# # $Id: Jcode.pm,v 0.88 2004/12/03 12:04:12 dankogai Exp $ # =head1 NAME Jcode - Japanese Charset Handler =head1 SYNOPSIS use Jcode; # # traditional Jcode::convert(\$str, $ocode, $icode, "z"); # or OOP! print Jcode->new($str)->h2z->tr($from, $to)->utf8; =cut =head1 DESCRIPTION Jcode.pm supports both object and traditional approach. With object approach, you can go like; $iso_2022_jp = Jcode->new($str)->h2z->jis; Which is more elegant than; $iso_2022_jp = &jcode::convert(\$str,'jis',jcode::getcode(\str), "z"); For those unfamiliar with objects, Jcode.pm still supports getcode() and convert(). =cut package Jcode; use 5.004; use Carp; use strict; use vars qw($RCSID $VERSION $DEBUG); $RCSID = q$Id: Jcode.pm,v 0.88 2004/12/03 12:04:12 dankogai Exp $; $VERSION = do { my @r = (q$Revision: 0.88 $ =~ /\d+/g); sprintf "%d."."%02d" x $#r, @r }; $DEBUG = 0; use Exporter; use vars qw(@ISA @EXPORT @EXPORT_OK %EXPORT_TAGS); @ISA = qw(Exporter); @EXPORT = qw(jcode getcode); @EXPORT_OK = qw($RCSID $VERSION $DEBUG); %EXPORT_TAGS = ( all => [ @EXPORT_OK, @EXPORT ] ); use vars qw($USE_CACHE $NOXS); $USE_CACHE = 1; $NOXS = 0; print $RCSID, "\n" if $DEBUG; use Jcode::Constants qw(:all); use overload q("") => sub { ${$_[0]->[0]} }, q(==) => sub {overload::StrVal($_[0]) eq overload::StrVal($_[1])}, q(=) => sub { $_[0]->set( $_[1] ) }, q(.=) => sub { $_[0]->append( $_[1] ) }, fallback => 1, ; =head1 Methods Methods mentioned here all return Jcode object unless otherwise mentioned. =over 4 =item $j = Jcode-Enew($str [, $icode]); Creates Jcode object $j from $str. Input code is automatically checked unless you explicitly set $icode. For available charset, see L below. The object keeps the string in EUC format enternaly. When the object itself is evaluated, it returns the EUC-converted string so you can "print $j;" without calling access method if you are using EUC (thanks to function overload). =item Passing Reference Instead of scalar value, You can use reference as Jcode->new(\$str); This saves time a little bit. In exchange of the value of $str being converted. (In a way, $str is now "tied" to jcode object). =item $j-Eset($str [, $icode]); Sets $j's internal string to $str. Handy when you use Jcode object repeatedly (saves time and memory to create object). # converts mailbox to SJIS format my $jconv = new Jcode; $/ = 00; while(<>){ print $jconv->set(\$_)->mime_decode->sjis; } =item $j-Eappend($str [, $icode]); Appends $str to $j's internal string. =back =cut sub new { my $class = shift; my ($thingy, $icode) = @_; my $r_str = ref $thingy ? $thingy : \$thingy; my $nmatch; ($icode, $nmatch) = getcode($r_str) unless $icode; convert($r_str, 'euc', $icode); my $self = [ $r_str, $icode, $nmatch, ]; carp "Object of class $class created" if $DEBUG >= 2; bless $self, $class; } sub r_str { $_[0]->[0] } sub icode { $_[0]->[1] } sub nmatch { $_[0]->[2] } sub set { my $self = shift; my ($thingy, $icode) = @_; my $r_str = ref $thingy ? $thingy : \$thingy; my $nmatch; ($icode, $nmatch) = getcode($r_str) unless $icode; convert($r_str, 'euc', $icode); $self->[0] = $r_str; $self->[1] = $icode; $self->[2] = $nmatch; return $self; } sub append { my $self = shift; my ($thingy, $icode) = @_; my $r_str = ref $thingy ? $thingy : \$thingy; my $nmatch; ($icode, $nmatch) = getcode($r_str) unless $icode; convert($r_str, 'euc', $icode); ${$self->[0]} .