/[suikacvs]/perl/lib/Encode/SJIS.pm
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revision 1.3 by wakaba, Mon Oct 14 06:58:35 2002 UTC revision 1.6 by wakaba, Wed Dec 18 10:21:09 2002 UTC
# Line 5  Encode::SJIS --- Shift JIS coding system Line 5  Encode::SJIS --- Shift JIS coding system
5    
6  =head1 ENCODINGS  =head1 ENCODINGS
7    
8  This module defines only two basic version of shift JIS.  This module defines encoding engine for Shift JIS coding systems.
9  Other variants are defined in Encode::SJIS::* modules.  This module only provides general en/decoding parts.  Actual profiles
10    for Shift JISes are included in Encode::SJIS::*.
11    
12  =over 4  =over 4
13    
# Line 19  our $VERSION=do{my @r=(q$Revision$=~/\d+ Line 20  our $VERSION=do{my @r=(q$Revision$=~/\d+
20  require Encode::Charset;  require Encode::Charset;
21  use base qw(Encode::Encoding);  use base qw(Encode::Encoding);
22    
 ### --- Perl Encode module common functions  
   
 sub encode ($$;$) {  
   my ($obj, $str, $chk) = @_;  
   $_[1] = '' if $chk;  
   if (!defined $obj->{_encode_mapping} || $obj->{_encode_mapping}) {  
     require Encode::Table;  
     $str = Encode::Table::convert ($str, $obj->__encode_map,  
       -autoload => defined $obj->{_encode_mapping_autoload} ?  
                    $obj->{_encode_mapping_autoload} : 1);  
   }  
   $str = &internal_to_sjis ($str, $obj->__2022_encode);  
   $str;  
 }  
   
 sub decode ($$;$) {  
   my ($obj, $str, $chk) = @_;  
   $_[1] = '' if $chk;  
   $str = &sjis_to_internal ($str, $obj->__2022_decode);  
   if (!defined $obj->{_decode_mapping} || $obj->{_decode_mapping}) {  
     require Encode::Table;  
     $str = Encode::Table::convert ($str, $obj->__decode_map,  
       -autoload => defined $obj->{_decode_mapping_autoload} ?  
                    $obj->{_decode_mapping_autoload} : 1);  
   }  
   $str;  
 }  
   
