information Interchange + euc-tw EUC (Extended Unix Character) + gb18030 GBK with Traditional Characters + ---------------------------------------------------------------- + +=item Encode::JIS2K -- JIS X 0213 encodings via CPAN + +Due to size concerns, additional Japanese encodings below are +distributed separately on CPAN, under the name Encode::JIS2K. + + Standard DOS/Win Macintosh Comment/Reference + ---------------------------------------------------------------- + euc-jisx0213 + shiftjisx0123 + iso-2022-jp-3 + jis0213-1-raw + jis0213-2-raw + ---------------------------------------------------------------- + +=back + +=head2 Miscellaneous encodings + +=over 4 + +=item Encode::EBCDIC + +See L<perlebcdic> for details. + + ---------------------------------------------------------------- + cp37 + cp500 + cp875 + cp1026 + cp1047 + posix-bc + ---------------------------------------------------------------- + +=item Encode::Symbols + +For symbols and dingbats. + + ---------------------------------------------------------------- + symbol + dingbats + MacDingbats + AdobeZdingbat + AdobeSymbol + ---------------------------------------------------------------- + +=item Encode::MIME::Header + +Strictly speaking, MIME header encoding documented in RFC 2047 is more +of encapsulation than encoding. However, their support in modern +world is imperative so they are supported. + + ---------------------------------------------------------------- + MIME-Header [RFC2047] + MIME-B [RFC2047] + MIME-Q [RFC2047] + ---------------------------------------------------------------- + +=item Encode::Guess + +This one is not a name of encoding but a utility that lets you pick up +the most appropriate encoding for a data out of given I<suspects>. See +L<Encode::Guess> for details. + +=back + +=head1 Unsupported encodings + +The following encodings are not supported as yet; some because they +are rarely used, some because of technical difficulties. They may +be supported by external modules via CPAN in the future, however. + +=over 4 + +=item ISO-2022-JP-2 [RFC1554] + +Not very popular yet. Needs Unicode Database or equivalent to +implement encode() (because it includes JIS X 0208/0212, KSC5601, and +GB2312 simultaneously, whose code points in Unicode overlap. So you +need to lookup the database to determine to what character set a given +Unicode character should belong). + +=item ISO-2022-CN [RFC1922] + +Not very popular. Needs CNS 11643-1 and -2 which are not available in +this module. CNS 11643 is supported (via euc-tw) in Encode::HanExtra. +Autrijus Tang may add support for this encoding in his module in future. + +=item Various HP-UX encodings + +The following are unsupported due to the lack of mapping data. + + '8' - arabic8, greek8, hebrew8, kana8, thai8, and turkish8 + '15' - japanese15, korean15, and roi15 + +=item Cyrillic encoding ISO-IR-111 + +Anton Tagunov doubts its usefulness. + +=item ISO-8859-8-1 [Hebrew] + +None of the Encode team knows Hebrew enough (ISO-8859-8, cp1255 and +MacHebrew are supported because and just because there were mappings +available at L<http://www.unicode.org/>). Contributions welcome. + +=item ISIRI 3342, Iran System, ISIRI 2900 [Farsi] + +Ditto. + +=item Thai encoding TCVN + +Ditto. + +=item Vietnamese encodings VPS + +Though Jungshik Shin has reported that Mozilla supports this encoding, +it was too late before 5.8.0 for us to add it. In the future, it +may be available via a separate module. See +L<http://lxr.mozilla.org/seamonkey/source/intl/uconv/ucvlatin/vps.uf> +and +L<http://lxr.mozilla.org/seamonkey/source/intl/uconv/ucvlatin/vps.ut> +if you are interested in helping us. + +=item Various Mac encodings + +The following are unsupported due to the lack of mapping data. + + MacArmenian, MacBengali, MacBurmese, MacEthiopic + MacExtArabic, MacGeorgian, MacKannada, MacKhmer + MacLaotian, MacMalayalam, MacMongolian, MacOriya + MacSinhalese, MacTamil, MacTelugu, MacTibetan + MacVietnamese + +The rest which are already available are based upon the vendor mappings +at L<http://www.unicode.org/Public/MAPPINGS/VENDORS/APPLE/> . + +=item (Mac) Indic encodings + +The maps for the following are available at L<http://www.unicode.org/> +but remain unsupport because those encodings need algorithmical +approach, currently unsupported by F<enc2xs>: + + MacDevanagari + MacGurmukhi + MacGujarati + +For details, please see C<Unicode mapping issues and notes:> at +L<http://www.unicode.org/Public/MAPPINGS/VENDORS/APPLE/DEVANAGA.TXT> . + +I believe this issue is prevalent not only for Mac Indics but also in +other Indic encodings, but the above were the only Indic encodings +maps that I could find at L<http://www.unicode.org/> . + +=back + +=head1 Encoding vs. Charset -- terminology + +We are used to using the term (character) I<encoding> and I<character +set> interchangeably. But just as confusing the terms byte and +character is dangerous and the terms should be differentiated when +needed, we need to differentiate I<encoding> and I<character set>. + +To understand that, here is a description of how we make computers +grok our characters. + +=over 4 + +=item * + +First we start with which characters to include. We call this +collection of characters I<character repertoire>. + +=item * + +Then we have to give each character a unique ID so your computer can +tell the difference between 'a' and 'A'. This itemized character +repertoire is now a I<character set>. + +=item * + +If your computer can grow the character set without further +processing, you can go ahead and use it. This is called a I<coded +character set> (CCS) or I<raw character encoding>. ASCII is used this +way for most cases. + +=item * + +But in many cases, especially multi-byte CJK encodings, you have to +tweak a little more. Your network connection may not accept any data +with the Most Significant Bit set, and your computer may not be able to +tell if a given byte is a whole character or just half of it. So you +have to I<encode> the character set to use it. + +A I<character encoding scheme> (CES) determines how to encode a given +character set, or a set of multiple character sets. 7bit ISO-2022 is +an example of a CES. You switch between character sets via I<escape +sequences>. + +=back + +Technically, or mathematically, speaking, a character set encoded in +such a CES that maps character by character may form a CCS. EUC is such +an example. The CES of EUC is as follows: + +=over 4 + +=item * + +Map ASCII unchanged. + +=item * + +Map such a character set that consists of 94 or 96 powered by N +members by adding 0x80 to each byte. + +=item * + +You can also use 0x8e and 0x8f to indicate that the following sequence of +characters belongs to yet another character set. To each following byte +is added the value 0x80. + +=back + +By carefully looking at the encoded byte sequence, you can find that the +byte sequence conforms a unique number. In that sense, EUC is a CCS +generated by a CES above from up to four CCS (complicated?). UTF-8 +falls into this category. See L<perlUnicode/"UTF-8"> to find out how +UTF-8 maps Unicode to a byte sequence. + +You may also have found out by now why 7bit ISO-2022 cannot comprise +a CCS. If you look at a byte sequence \x21\x21, you can't tell if +it is two !'s or IDEOGRAPHIC SPACE. EUC maps the latter to \xA1\xA1 +so you have no trouble differentiating between "!!". and S<" ">. + +=head1 Encoding Classification (by Anton Tagunov and Dan Kogai) + +This section tries to classify the supported encodings by their +applicability for information exchange over the Internet and to +choose the most suitable aliases to name them in the context of +such communication. + +=over 4 + +=item * + +To (en|de)code encodings marked by C<(**)>, you need +C<Encode::HanExtra>, available from CPAN. + +=back + +Encoding names + + US-ASCII UTF-8 ISO-8859-* KOI8-R + Shift_JIS EUC-JP ISO-2022-JP ISO-2022-JP-1 + EUC-KR Big5 GB2312 + +are registered with IANA as preferred MIME names and may +be used over the Internet. + +C<Shift_JIS> has been officialized by JIS X 0208:1997. +L<Microsoft-related naming mess> gives details. + +C<GB2312> is the IANA name for C<EUC-CN>. +See L<Microsoft-related naming mess> for details. + +C<GB_2312-80> I<raw> encoding is available as C<gb2312-raw> +with Encode. See L<Encode::CN> for details. + + EUC-CN + KOI8-U [RFC2319] + +have not been registered with IANA (as of March 2002) but +seem to be supported by major web browsers. +The IANA name for C<EUC-CN> is C<GB2312>. + + KS_C_5601-1987 + +is heavily misused. +See L<Microsoft-related naming mess> for details. + +C<KS_C_5601-1987> I<raw> encoding is available as C<kcs5601-raw> +with Encode. See L<Encode::KR> for details. + + UTF-16 UTF-16BE UTF-16LE + +are IANA-registered C<charset>s. See [RFC 2781] for details. +Jungshik Shin reports that UTF-16 with a BOM is well accepted +by MS IE 5/6 and NS 4/6. Beware however that + +=over 4 + +=item * + +C<UTF-16> support in any software you're going to be +using/interoperating with has probably been less tested +then C<UTF-8> support + +=item * + +C<UTF-8> coded data seamlessly passes traditional +command piping (C<cat>, C<more>, etc.) while C<UTF-16> coded +data is likely to cause confusion (with its zero bytes, +for example) + +=item * + +it is beyond the power of words to describe the way HTML browsers +encode non-C<ASCII> form data. To get a general impression, visit +L<http://ppewww.ph.gla.ac.uk/~flavell/charset/form-i18n.html>. +While encoding of