= $$r_str; $self->[1] = $icode; $self->[2] = $nmatch; return $self; } =over 4 =item $j = jcode($str [, $icode]); shortcut for Jcode->new() so you can go like; $sjis = jcode($str)->sjis; =item $euc = $j-Eeuc; =item $jis = $j-Ejis; =item $sjis = $j-Esjis; What you code is what you get :) =item $iso_2022_jp = $j-Eiso_2022_jp Same as $j->h2z->jis. Hankaku Kanas are forcibly converted to Zenkaku. =back =cut sub jcode { return Jcode->new(@_) } sub euc { return ${$_[0]->[0]} } sub jis { return &euc_jis(${$_[0]->[0]})} sub sjis { return &euc_sjis(${$_[0]->[0]})} sub iso_2022_jp{return $_[0]->h2z->jis} =over 4 =item [@lines =] $jcode-Ejfold([$bytes_per_line, $newline_str]); folds lines in jcode string every $bytes_per_line (default: 72) in a way that does not clobber the multibyte string. (Sorry, no Kinsoku done!) with a newline string spified by $newline_str (default: \n). =back =cut sub jfold{ my $self = shift; my ($bpl, $nl) = @_; $bpl ||= 72; $nl ||= "\n"; my $r_str = $self->[0]; my @lines = (); my $len = 0; my $i = 0; while ($$r_str =~ m/($RE{EUC_0212}|$RE{EUC_KANA}|$RE{EUC_C}|[\x00-\xff])/sgo) { if ($len + length($1) > $bpl){ # fold! $i++; $len = 0; } $lines[$i] .= $1; $len += length($1); } defined($lines[$i]) or pop @lines; $$r_str = join($nl, @lines); return wantarray ? @lines : $self; } =pod =over 4 =item $length = $jcode-Ejlength(); returns character length properly, rather than byte length. =back =cut sub jlength { my $self = shift; my $r_str = $self->[0]; return scalar (my @char = $$r_str =~ m/($RE{EUC_0212}|$RE{EUC_KANA}|$RE{EUC_C}|[\x00-\xff])/sgo); } =head2 Methods that use MIME::Base64 To use methods below, you need MIME::Base64. To install, simply perl -MCPAN -e 'CPAN::Shell->install("MIME::Base64")' =over 4 =item $mime_header = $j-Emime_encode([$lf, $bpl]); Converts $str to MIME-Header documented in RFC1522. When $lf is specified, it uses $lf to fold line (default: \n). When $bpl is specified, it uses $bpl for the number of bytes (default: 76; this number must be smaller than 76). =item $j-Emime_decode; Decodes MIME-Header in Jcode object. You can retrieve the number of matches via $j->nmatch; =back =cut sub mime_encode{ my $self = shift; my $r_str = $self->[0]; my $lf = shift || "\n"; my $bpl = shift || 76; my ($trailing_crlf) = ($$r_str =~ /(\n|\r|\x0d\x0a)$/o); my $str = _mime_unstructured_header($$r_str, $lf, $bpl); not $trailing_crlf and $str =~ s/(\n|\r|\x0d\x0a)$//o; $str; } # # shamelessly stolen from # http://www.din.or.jp/~ohzaki/perl.htm#JP_Base64 # sub _add_encoded_word { require MIME::Base64; my($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 $iso_2022_jp = jcode($target, 'euc')->iso_2022_jp; if (my $count = ($iso_2022_jp =~ tr/\x80-\xff//d)){ $DEBUG and warn $count; $target = jcode($iso_2022_jp, 'iso_2022_jp')->euc; } my $encoded = '=?ISO-2022-JP?B?' . MIME::Base64::encode_base64($iso_2022_jp, '') . '?