 ### --- Encode::SJIS unique functions  
23  *new_object = \&Encode::Charset::new_object_sjis;  *new_object = \&Encode::Charset::new_object_sjis;
24    
25    ## Code extention escape sequence defined by ISO/IEC 2022 is
26    ## not supported in this version of this module.
27    
28  sub sjis_to_internal ($$) {  sub sjis_to_internal ($$) {
29    my ($s, $C) = @_;    my ($s, $C) = @_;
30    $C ||= &new_object;    $C ||= &new_object;
# Line 77  sub sjis_to_internal ($$) { Line 52  sub sjis_to_internal ($$) {
52          $f -= $f < 0xA0 ? 0x81 : 0xC1;  $s -= 0x40 + ($s > 0x7F);          $f -= $f < 0xA0 ? 0x81 : 0xC1;  $s -= 0x40 + ($s > 0x7F);
53          chr ($C->{G1}->{ucs} + $f * 188 + $s);          chr ($C->{G1}->{ucs} + $f * 188 + $s);
54        } else {  ## [\xF0-\xFC].        } else {  ## [\xF0-\xFC].
55          my ($f, $s) = unpack ('CC', $c2);          my ($f, $s) = (ord substr ($c2, 0, 1), ord substr ($c2, 1, 1));
56          if ($C->{G3}->{Csjis_kuE}) {          if ($C->{G3}->{Csjis_kuE}) {    ## 94^2 set with first-byte->ku mapping
57            $f = $s > 0x9E ? $C->{G3}->{Csjis_kuE}->{ $f }:            my $F = $s > 0x9E ? $C->{G3}->{Csjis_kuE}->{ $f }:    ## ku of even number
58                             $C->{G3}->{Csjis_kuO}->{ $f };                                $C->{G3}->{Csjis_kuO}->{ $f };    ## ku of odd number
59            $s -= ($s > 0x9E ? 0x9F : $s > 0x7F ? 0x41 : 0x40);            if (defined $F) {
60            chr ($C->{G3}->{ucs} + $f * 94 + $s);              $s -= ($s > 0x9E ? 0x9F : $s > 0x7F ? 0x41 : 0x40);
61          } else {              chr ($C->{G3}->{ucs} + $F * 94 + $s);
62              } else {      ## Mapping is not defined
63                $f -= 0xF0; $s -= 0x40 + ($s > 0x7F);
64                chr ($Encode::Charset::CHARSET{G94n}->{"\x20\x40"}->{ucs} + $f * 188 + $s);
65              }
66            } elsif ($C->{G3}->{Csjis_ku}) {        ## n^2 set with first-byte->ku mapping
67              if (defined $C->{G3}->{Csjis_ku}->{ $f }) {
68                $f = $C->{G3}->{Csjis_ku}->{ $f };
69                $s -= ($s > 0x9E ? 0x9F : $s > 0x7F ? 0x41 : 0x40);
70                chr ($C->{G3}->{ucs} + $f * $C->{G3}->{chars} + $s);
71              } else {      ## Mapping is not defined
72                $f -= 0xF0; $s -= 0x40 + ($s > 0x7F);
73                chr ($Encode::Charset::CHARSET{G94n}->{"\x20\x40"}->{ucs} + $f * 188 + $s);
74              }
75            } else {        ## 94^2 set without special mapping information
76            $f -= 0xF0; $s -= 0x40 + ($s > 0x7F);            $f -= 0xF0; $s -= 0x40 + ($s > 0x7F);
77            chr ($C->{G3}->{ucs} + $f * 188 + $s);            chr ($C->{G3}->{ucs} + $f * 188 + $s);
78          }          }
# Line 103  sub internal_to_sjis ($\%) { Line 92  sub internal_to_sjis ($\%) {
92    $C ||= &new_object;    $C ||= &new_object;
93        
94    my $r = '';    my $r = '';
95    for my $c (split //, $s) {    my @c = split //, $s;
96      my $cc = ord $c;    for my $i (0..$#c) {
97        my $c = $c[$i]; my $cc = ord $c;  Encode::_utf8_off ($c);
98      my $t;      my $t;
99        ## CL = C0 control characters
100      if ($cc <= 0x1F) {      if ($cc <= 0x1F) {