form data has stabilized for C<UTF-8> encoded pages +(at least IE 5/6, NS 6, and Opera 6 behave consistently), be sure to +expect fun (and cross-browser discrepancies) with C<UTF-16> encoded +pages! + +=back + +The rule of thumb is to use C<UTF-8> unless you know what +you're doing and unless you really benefit from using C<UTF-16>. + + ISO-IR-165 [RFC1345] + VISCII + GB 12345 + GB 18030 (**) (see links bellow) + EUC-TW (**) + +are totally valid encodings but not registered at IANA. +The names under which they are listed here are probably the +most widely-known names for these encodings and are recommended +names. + + BIG5PLUS (**) + +is a proprietary name. + +=head2 Microsoft-related naming mess + +Microsoft products misuse the following names: + +=over 4 + +=item KS_C_5601-1987 + +Microsoft extension to C<EUC-KR>. + +Proper names: C<CP949>, C<UHC>, C<x-windows-949> (as used by Mozilla). + +See L<http://lists.w3.org/Archives/Public/ietf-charsets/2001AprJun/0033.html> +for details. + +Encode aliases C<KS_C_5601-1987> to C<cp949> to reflect this common +misusage. I<Raw> C<KS_C_5601-1987> encoding is available as +C<kcs5601-raw>. + +See L<Encode::KR> for details. + +=item GB2312 + +Microsoft extension to C<EUC-CN>. + +Proper names: C<CP936>, C<GBK>. + +C<GB2312> has been registered in the C<EUC-CN> meaning at +IANA. This has partially repaired the situation: Microsoft's +C<GB2312> has become a superset of the official C<GB2312>. + +Encode aliases C<GB2312> to C<euc-cn> in full agreement with +IANA registration. C<cp936> is supported separately. +I<Raw> C<GB_2312-80> encoding is available as C<gb2312-raw>. + +See L<Encode::CN> for details. + +=item Big5 + +Microsoft extension to C<Big5>. + +Proper name: C<CP950>. + +Encode separately supports C<Big5> and C<cp950>. + +=item Shift_JIS + +Microsoft's understanding of C<Shift_JIS>. + +JIS has not endorsed the full Microsoft standard however. +The official C<Shift_JIS> includes only JIS X 0201 and JIS X 0208 +character sets, while Microsoft has always used C<Shift_JIS> +to encode a wider character repertoire. See C<IANA> registration for +C<Windows-31J>. + +As a historical predecessor, Microsoft's variant +probably has more rights for the name, though it may be objected +that Microsoft shouldn't have used JIS as part of the name +in the first place. + +Unambiguous name: C<CP932>. C<IANA> name (also used by Mozilla, and +provided as an alias by Encode): C<Windows-31J>. + +Encode separately supports C<Shift_JIS> and C<cp932>. + +=back + +=head1 Glossary + +=over 4 + +=item character repertoire + +A collection of unique characters. A I<character> set in the strictest +sense. At this stage, characters are not numbered. + +=item coded character set (CCS) + +A character set that is mapped in a way computers can use directly. +Many character encodings, including EUC, fall in this category. + +=item character encoding scheme (CES) + +An algorithm to map a character set to a byte sequence. You don't +have to be able to tell which character set a given byte sequence +belongs. 7-bit ISO-2022 is a CES but it cannot be a CCS. EUC is an +example of being both a CCS and CES. + +=item charset (in MIME context) + +has long been used in the meaning of C<encoding>, CES. + +While the word combination C<character set> has lost this meaning +in MIME context since [RFC 2130], the C<charset> abbreviation has +retained it. This is how [RFC 2277] and [RFC 2278] bless C<charset>: + + This document uses the term "charset" to mean a set of rules for + mapping from a sequence of octets to a sequence of characters, such + as the combination of a coded character set and a character encoding + scheme; this is also what is used as an identifier in MIME "charset=" + parameters, and registered in the IANA charset registry ... (Note + that this is NOT a term used by other standards bodies, such as ISO). + [RFC 2277] + +=item EUC + +Extended Unix Character. See ISO-2022. + +=item ISO-2022 + +A CES that was carefully designed to coexist with ASCII. There are a 7 +bit version and an 8 bit version. + +The 7 bit version switches character set via escape sequence so it +cannot form a CCS. Since this is more difficult to handle in programs +than the 8 bit version, the 7 bit version is not very popular except for +iso-2022-jp, the I<de facto> standard CES for e-mails. + +The 8 bit version can form a CCS. EUC and ISO-8859 are two examples +thereof. Pre-5.6 perl could use them as string literals. + +=item UCS + +Short for I<Universal Character Set>. When you say just UCS, it means +I<Unicode>. + +=item UCS-2 + +ISO/IEC 10646 encoding form: Universal Character Set coded in two +octets. + +=item Unicode + +A character set that aims to include all character repertoires of the +world. Many character sets in various national as well as industrial +standards have become, in a way, just subsets of Unicode. + +=item UTF + +Short for I<Unicode Transformation Format>. Determines how to map a +Unicode character into a byte sequence. + +=item UTF-16 + +A UTF in 16-bit encoding. Can either be in big endian or little +endian. The big endian version is called UTF-16BE (equal to UCS-2 + +surrogate support) and the little endian version is called UTF-16LE. + +=back + +=head1 See Also + +L<Encode>, +L<Encode::Byte>, +L<Encode::CN>, L<Encode::JP>, L<Encode::KR>, L<Encode::TW>, +L<Encode::EBCDIC>, L<Encode::Symbol> +L<Encode::MIME::Header>, L<Encode::Guess> + +=head1 References + +=over 4 + +=item ECMA + +European Computer Manufacturers Association +L<http://www.ecma.ch> + +=over 4 + +=item ECMA-035 (eq C<ISO-2022>) + +L<http://www.ecma.ch/ecma1/STAND/ECMA-035.HTM> + +The specification of ISO-2022 is available from the link above. + +=back + +=item IANA + +Internet Assigned Numbers Authority +L<http://www.iana.org/> + +=over 4 + +=item Assigned Charset Names by IANA + +L<http://www.iana.org/assignments/character-sets> + +Most of the C<canonical names> in Encode derive from this list +so you can directly apply the string you have extracted from MIME +header of mails and web pages. + +=back + +=item ISO + +International Organization for Standardization +L<http://www.iso.ch/> + +=item RFC + +Request For Comments -- need I say more? +L<http://www.rfc-editor.org/>, L<http://www.rfc.net/>, +L<http://www.faqs.org/rfcs/> + +=item UC + +Unicode Consortium +L<http://www.unicode.org/> + +=over 4 + +=item Unicode Glossary + +L<http://www.unicode.org/glossary/> + +The glossary of this document is based upon this site. + +=back + +=back + +=head2 Other Notable Sites + +=over 4 + +=item czyborra.com + +L<http://czyborra.com/> + +Contains a lot of useful information, especially gory details of ISO +vs. vendor mappings. + +=item CJK.inf + +L<http://www.oreilly.com/people/authors/lunde/cjk_inf.html> + +Somewhat obsolete (last update in 1996), but still useful. Also try + +L<ftp://ftp.oreilly.com/pub/examples/nutshell/cjkv/pdf/GB18030_Summary.pdf> + +You will find brief info on C<EUC-CN>, C<GBK> and mostly on C<GB 18030>. + +=item Jungshik Shin's Hangul FAQ + +L<http://jshin.net/faq> + +And especially its subject 8. + +L<http://jshin.net/faq/qa8.html> + +A comprehensive overview of the Korean (C<KS *>) standards. + +=item debian.org: "Introduction to i18n" + +A brief description for most of the mentioned CJK encodings is +contained in +L<http://www.debian.org/doc/manuals/intro-i18n/ch-codes.en.html> + +=back + +=head2 Offline sources + +=over 4 + +=item C<CJKV Information Processing> by Ken Lunde + +CJKV Information Processing +1999 O'Reilly & Associates, ISBN : 1-56592-224-7 + +The modern successor of C<CJK.inf>. + +Features a comprehensive coverage of CJKV character sets and +encodings along with many other issues faced by anyone trying +to better support CJKV languages/scripts in all the areas of +information processing. + +To purchase this book, visit +L<http://www.oreilly.com/catalog/cjkvinfo/> +or your favourite bookstore. + +=back + +=cut diff --git a/Master/tlpkg/tlperl/lib/Encode/Symbol.pm b/Master/tlpkg/tlperl/lib/Encode/Symbol.pm new file mode 100644 index 00000000000..7ad8ca92c7d --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/Symbol.pm @@ -0,0 +1,42 @@ +package Encode::Symbol; +use Encode; +our $VERSION = do { my @r = (q$Revision: 2.0 $ =~ /\d+/g); sprintf "%d."."%02d" x $#r, @r }; + +use XSLoader; +XSLoader::load(__PACKAGE__,$VERSION); + +1; +__END__ + +=head1 NAME + +Encode::Symbol - Symbol Encodings + +=head1 SYNOPSIS + + use Encode qw/encode decode/; + $symbol = encode("symbol", $utf8); # loads Encode::Symbol implicitly + $utf8 = decode("", $symbol); # ditto + +=head1 ABSTRACT + +This module implements symbol and dingbats encodings. Encodings +supported are as follows. + + Canonical Alias Description + -------------------------------------------------------------------- + symbol + dingbats + AdobeZDingbat + AdobeSymbol + MacDingbats + +=head1 DESCRIPTION + +To find out how to use this module in detail, see L<Encode>. + +=head1 SEE ALSO + +L<Encode> + +=cut diff --git a/Master/tlpkg/tlperl/lib/Encode/TW.pm b/Master/tlpkg/tlperl/lib/Encode/TW.pm new file mode 100644 index 00000000000..2e1abc0c7f9 --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/TW.pm @@ -0,0 +1,78 @@ +package Encode::TW; +BEGIN { + if (ord("A") == 193) { + die "Encode::TW not supported on EBCDIC\n"; + } +} +our $VERSION = do { my @r = (q$Revision: 2.0 $ =~ /\d+/g); sprintf "%d."."