='; 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; } } } return $result . $line; } sub _mime_unstructured_header { my ($oldheader, $lf, $bpl) = @_; my(@words, @wordstmp, $i); my $header = ''; $oldheader =~ s/\s+$//; @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) { $header .= "$lf $word"; } else { $header .= $word; } } else { $header = _add_encoded_word($word, $header, $bpl); } $header =~ /(?:.*\n)*(.*)/; if (length($1) == $bpl) { $header .= "$lf "; } else { $header .= ' '; } } $header =~ s/\n? $/\n/; $header; } # see http://www.din.or.jp/~ohzaki/perl.htm#JP_Base64 #$lws = '(?:(?:\x0d\x0a)?[ \t])+'; #$ew_regex = '=\?ISO-2022-JP\?B\?([A-Za-z0-9+/]+=*)\?='; #$str =~ s/($ew_regex)$lws(?=$ew_regex)/$1/gio; #$str =~ s/$lws/ /go; $str =~ s/$ew_regex/decode_base64($1)/egio; sub mime_decode{ require MIME::Base64; # not use my $self = shift; my $r_str = $self->[0]; my $re_lws = '(?:(?:\r|\n|\x0d\x0a)?[ \t])+'; my $re_ew = '=\?[Ii][Ss][Oo]-2022-[Jj][Pp]\?[Bb]\?([A-Za-z0-9+/]+=*)\?='; $$r_str =~ s/($re_ew)$re_lws(?=$re_ew)/$1/sgo; $$r_str =~ s/$re_lws/ /go; $self->[2] = ($$r_str =~ s/$re_ew/jis_euc(MIME::Base64::decode_base64($1))/ego ); $self; } =head2 Methods implemented by Jcode::H2Z Methods below are actually implemented in Jcode::H2Z. =over 4 =item $j-Eh2z([$keep_dakuten]); Converts X201 kana (Hankaku) to X208 kana (Zenkaku). When $keep_dakuten is set, it leaves dakuten as is (That is, "ka + dakuten" is left as is instead of being converted to "ga") You can retrieve the number of matches via $j->nmatch; =item $j-Ez2h; Converts X208 kana (Zenkaku) to X201 kana (Hankaku). You can retrieve the number of matches via $j->nmatch; =back =cut sub h2z { require Jcode::H2Z; # not use my $self = shift; $self->[2] = Jcode::H2Z::h2z($self->[0], @_); return $self; } sub z2h { require Jcode::H2Z; # not use my $self = shift; $self->[2] = &Jcode::H2Z::z2h($self->[0], @_); return $self; } =head2 Methods implemented in Jcode::Tr Methods here are actually implemented in Jcode::Tr. =over 4 =item $j-Etr($from, $to); Applies tr on Jcode object. $from and $to can contain EUC Japanese. You can retrieve the number of matches via $j->nmatch; =back =cut sub tr{ require Jcode::Tr; # not use my $self = shift; $self->[2] = Jcode::Tr::tr($self->[0], @_); return $self; } # # load needed module depending on the configuration just once! # use vars qw(%PKG_LOADED); sub load_module{ my $pkg = shift; return $pkg if $PKG_LOADED{$pkg}++; unless ($NOXS){ eval qq( require $pkg; ); unless ($@){ carp "$pkg loaded." if $DEBUG; return $pkg; } } $pkg .= "::NoXS"; eval qq( require $pkg; ); unless ($@){ carp "$pkg loaded" if $DEBUG; }else{ croak "Loading $pkg failed!"; } $pkg; } =head2 Methods implemented in Jcode::Unicode If your perl does not support XS (or you can't C, Jcode::Unicode::NoXS will be used. See L and L for details =over 4 =item $ucs2 = $j-Eucs2; Returns UCS2 (Raw Unicode) string. =item $ucs2 = $j-Eutf8; Returns utf8 String. =back =cut sub ucs2{ load_module("Jcode::Unicode"); euc_ucs2(${$_[0]->[0]}); } sub utf8{ load_module("Jcode::Unicode"); euc_utf8(${$_[0]->[0]}); } =head2 Instance Variables If you need to access instance variables of Jcode object, use access methods below instead of directly accessing them (That's what OOP is all about) FYI, Jcode uses a ref to array