101        $t = $c if $C->{ $C->{CL} } eq $Encode::Charset::CHARSET{C0}->{"\x40"};        $t = $c if $C->{ $C->{CL} } eq $Encode::Charset::CHARSET{C0}->{"\x40"};
102        ## 0x20 == SP and 0x7E == DEL
103      } elsif ($cc == 0x20 || $cc == 0x7F) {      } elsif ($cc == 0x20 || $cc == 0x7F) {
       Encode::_utf8_off ($c);  
104        $t = $c;        $t = $c;
105        ## GL = G0 = ISO/IEC 646 graphic character set
106      } elsif ($cc < 0x7F) {      } elsif ($cc < 0x7F) {
       Encode::_utf8_off ($c);  
107        $t = $c if $C->{ $C->{GL} } eq $Encode::Charset::CHARSET{G94}->{"\x42"};        $t = $c if $C->{ $C->{GL} } eq $Encode::Charset::CHARSET{G94}->{"\x42"};
108        ## 0x80
109      } elsif ($C->{option}->{C1invoke_to_right} && $cc == 0x80) {      } elsif ($C->{option}->{C1invoke_to_right} && $cc == 0x80) {
110        $t = "\x80"        $t = "\x80"
111          if $C->{ $C->{CR} } eq $Encode::Charset::CHARSET{C1}->{'64291991C1'};          if $C->{ $C->{CR} } eq $Encode::Charset::CHARSET{C1}->{'64291991C1'};
112        ## ESC Fe = C1 control characters
113      } elsif ($cc <= 0x9F) {      } elsif ($cc <= 0x9F) {
114        $t = "\x1B".pack 'C', ($cc - 0x40)        $t = "\x1B".pack 'C', ($cc - 0x40)
115          if $C->{ $C->{ESC_Fe} } eq $Encode::Charset::CHARSET{C1}->{'64291991C1'};          if $C->{ $C->{ESC_Fe} } eq $Encode::Charset::CHARSET{C1}->{'64291991C1'};
116            ## G1 or G3 = 94^2 graphic character set from ISO-IR
117      } elsif (0xE9F6C0 <= $cc && $cc <= 0xF06F80) {      } elsif (0xE9F6C0 <= $cc && $cc <= 0xF06F80) {
118        my $c = $cc - 0xE9F6C0;  my $F = chr (($c / 8836)+0x30);        my $c = $cc - 0xE9F6C0;  my $F = chr (($c / 8836)+0x30);
119        if ($C->{G1} eq $Encode::Charset::CHARSET{G94n}->{ $F }) {        if ($C->{G1} eq $Encode::Charset::CHARSET{G94n}->{ $F }) {
# Line 130  sub internal_to_sjis ($\%) { Line 123  sub internal_to_sjis ($\%) {
123        } elsif ($C->{G3} eq $Encode::Charset::CHARSET{G94n}->{ $F }) {        } elsif ($C->{G3} eq $Encode::Charset::CHARSET{G94n}->{ $F }) {
124          my ($c1, $c2) = ((($c % 8836) / 94)+0x21, ($c % 94)+0x21);          my ($c1, $c2) = ((($c % 8836) / 94)+0x21, ($c % 94)+0x21);
125          if ($C->{G3}->{Csjis_first}) {          if ($C->{G3}->{Csjis_first}) {
126            $t = pack ('CC', $C->{G3}->{Csjis_first}->{ ($c % 8836) / 94 },            my $fb = $C->{G3}->{Csjis_first}->{ ($c % 8836) / 94 };
127                       $c2 + (($c1 & 1) ? ($c2 < 0x60 ? 0x1F : 0x20) : 0x7E));            $t = pack ('CC', $fb, $c2 + (($c1 & 1) ? ($c2 < 0x60 ? 0x1F : 0x20) : 0x7E)) if $fb;
128          } else {          } else {
129            $t = pack ('CC', ($c / 188) + 0xF0,            $t = pack ('CC', ($c / 188) + 0xF0,
130                       $c2 + (($c1 & 1) ? ($c2 < 0x60 ? 0x1F : 0x20) : 0x7E))                       $c2 + (($c1 & 1) ? ($c2 < 0x60 ? 0x1F : 0x20) : 0x7E))
131                 if ($c / 188) + 0xF0 < 0xFD;                 if ($c / 188) + 0xF0 < 0xFD;
132          }          }
133        }        }
134        ## G1 = JIS X 0208-1990/:1997
135      } elsif (0xF49D7C <= $cc && $cc <= 0xF4BFFF) {      } elsif (0xF49D7C <= $cc && $cc <= 0xF4BFFF) {