%02d" x $#r, @r }; + +use Encode; +use XSLoader; +XSLoader::load(__PACKAGE__,$VERSION); + +1; +__END__ + +=head1 NAME + +Encode::TW - Taiwan-based Chinese Encodings + +=head1 SYNOPSIS + + use Encode qw/encode decode/; + $big5 = encode("big5", $utf8); # loads Encode::TW implicitly + $utf8 = decode("big5", $big5); # ditto + +=head1 DESCRIPTION + +This module implements tradition Chinese charset encodings as used +in Taiwan and Hong Kong. +Encodings supported are as follows. + + Canonical Alias Description + -------------------------------------------------------------------- + big5-eten /\bbig-?5$/i Big5 encoding (with ETen extensions) + /\bbig5-?et(en)?$/i + /\btca-?big5$/i + big5-hkscs /\bbig5-?hk(scs)?$/i + /\bhk(scs)?-?big5$/i + Big5 + Cantonese characters in Hong Kong + MacChineseTrad Big5 + Apple Vendor Mappings + cp950 Code Page 950 + = Big5 + Microsoft vendor mappings + -------------------------------------------------------------------- + +To find out how to use this module in detail, see L<Encode>. + +=head1 NOTES + +Due to size concerns, C<EUC-TW> (Extended Unix Character), C<CCCII> +(Chinese Character Code for Information Interchange), C<BIG5PLUS> +(CMEX's Big5+) and C<BIG5EXT> (CMEX's Big5e) are distributed separately +on CPAN, under the name L<Encode::HanExtra>. That module also contains +extra China-based encodings. + +=head1 BUGS + +Since the original C<big5> encoding (1984) is not supported anywhere +(glibc and DOS-based systems uses C<big5> to mean C<big5-eten>; Microsoft +uses C<big5> to mean C<cp950>), a conscious decision was made to alias +C<big5> to C<big5-eten>, which is the de facto superset of the original +big5. + +The C<CNS11643> encoding files are not complete. For common C<CNS11643> +manipulation, please use C<EUC-TW> in L<Encode::HanExtra>, which contains +planes 1-7. + +The ASCII region (0x00-0x7f) is preserved for all encodings, even +though this conflicts with mappings by the Unicode Consortium. See + +L<http://www.debian.or.jp/~kubota/unicode-symbols.html.en> + +to find out why it is implemented that way. + +=head1 SEE ALSO + +L<Encode> + +=cut diff --git a/Master/tlpkg/tlperl/lib/Encode/Unicode.pm b/Master/tlpkg/tlperl/lib/Encode/Unicode.pm new file mode 100644 index 00000000000..4d0c31d82d3 --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/Unicode.pm @@ -0,0 +1,268 @@ +package Encode::Unicode; + +use strict; +use warnings; +no warnings 'redefine'; + +our $VERSION = do { my @r = (q$Revision: 2.2 $ =~ /\d+/g); sprintf "%d."."%02d" x $#r, @r }; + +use XSLoader; +XSLoader::load(__PACKAGE__,$VERSION); + +# +# Object Generator 8 transcoders all at once! +# + +require Encode; + +our %BOM_Unknown = map {$_ => 1} qw(UTF-16 UTF-32); + +for my $name (qw(UTF-16 UTF-16BE UTF-16LE + UTF-32 UTF-32BE UTF-32LE + UCS-2BE UCS-2LE)) +{ + my ($size, $endian, $ucs2, $mask); + $name =~ /^(\w+)-(\d+)(\w*)$/o; + if ($ucs2 = ($1 eq 'UCS')){ + $size = 2; + }else{ + $size = $2/8; + } + $endian = ($3 eq 'BE') ? 'n' : ($3 eq 'LE') ? 'v' : '' ; + $size == 4 and $endian = uc($endian); + + $Encode::Encoding{$name} = + bless { + Name => $name, + size => $size, + endian => $endian, + ucs2 => $ucs2, + } => __PACKAGE__; +} + +use base qw(Encode::Encoding); + +sub renew { + my $self = shift; + $BOM_Unknown{$self->name} or return $self; + my $clone = bless { %$self } => ref($self); + $clone->{renewed}++; # so the caller knows it is renewed. + return $clone; +} + +# There used to be a perl implemntation of (en|de)code but with +# XS version is ripe, perl version is zapped for optimal speed + +*decode = \&decode_xs; +*encode = \&encode_xs; + +1; +__END__ + +=head1 NAME + +Encode::Unicode -- Various Unicode Transformation Formats + +=cut + +=head1 SYNOPSIS + + use Encode qw/encode decode/; + $ucs2 = encode("UCS-2BE", $utf8); + $utf8 = decode("UCS-2BE", $ucs2); + +=head1 ABSTRACT + +This module implements all Character Encoding Schemes of Unicode that +are officially documented by Unicode Consortium (except, of course, +for UTF-8, which is a native format in perl). + +=over 4 + +=item L<http://www.unicode.org/glossary/> says: + +I<Character Encoding Scheme> A character encoding form plus byte +serialization. There are Seven character encoding schemes in Unicode: +UTF-8, UTF-16, UTF-16BE, UTF-16LE, UTF-32 (UCS-4), UTF-32BE (UCS-4BE) and +UTF-32LE (UCS-4LE), and UTF-7. + +Since UTF-7 is a 7-bit (re)encoded version of UTF-16BE, It is not part of +Unicode's Character Encoding Scheme. It is separately implemented in +Encode::Unicode::UTF7. For details see L<Encode::Unicode::UTF7>. + +=item Quick Reference + + Decodes from ord(N) Encodes chr(N) to... + octet/char BOM S.P d800-dfff ord > 0xffff \x{1abcd} == + ---------------+-----------------+------------------------------ + UCS-2BE 2 N N is bogus Not Available + UCS-2LE 2 N N bogus Not Available + UTF-16 2/4 Y Y is S.P S.P BE/LE + UTF-16BE 2/4 N Y S.P S.P 0xd82a,0xdfcd + UTF-16LE 2 N Y S.P S.P 0x2ad8,0xcddf + UTF-32 4 Y - is bogus As is BE/LE + UTF-32BE 4 N - bogus As is 0x0001abcd + UTF-32LE 4 N - bogus As is 0xcdab0100 + UTF-8 1-4 - - bogus >= 4 octets \xf0\x9a\af\8d + ---------------+-----------------+------------------------------ + +=back + +=head1 Size, Endianness, and BOM + +You can categorize these CES by 3 criteria: size of each character, +endianness, and Byte Order Mark. + +=head2 by size + +UCS-2 is a fixed-length encoding with each character taking 16 bits. +It B<does not> support I<surrogate pairs>. When a surrogate pair +is encountered during decode(), its place is filled with \x{FFFD} +if I<CHECK> is 0, or the routine croaks if I<CHECK> is 1. When a +character whose ord value is larger than 0xFFFF is encountered, +its place is filled with \x{FFFD} if I<CHECK> is 0, or the routine +croaks if I<CHECK> is 1. + +UTF-16 is almost the same as UCS-2 but it supports I<surrogate pairs>. +When it encounters a high surrogate (0xD800-0xDBFF), it fetches the +following low surrogate (0xDC00-0xDFFF) and C<desurrogate>s them to +form a character. Bogus surrogates result in death. When \x{10000} +or above is encountered during encode(), it C<ensurrogate>s them and +pushes the surrogate pair to the output stream. + +UTF-32 (UCS-4) is a fixed-length encoding with each character taking 32 bits. +Since it is 32-bit, there is no need for I<surrogate pairs>. + +=head2 by endianness + +The first (and now failed) goal of Unicode was to map all character +repertoires into a fixed-length integer so that programmers are happy. +Since each character is either a I<short> or I<long> in C, you have to +pay attention to the endianness of each platform when you pass data +to one another. + +Anything marked as BE is Big Endian (or network byte order) and LE is +Little Endian (aka VAX byte order). For anything not marked either +BE or LE, a character called Byte Order Mark (BOM) indicating the +endianness is prepended to the string. + +CAVEAT: Though BOM in utf8 (\xEF\xBB\xBF) is valid, it is meaningless +and as of this writing Encode suite just leave it as is (\x{FeFF}). + +=over 4 + +=item BOM as integer when fetched in network byte order + + 16 32 bits/char + ------------------------- + BE 0xFeFF 0x0000FeFF + LE 0xFFeF 0xFFFe0000 + ------------------------- + +=back + +This modules handles the BOM as follows. + +=over 4 + +=item * + +When BE or LE is explicitly stated as the name of encoding, BOM is +simply treated as a normal character (ZERO WIDTH NO-BREAK SPACE). + +=item * + +When BE or LE is omitted during decode(), it checks if BOM is at the +beginning of the string; if one is found, the endianness is set to +what the BOM says. If no BOM is found, the routine dies. + +=item * + +When BE or LE is omitted during encode(), it returns a BE-encoded +string with BOM prepended. So when you want to encode a whole text +file, make sure you encode() the whole text at once, not line by line +or each line, not file, will have a BOM prepended. + +=item * + +C<UCS-2> is an exception. Unlike others, this is an alias of UCS-2BE. +UCS-2 is already registered by IANA and others that way. + +=back + +=head1 Surrogate Pairs + +To say the least, surrogate pairs were the biggest mistake of the +Unicode Consortium. But according to the late Douglas Adams in I<The +Hitchhiker's Guide to the Galaxy> Trilogy, C<In the beginning the +Universe was created. This has made a lot of people very angry and +been widely regarded as a bad move>. Their mistake was not of this +magnitude so let's forgive them. + +(I don't dare make any comparison with Unicode Consortium and the +Vogons here ;) Or, comparing Encode to Babel Fish is completely +appropriate -- if you can only stick this into your ear :) + +Surrogate pairs were born when the Unicode Consortium finally +admitted that 16 bits were not big enough to hold all the world's +character repertoires. But they already made UCS-2 16-bit. What +do we do? + +Back then, the range 0xD800-0xDFFF was not allocated. Let's split +that range in half and use the first half to represent the C<upper +half of a character> and the second half to represent the C<lower +half of a character>. That way, you can represent 1024 * 1024 = +1048576 more characters. Now we can store character ranges up to +\x{10ffff} even with 16-bit encodings. This pair of half-character is +now called a I<surrogate pair> and UTF-16 is the name of the encoding +that embraces them. + +Here is a formula to ensurrogate a Unicode character \x{10000} and +above; + + $hi = ($uni - 0x10000) / 0x400 + 0xD800; + $lo = ($uni - 0x10000) % 0x400 + 0xDC00; + +And to desurrogate; + + $uni = 0x10000 + ($hi - 0xD800) * 0x400 + ($lo - 0xDC00); + +Note