instead of ref to hash (common way) to optimize speed (Actually you don't have to know as long as you use access methods instead; Once again, that's OOP) =over 4 =item $j-Er_str Reference to the EUC-coded String. =item $j-Eicode Input charcode in recent operation. =item $j-Enmatch Number of matches (Used in $j->tr, etc.) =back =cut =head1 Subroutines =over 4 =item ($code, [$nmatch]) = getcode($str); Returns char code of $str. Return codes are as follows ascii Ascii (Contains no Japanese Code) binary Binary (Not Text File) euc EUC-JP sjis SHIFT_JIS jis JIS (ISO-2022-JP) ucs2 UCS2 (Raw Unicode) utf8 UTF8 When array context is used instead of scaler, it also returns how many character codes are found. As mentioned above, $str can be \$str instead. B This function is 100% upper-conpatible with jcode::getcode() -- well, almost; * When its return value is an array, the order is the opposite; jcode::getcode() returns $nmatch first. * jcode::getcode() returns 'undef' when the number of EUC characters is equal to that of SJIS. Jcode::getcode() returns EUC. for Jcode.pm there is no in-betweens. =item Jcode::convert($str, [$ocode, $icode, $opt]); Converts $str to char code specified by $ocode. When $icode is specified also, it assumes $icode for input string instead of the one checked by getcode(). As mentioned above, $str can be \$str instead. B This function is 100% upper-conpatible with jcode::convert() ! =back =cut sub getcode { my $thingy = shift; my $r_str = ref $thingy ? $thingy : \$thingy; my ($code, $nmatch, $sjis, $euc, $utf8) = ("", 0, 0, 0, 0); if ($$r_str =~ /$RE{BIN}/o) { # 'binary' my $ucs2; $ucs2 += length($1) while $$r_str =~ /(\x00$RE{ASCII})+/go; if ($ucs2){ # smells like raw unicode ($code, $nmatch) = ('ucs2', $ucs2); }else{ ($code, $nmatch) = ('binary', 0); } } elsif ($$r_str !~ /[\e\x80-\xff]/o) { # not Japanese ($code, $nmatch) = ('ascii', 1); } # 'jis' elsif ($$r_str =~ m[ $RE{JIS_0208}|$RE{JIS_0212}|$RE{JIS_ASC}|$RE{JIS_KANA} ]ox) { ($code, $nmatch) = ('jis', 1); } else { # should be euc|sjis|utf8 # use of (?:) by Hiroki Ohzaki $sjis += length($1) while $$r_str =~ /((?:$RE{SJIS_C})+)/go; $euc += length($1) while $$r_str =~ /((?:$RE{EUC_C}|$RE{EUC_KANA}|$RE{EUC_0212})+)/go; $utf8 += length($1) while $$r_str =~ /((?:$RE{UTF8})+)/go; # $utf8 *= 1.5; # M. Takahashi's suggestion $nmatch = _max($utf8, $sjis, $euc); carp ">DEBUG:sjis = $sjis, euc = $euc, utf8 = $utf8" if $DEBUG >= 3; $code = ($euc > $sjis and $euc > $utf8) ? 'euc' : ($sjis > $euc and $sjis > $utf8) ? 'sjis' : ($utf8 > $euc and $utf8 > $sjis) ? 'utf8' : undef; } return wantarray ? ($code, $nmatch) : $code; } sub convert{ my $thingy = shift; my $r_str = ref $thingy ? $thingy : \$thingy; my ($ocode, $icode, $opt) = @_; my $nmatch; ($icode, $nmatch) = getcode($r_str) unless $icode; return $$r_str if $icode eq $ocode and !defined $opt; # do nothin' no strict qw(refs); my $method; # convert to EUC load_module("Jcode::Unicode") if $icode =~ /ucs2|utf8/o; if ($icode and defined &{$method = $icode . "_euc"}){ carp "Dispatching \&$method" if $DEBUG >= 2; &{$method}($r_str) ; } # h2z or z2h if ($opt){ my $cmd = ($opt =~ /^z/o) ? "h2z" : ($opt =~ /^h/o) ? "z2h" : undef; if ($cmd){ require Jcode::H2Z; &{'Jcode::H2Z::' . $cmd}($r_str); } } # convert to $ocode load_module("Jcode::Unicode") if $ocode =~ /ucs2|utf8/o; if ($ocode and defined &{$method = "euc_" . $ocode}){ carp "Dispatching \&$method" if $DEBUG >= 2; &{$method}($r_str) ; } $$r_str; } # JIS<->EUC sub jis_euc { my $thingy = shift; my $r_str = ref $thingy ? $thingy : \$thingy; $$r_str =~ s( ($RE{JIS_0212}|$RE{JIS_0208}|$RE{JIS_ASC}|$RE{JIS_KANA}) ([^\e]*) ) { my ($esc, $str) = ($1, $2); if ($esc !~ /$RE{JIS_ASC}/o) { $str =~ tr/\x21-\x7e/\xa1-\xfe/; if ($esc =~ /$RE{JIS_KANA}/o) { $str =~ s/([\xa1-\xdf])/\x8e$1/og; } elsif ($esc =~ /$RE{JIS_0212}/o) { $str =~ s/([\xa1-\xfe][\xa1-\xfe])/\x8f$1/og; } } $str; }geox; $$r_str; } # # euc_jis # # Based upon the contribution of # Kazuto Ichimura # optimized by sub euc_jis{ my $thingy = shift; my $r_str = ref $thingy ? $thingy : \$thingy; $$r_str =~ s{ ((?:$RE{EUC_C})+|(?:$RE{EUC_KANA})+|(?:$RE{EUC_0212})+) }{ my $str = $1; my $esc = ( $str =~ tr/\x8E//d ) ? $ESC{KANA} : ( $str =~ tr/\x8F//d ) ? $ESC{JIS_0212} : $ESC{JIS_0208}; $str =~ tr/\xA1-\xFE/\x21-\x7E/; $esc . $str . $ESC{ASC}; }geox; $$r_str =~ s/\Q$ESC{ASC}\E (\Q$ESC{KANA}\E|\Q$ESC{JIS_0212}\E|\Q$ESC{JIS_0208}\E)/$1/gox; $$r_str; } # EUC<->SJIS my %_S2E = (); my %_E2S = (); sub sjis_euc { my $thingy = shift; my $r_str = ref $thingy ? $thingy : \$thingy; $$r_str =~ s( ($RE{SJIS_C}|$RE{SJIS_KANA}) ) { my $str = $1; unless ($_S2E{$1}){ my ($c1, $c2) = unpack('CC', $str); if (0xa1 <= $c1 && $c1 <= 0xdf) { $c2 = $c1; $c1 = 0x8e; } elsif (0x9f <= $c2) { $c1 = $c1 * 2 - ($c1 >= 0xe0 ? 0xe0 : 0x60); $c2 += 2; } else { $c1 = $c1 * 2 - ($c1 >= 0xe0 ? 0xe1 : 0x61); $c2 += 0x60 + ($c2 < 0x7f); } $_S2E{$str} = pack('CC', $c1, $c2); } $_S2E{$str}; }geox; $$r_str; } # sub euc_sjis { my $thingy = shift; my $r_str = ref $thingy ? $thingy : \$thingy; $$r_str =~ s( ($RE{EUC_C}|$RE{EUC_KANA}|$RE{EUC_0212}) ) { my $str = $1; unless ($_E2S{$str}){ my ($c1, $c2) = unpack('CC', $str); if ($c1 == 0x8e) { # SS2 $_E2S{$str} = chr($c2); } elsif ($c1 == 0x8f) { # SS3 $_E2S{$str} = $CHARCODE{UNDEF_SJIS}; }else { #SS1 or X0208 if ($c1 % 2) { $c1 = ($c1>>1) + ($c1 < 0xdf ? 0x31 : 0x71); $c2 -= 0x60 + ($c2 < 0xe0); } else { $c1 = ($c1>>1) + ($c1 < 0xdf ? 0x30 : 0x70); $c2 -= 2; } $_E2S{$str} = pack('CC', $c1, $c2); } } $_E2S{$str}; }geox; $$r_str; } # # Util. Functions # sub _max { my $result = shift; for my $n (@_){ $result = $n if $n > $result; } return $result; } 1; __END__ =head1 BUGS Unicode support by Jcode is far from efficient! =head1 IN FUTURE Hopefully Jcode will be superceded by Encode module that is part of the standard module on Perl 5.7 and up =head1 ACKNOWLEDGEMENTS This package owes a lot in motivation, design, and code, to the jcode.pl for Perl4 by Kazumasa Utashiro . Hiroki Ohzaki has helped me polish regexp from the very first stage of development. And folks at Jcode Mailing list . Without them, I couldn't have coded this far. =head1 SEE ALSO L L http://www.iana.org/assignments/character-sets L =head1 COPYRIGHT Copyright 1999 Dan Kogai This library is free software; you can redistribute it and/or modify it under the same terms as Perl itself. =cut