136        my $c = $cc - 0xF49D7C;        my $c = $cc - 0xF49D7C;
137        if ($C->{G1} eq $Encode::Charset::CHARSET{G94n}->{'B@'}) {        if ($C->{G1} eq $Encode::Charset::CHARSET{G94n}->{'B@'}) {
# Line 145  sub internal_to_sjis ($\%) { Line 139  sub internal_to_sjis ($\%) {
139          $t = pack ('CC', (($c1 - 1) >> 1) + ($c1 < 0x5F ? 0x71 : 0xB1),          $t = pack ('CC', (($c1 - 1) >> 1) + ($c1 < 0x5F ? 0x71 : 0xB1),
140                 $c2 + (($c1 & 1) ? ($c2 < 0x60 ? 0x1F : 0x20) : 0x7E));                 $c2 + (($c1 & 1) ? ($c2 < 0x60 ? 0x1F : 0x20) : 0x7E));
141        }        }
142            ## GL = G0 = ISO/IEC 646 graphic character set / GR = G2 = JIS X 0201 Katakana set
143      } elsif (0xE90940 <= $cc && $cc <= 0xE92641) {      } elsif (0xE90940 <= $cc && $cc <= 0xE92641) {
144        my $c = $cc - 0xE90940;  my $F = chr (($c / 94)+0x30);        my $c = $cc - 0xE90940;  my $F = chr (($c / 94)+0x30);
145        if ($C->{ $C->{GL} } eq $Encode::Charset::CHARSET{G94}->{ $F }) {        if ($C->{ $C->{GL} } eq $Encode::Charset::CHARSET{G94}->{ $F }) {
# Line 153  sub internal_to_sjis ($\%) { Line 147  sub internal_to_sjis ($\%) {
147        } elsif ($C->{ $C->{GR} } eq $Encode::Charset::CHARSET{G94}->{ $F }) {        } elsif ($C->{ $C->{GR} } eq $Encode::Charset::CHARSET{G94}->{ $F }) {
148          $t = pack 'C', (($c % 94) + 0xA1) if ($c % 94) < 0x3F;          $t = pack 'C', (($c % 94) + 0xA1) if ($c % 94) < 0x3F;
149        }        }
150        ## G1 / G3 = 94^2 graphic character set
151      } elsif (0x70420000 <= $cc && $cc <= 0x7046F19B) {      } elsif (0x70420000 <= $cc && $cc <= 0x7046F19B) {
152        my $c = $cc % 0x10000;        my $c = $cc % 0x10000;
153        my $F0=$C->{option}->{private_set}->{G94n}->[($cc/0x10000)-0x7042]->[$c/8836];        my $F0=$C->{option}->{private_set}->{G94n}->[($cc/0x10000)-0x7042]->[$c/8836];
# Line 161  sub internal_to_sjis ($\%) { Line 156  sub internal_to_sjis ($\%) {
156         || $C->{G3} eq $Encode::Charset::CHARSET{G94n}->{ $F1 }) {         || $C->{G3} eq $Encode::Charset::CHARSET{G94n}->{ $F1 }) {
157          my ($c1, $c2) = ((($c % 8836) / 94)+0x21, ($c % 94)+0x21);          my ($c1, $c2) = ((($c % 8836) / 94)+0x21, ($c % 94)+0x21);
158          if ($C->{G3}->{Csjis_first}) {          if ($C->{G3}->{Csjis_first}) {
159            $t = pack ('CC', $C->{G3}->{Csjis_first}->{ ($c % 8836) / 94 },            my $fb = $C->{G3}->{Csjis_first}->{ ($c % 8836) / 94 };
160                       $c2 + (($c1 & 1) ? ($c2 < 0x60 ? 0x1F : 0x20) : 0x7E));            $t = pack ('CC', $fb, $c2 + (($c1 & 1) ? ($c2 < 0x60 ? 0x1F : 0x20) : 0x7E)) if $fb;
161          } else {          } else {
162            $t = pack ('CC', ($c / 188) + 0xF0,            $t = pack ('CC', ($c / 188) + 0xF0,
163                       $c2 + (($c1 & 1) ? ($c2 < 0x60 ? 0x1F : 0x20) : 0x7E))                       $c2 + (($c1 & 1) ? ($c2 < 0x60 ? 0x1F : 0x20) : 0x7E))
164                 if ($c / 188) + 0xF0 < 0xFD;                 if ($c / 188) + 0xF0 < 0xFD;
165          }          }
166        }        }
167        ## Non-ISO/IEC 2022 Coded Character Sets Mapping Area