this move has made \x{D800}-\x{DFFF} into a forbidden zone but +perl does not prohibit the use of characters within this range. To perl, +every one of \x{0000_0000} up to \x{ffff_ffff} (*) is I<a character>. + + (*) or \x{ffff_ffff_ffff_ffff} if your perl is compiled with 64-bit + integer support! + +=head1 Error Checking + +Unlike most encodings which accept various ways to handle errors, +Unicode encodings simply croaks. + + % perl -MEncode -e '$_ = "\xfe\xff\xd8\xd9\xda\xdb\0\n"' \ + -e 'Encode::from_to($_, "utf16","shift_jis", 0); print' + UTF-16:Malformed LO surrogate d8d9 at /path/to/Encode.pm line 184. + % perl -MEncode -e '$a = "BOM missing"' \ + -e ' Encode::from_to($a, "utf16", "shift_jis", 0); print' + UTF-16:Unrecognised BOM 424f at /path/to/Encode.pm line 184. + +Unlike other encodings where mappings are not one-to-one against +Unicode, UTFs are supposed to map 100% against one another. So Encode +is more strict on UTFs. + +Consider that "division by zero" of Encode :) + +=head1 SEE ALSO + +L<Encode>, L<Encode::Unicode::UTF7>, L<http://www.unicode.org/glossary/>, +L<http://www.unicode.org/unicode/faq/utf_bom.html>, + +RFC 2781 L<http://rfc.net/rfc2781.html>, + +The whole Unicode standard L<http://www.unicode.org/unicode/uni2book/u2.html> + +Ch. 15, pp. 403 of C<Programming Perl (3rd Edition)> +by Larry Wall, Tom Christiansen, Jon Orwant; +O'Reilly & Associates; ISBN 0-596-00027-8 + +=cut diff --git a/Master/tlpkg/tlperl/lib/Encode/Unicode/UTF7.pm b/Master/tlpkg/tlperl/lib/Encode/Unicode/UTF7.pm new file mode 100644 index 00000000000..dc75ce37816 --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/Unicode/UTF7.pm @@ -0,0 +1,118 @@ +# +# $Id: UTF7.pm,v 2.1 2004/05/25 16:27:14 dankogai Exp $ +# +package Encode::Unicode::UTF7; +use strict; +no warnings 'redefine'; +use base qw(Encode::Encoding); +__PACKAGE__->Define('UTF-7'); +our $VERSION = do { my @r = (q$Revision: 2.1 $ =~ /\d+/g); sprintf "%d."."%02d" x $#r, @r }; +use MIME::Base64; +use Encode; + +# +# Algorithms taken from Unicode::String by Gisle Aas +# + +our $OPTIONAL_DIRECT_CHARS = 1; +my $specials = quotemeta "\'(),-./:?"; +$OPTIONAL_DIRECT_CHARS and + $specials .= quotemeta "!\"#$%&*;<=>@[]^_`{|}"; +# \s will not work because it matches U+3000 DEOGRAPHIC SPACE +# We use qr/[\n\r\t\ ] instead +my $re_asis = qr/(?:[\n\r\t\ A-Za-z0-9$specials])/; +my $re_encoded = qr/(?:[^\n\r\t\ A-Za-z0-9$specials])/; +my $e_utf16 = find_encoding("UTF-16BE"); + +sub needs_lines { 1 }; + +sub encode($$;$){ + my ($obj, $str, $chk) = @_; + my $len = length($str); + pos($str) = 0; + my $bytes = ''; + while (pos($str) < $len){ + if ($str =~ /\G($re_asis+)/ogc){ + $bytes .= $1; + }elsif($str =~ /\G($re_encoded+)/ogsc){ + if ($1 eq "+"){ + $bytes .= "+-"; + }else{ + my $s = $1; + my $base64 = encode_base64($e_utf16->encode($s), ''); + $base64 =~ s/=+$//; + $bytes .= "+$base64-"; + } + }else{ + die "This should not happen! (pos=" . pos($str) . ")"; + } + } + $_[1] = '' if $chk; + return $bytes; +} + +sub decode{ + my ($obj, $bytes, $chk) = @_; + my $len = length($bytes); + my $str = ""; + while (pos($bytes) < $len) { + if ($bytes =~ /\G([^+]+)/ogc) { + $str .= $1; + }elsif($bytes =~ /\G\+-/ogc) { + $str .= "+"; + }elsif($bytes =~ /\G\+([A-Za-z0-9+\/]+)-?/ogsc) { + my $base64 = $1; + my $pad = length($base64) % 4; + $base64 .= "=" x (4 - $pad) if $pad; + $str .= $e_utf16->decode(decode_base64($base64)); + }elsif($bytes =~ /\G\+/ogc) { + $^W and warn "Bad UTF7 data escape"; + $str .= "+"; + }else{ + die "This should not happen " . pos($bytes); + } + } + $_[1] = '' if $chk; + return $str; +} +1; +__END__ + +=head1 NAME + +Encode::Unicode::UTF7 -- UTF-7 encoding + +=head1 SYNOPSIS + + use Encode qw/encode decode/; + $utf7 = encode("UTF-7", $utf8); + $utf8 = decode("UTF-7", $ucs2); + +=head1 ABSTRACT + +This module implements UTF-7 encoding documented in RFC 2152. UTF-7, +as its name suggests, is a 7-bit re-encoded version of UTF-16BE. It +is designed to be MTA-safe and expected to be a standard way to +exchange Unicoded mails via mails. But with the advent of UTF-8 and +8-bit compliant MTAs, UTF-7 is hardly ever used. + +UTF-7 was not supported by Encode until version 1.95 because of that. +But Unicode::String, a module by Gisle Aas which adds Unicode supports +to non-utf8-savvy perl did support UTF-7, the UTF-7 support was added +so Encode can supersede Unicode::String 100%. + +=head1 In Practice + +When you want to encode Unicode for mails and web pages, however, do +not use UTF-7 unless you are sure your recipients and readers can +handle it. Very few MUAs and WWW Browsers support these days (only +Mozilla seems to support one). For general cases, use UTF-8 for +message body and MIME-Header for header instead. + +=head1 SEE