168        } elsif (0x71000000 <= $cc && $cc <= 0x71FFFFFF) {
169          if ($C->{G3}->{ucs} <= $cc) {
170            my $c = $cc - $C->{G3}->{ucs};
171            my $f = $C->{G3}->{Csjis_first}->{$c / $C->{G3}->{chars}};
172            if ($f) {
173              my $s = $c % $C->{G3}->{chars};
174              $t = pack ('CC', $f, 0x40 + $s + ($s > 62));
175            }
176          }
177        ## Other character sets are not supported now (and there is no plan to implement them).
178      }      }
179            
180        ## Output the character itself
181      if (defined $t) {      if (defined $t) {
182        $r .= $t;        $r .= $t;
183        ## Output the character itself with mapping table of special code positions
184      } elsif ($C->{GsmapR}->{ $c }) {      } elsif ($C->{GsmapR}->{ $c }) {
185        $r .= $C->{GsmapR}->{ $c };        $r .= $C->{GsmapR}->{ $c };
186        } elsif ($C->{option}->{fallback_from_ucs} =~ /quiet/) {
187          return ($r, halfway => 1, converted_length => $i,
188                  warn => $C->{option}->{fallback_from_ucs} =~ /warn/ ? 1 : 0,
189                  reason => sprintf (q(U+%04X: There is no character mapped to), $cc));
190        } elsif ($C->{option}->{fallback_from_ucs} eq 'croak') {
191          return ($r, halfway => 1, die => 1,
192                  reason => sprintf (q(U+%04X: There is no character mapped to), $cc));
193        ##
194      } else {      } else {
195        $r .= $C->{option}->{undef_char_sjis} || "\x3F";        ## Try to output with fallback escape sequence (if specified)
196          my $t = Encode::Charset->fallback_escape ($C, $c);
197          if (defined $t) {
198            my %D = (fallback => $C->{option}->{fallback_from_ucs}, reset => $C->{option}->{reset});
199            $C->{option}->{fallback_from_ucs} = 'croak';
200            eval q{$t = $C->{_encoder}->_encode_internal ($t, $C)} or undef $t;
201            $C->{option}->{fallback_from_ucs} = $D{fallback};
202          }
203          if (defined $t) {
204            $r .= $t;
205          } else {  ## Replacement character specified in charset definition
206            $r .= $C->{option}->{undef_char_sjis} || "\x3F";
207          }
208      }      }
209    }    }
210    $r;    $r;
211  }  }
212    
213  sub __clone ($) {  sub page_to_internal ($$) {
214    my $self = shift;    my ($C, $s) = @_;
215    bless {%$self}, ref $self;    $s = pack ('U*', unpack ('C*', $s));
216  };    $s =~ s(\x1B\x24([EFGOPQ])([\x21-\x7E]+)\x0F)(
217        my $page = {qw/E 1 F 2 G 3 O 4 P 5 Q 6/}->{$1};
218  __PACKAGE__->Define (qw!shift_jisx0213 japanese-shift-jisx0213      my $r = '';
219  shift-jisx0213 x-shift_jisx0213 shift-jis-3 shift-jis-2000      for my $c (split //, $2) {
220  sjis s-jis shift-jis x-sjis x_sjis x-sjis-jp shiftjis x-shiftjis        $r .= chr ($Encode::Charset::CHARSET{G94}->{'CSpictogram_page_'.$page}->{ucs} + ord ($c) - 0x21);
221  x-shift-jis shift.jis!);      }
222        $r;
223  =item sjis    )gex;
224      $s;
 "Shift JIS" coding system.  (Alias: shift-jis, shiftjis,  
 shift.jis, x-shiftjis, x-shift-jis, s-jis, x-sjis, x_sjis,  
 x-sjis-jp)  
   
 Since this name is ambiguous (it can now refer all or any  
 of shift JIS coding system family), this name should not  
 be used to address specific coding system.  In this module,  
 this is considered as an alias name to the shift JIS with  
 latest official definition, currently of JIS X 0213:2000  
 Appendix 1 (with implemention level 4).  
   
 Note that the name "Shift_JIS" is not associated with  
 this name, because IANA registry [IANAREG] assignes  
 it to a shift JIS defined by JIS X 0208:1997.  
   
 =item shift_jisx0213  
   
 Shift_JISX0213 coded representation, defined by  
 JIS X 0213:2000 Appendix 1 (implemention level 4).  
 (Alias: shift-jisx0213, x-shift_jisx0213, japanese-shift-jisx0213 (emacsen),  
 shift-jis-3 (Yudit), shift-jis-2000)  
   
 =cut  
   
 sub __2022__common ($) {  
   my $C = Encode::SJIS->new_object;  
   $C->{G0} = $Encode::Charset::CHARSET{G94}->{J};       ## JIS X 0201:1997 Latin  
   $C->{G1} = $Encode::Charset::CHARSET{G94n}->{"\x4F"}; ## JIS X 0213:2000 plane 1  
   $C->{G2} = $Encode::Charset::CHARSET{G94}->{I};       ## JIS X 0201:1997 Katakana  
   $C->{G3} = $Encode::Charset::CHARSET{G94n}->{"\x50"}; ## JIS X 0213:2000 plane 2  
   $C;  
 }  
 sub __2022_encode ($) {  
   my $C = shift->__2022__common;  
   $C;  
 }  
 sub __2022_decode ($) {  
   my $C = shift->__2022__common;  
   $C;  
 }  
 sub __encode_map ($) {  
   [qw/ucs_to_jisx0201_latin ucs_to_jisx0213_2000_1 ucs_to_jisx0213_2000_2 ucs_to_jisx0201_katakana/];  
 }  
 sub __decode_map ($) {  
   [qw/jisx0201_latin_to_ucs jisx0213_2000_1_to_ucs jisx0213_2000_2_to_ucs jisx0201_katakana_to_ucs/];  
225  }  }
226    
227  package Encode::SJIS::X0213ASCII;  sub _internal_to_page ($$$%) {
228  use vars qw/@ISA/;    my ($yourself, $C, $c, $option) = @_;
229  push @ISA, 'Encode::SJIS';    my $cc = ord $c;
230  __PACKAGE__->Define (qw/shift_jisx0213-ascii shift-jis-2000-ascii    for my $page (1..6) {
231  sjis-ascii shift-jis-ascii/);      my $cs = $Encode::Charset::CHARSET{G94}->{'CSpictogram_page_'.$page};
232        if ($cs->{ucs} <= $cc && $cc < $cs->{ucs} + $cs->{chars} * $cs->{dimension}) {
233  =item sjis-ascii        return "\x1B\x24" . ([qw/_ E F G O P Q/]->[$page])
234                .pack ('C', 0x21 + $cc - $cs->{ucs}) . "\x0F";
235  Same as sjis but ASCII (ISO/IEC 646 IRV) instead of      }
236  JIS X 0201 Roman (or Latin) set.  (Alias: shift-jis-ascii)    }
237      ## $c is not a pictogram
238  In spite of the history of shift JIS, ASCII is sometimes    $option->{fallback_from_ucs} = $C->{option}->{fallback_from_ucs_2};
239  used instead of JIS X 0201 Roman set, because of compatibility    $yourself->fallback_escape ($C, $c, %$option);
 with ASCII world.  
   
 Note that this name is now an alias of shift_jisx0213-ascii,  
 as sjis is of shift_jisx0213.  
   
 =item shift_jisx0213-ascii  
   
 Same as Shift_JISX0213 but ASCII (ISO/IEC 646 IRV)  
 instead of JIS X 0201:1997 Latin character set.  
 (Alias: shift-jis-2000-ascii)  
   
 Note that this coding system does NOT comform to  
 JIS X 0213:2000 Appendix 1.  
   
 =cut  
   
 sub __2022__common ($) {  
   my $C = shift->SUPER::__2022__common;  
   $C->{G0} = $Encode::Charset::CHARSET{G94}->{B};       ## ASCII  
   $C;  
 }  
 sub __encode_map ($) {  
   [qw/ucs_to_ascii ucs_to_jisx0213_2000_1 ucs_to_jisx0213_2000_2 ucs_to_jisx0201_katakana/];  
 }  
 sub __decode_map ($) {  
   [qw/jisx0213_2000_1_to_ucs jisx0213_2000_2_to_ucs jisx0201_katakana_to_ucs/];  
240  }  }
241    
 1;  
 __END__  
   
242  =back  =back
243    
244  =head1 SEE ALSO  =head1 SEE ALSO
# Line 297  JIS X 0213:2000, "7-bit and 8-bit double Line 251  JIS X 0213:2000, "7-bit and 8-bit double
251  sets for information interchange", Japan Industrial Standards  sets for information interchange", Japan Industrial Standards
252  Committee (JISC) <http://www.jisc.go.jp/>, 2000.  Committee (JISC) <http://www.jisc.go.jp/>, 2000.
253    
254  Encode, perlunicode  L<Encode::SJIS::JIS>
255    
256    L<Encode>, L<perlunicode>
257    
258  [IANAREG] "CHARACTER SETS", IANA <http://www.iana.org/>,  L<Encode::Charset>, L<Encode::ISO2022>
 <http://www.iana.org/assignments/character-sets>.  
 The charset registry for IETF <http://www.ietf.org/> standards.  
 (Note that in this registry two shift JISes are registered,  
 "Shift_JIS" and "Windows-31j".  Former is JIS X 0208:1997's  
 definition and later is the Windows standard character set.)  
259    
260  =head1 LICENSE  =head1 LICENSE
261    
262  Copyright 2002 Nanashi-san  Copyright 2002 Nanashi-san <nanashi-san@nanashi.invalid>
263    
264  This library is free software; you can redistribute it  This library is free software; you can redistribute it
265  and/or modify it under the same terms as Perl itself.  and/or modify it under the same terms as Perl itself.
266    
267  =cut  =cut
268    
269  # $Date$  1; # $Date$
 ### SJIS.pm ends here  
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