ALSO + +L<Encode>, L<Encode::Unicode>, L<Unicode::String> + +RFC 2781 L<http://www.ietf.org/rfc/rfc2152.txt> + +=cut diff --git a/Master/tlpkg/tlperl/lib/Encode/_PM.e2x b/Master/tlpkg/tlperl/lib/Encode/_PM.e2x new file mode 100644 index 00000000000..eb59cd1b520 --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/_PM.e2x @@ -0,0 +1,23 @@ +package Encode::$_Name_; +our $VERSION = "0.01"; + +use Encode; +use XSLoader; +XSLoader::load(__PACKAGE__,$VERSION); + +1; +__END__ + +=head1 NAME + +Encode::$_Name_ - New Encoding + +=head1 SYNOPSIS + +You got to fill this in! + +=head1 SEE ALSO + +L<Encode> + +=cut diff --git a/Master/tlpkg/tlperl/lib/Encode/_T.e2x b/Master/tlpkg/tlperl/lib/Encode/_T.e2x new file mode 100644 index 00000000000..6cf5f293d54 --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/_T.e2x @@ -0,0 +1,7 @@ +use strict; +# Adjust the number here! +use Test::More tests => 2; + +use_ok('Encode'); +use_ok('Encode::$_Name_'); +# Add more test here! diff --git a/Master/tlpkg/tlperl/lib/Encode/encode.h b/Master/tlpkg/tlperl/lib/Encode/encode.h new file mode 100644 index 00000000000..94764a6a14c --- /dev/null +++ b/Master/tlpkg/tlperl/lib/Encode/encode.h @@ -0,0 +1,111 @@ +#ifndef ENCODE_H +#define ENCODE_H + +#ifndef U8 +/* + A tad devious this: + perl normally has a #define for U8 - if that isn't present then we + typedef it - leaving it #ifndef so we can do data parts without + getting extern references to the code parts +*/ +typedef unsigned char U8; +#endif + +typedef struct encpage_s encpage_t; + +struct encpage_s +{ + /* fields ordered to pack nicely on 32-bit machines */ + const U8 *seq; /* Packed output sequences we generate + if we match */ + encpage_t *next; /* Page to go to if we match */ + U8 min; /* Min value of octet to match this entry */ + U8 max; /* Max value of octet to match this entry */ + U8 dlen; /* destination length - + size of entries in seq */ + U8 slen; /* source length - + number of source octets needed */ +}; + +/* + At any point in a translation there is a page pointer which points + at an array of the above structures. + + Basic operation : + get octet from source stream. + if (octet >= min && octet < max) { + if slen is 0 then we cannot represent this character. + if we have less than slen octets (including this one) then + we have a partial character. + otherwise + copy dlen octets from seq + dlen*(octet-min) to output + (dlen may be zero if we don't know yet.) + load page pointer with next to continue. + (is slen is one this is end of a character) + get next octet. + } + else { + increment the page pointer to look at next slot in the array + } + + arrays SHALL be constructed so there is an entry which matches + ..0xFF at the end, and either maps it or indicates no + representation. + + if MSB of slen is set then mapping is an approximate "FALLBACK" entry. + +*/ + + +typedef struct encode_s encode_t; +struct encode_s +{ + encpage_t *t_utf8; /* Starting table for translation from + the encoding to UTF-8 form */ + encpage_t *f_utf8; /* Starting table for translation + from UTF-8 to the encoding */ + const U8 *rep; /* Replacement character in this encoding + e.g. "?" */ + int replen; /* Number of octets in rep */ + U8 min_el; /* Minimum octets to represent a character */ + U8 max_el; /* Maximum octets to represent a character */ + const char *name[2]; /* name(s) of this encoding */ +}; + +#ifdef U8 +/* See comment at top of file for deviousness */ + +extern int do_encode(encpage_t *enc, const U8 *src, STRLEN *slen, + U8 *dst, STRLEN dlen, STRLEN *dout, int approx, + const U8 *term, STRLEN tlen); + +extern void Encode_DefineEncoding(encode_t *enc); + +#endif /* U8 */ + +#define ENCODE_NOSPACE 1 +#define ENCODE_PARTIAL 2 +#define ENCODE_NOREP 3 +#define ENCODE_FALLBACK 4 +#define ENCODE_FOUND_TERM 5 + +#define FBCHAR_UTF8 "\xEF\xBF\xBD" + +#define ENCODE_DIE_ON_ERR 0x0001 /* croaks immediately */ +#define ENCODE_WARN_ON_ERR 0x0002 /* warn on error; may proceed */ +#define ENCODE_RETURN_ON_ERR 0x0004 /* immediately returns on NOREP */ +#define ENCODE_LEAVE_SRC 0x0008 /* $src updated unless set */ +#define ENCODE_PERLQQ 0x0100 /* perlqq fallback string */ +#define ENCODE_HTMLCREF 0x0200 /* HTML character ref. fb mode */ +#define ENCODE_XMLCREF 0x0400 /* XML character ref. fb mode */ +#define ENCODE_STOP_AT_PARTIAL 0x0800 /* stop at partial explicitly */ + +#define ENCODE_FB_DEFAULT 0x0000 +#define ENCODE_FB_CROAK 0x0001 +#define ENCODE_FB_QUIET ENCODE_RETURN_ON_ERR +#define ENCODE_FB_WARN (ENCODE_RETURN_ON_ERR|ENCODE_WARN_ON_ERR) +#define ENCODE_FB_PERLQQ (ENCODE_PERLQQ|ENCODE_LEAVE_SRC) +#define ENCODE_FB_HTMLCREF (ENCODE_HTMLCREF|ENCODE_LEAVE_SRC) +#define ENCODE_FB_XMLCREF (ENCODE_XMLCREF|ENCODE_LEAVE_SRC) + +#endif /* ENCODE_H */ |