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 |
|
|
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; |
78 |
$C ||= &new_object; |
$C ||= &new_object; |
79 |
|
|
80 |
my $r = ''; |
my $r = ''; |
81 |
for my $c (split //, $s) { |
my @c = split //, $s; |
82 |
my $cc = ord $c; |
for my $i (0..$#c) { |
83 |
|
my $c = $c[$i]; my $cc = ord $c; Encode::_utf8_off ($c); |
84 |
my $t; |
my $t; |
85 |
|
## CL = C0 control characters |
86 |
if ($cc <= 0x1F) { |
if ($cc <= 0x1F) { |
87 |
$t = $c if $C->{ $C->{CL} } eq $Encode::Charset::CHARSET{C0}->{"\x40"}; |
$t = $c if $C->{ $C->{CL} } eq $Encode::Charset::CHARSET{C0}->{"\x40"}; |
88 |
|
## 0x20 == SP and 0x7E == DEL |
89 |
} elsif ($cc == 0x20 || $cc == 0x7F) { |
} elsif ($cc == 0x20 || $cc == 0x7F) { |
|
Encode::_utf8_off ($c); |
|
90 |
$t = $c; |
$t = $c; |
91 |
|
## GL = G0 = ISO/IEC 646 graphic character set |
92 |
} elsif ($cc < 0x7F) { |
} elsif ($cc < 0x7F) { |
|
Encode::_utf8_off ($c); |
|
93 |
$t = $c if $C->{ $C->{GL} } eq $Encode::Charset::CHARSET{G94}->{"\x42"}; |
$t = $c if $C->{ $C->{GL} } eq $Encode::Charset::CHARSET{G94}->{"\x42"}; |
94 |
|
## 0x80 |
95 |
} elsif ($C->{option}->{C1invoke_to_right} && $cc == 0x80) { |
} elsif ($C->{option}->{C1invoke_to_right} && $cc == 0x80) { |
96 |
$t = "\x80" |
$t = "\x80" |
97 |
if $C->{ $C->{CR} } eq $Encode::Charset::CHARSET{C1}->{'64291991C1'}; |
if $C->{ $C->{CR} } eq $Encode::Charset::CHARSET{C1}->{'64291991C1'}; |
98 |
|
## ESC Fe = C1 control characters |
99 |
} elsif ($cc <= 0x9F) { |
} elsif ($cc <= 0x9F) { |
100 |
$t = "\x1B".pack 'C', ($cc - 0x40) |
$t = "\x1B".pack 'C', ($cc - 0x40) |
101 |
if $C->{ $C->{ESC_Fe} } eq $Encode::Charset::CHARSET{C1}->{'64291991C1'}; |
if $C->{ $C->{ESC_Fe} } eq $Encode::Charset::CHARSET{C1}->{'64291991C1'}; |
102 |
|
## G1 or G3 = 94^2 graphic character set from ISO-IR |
103 |
} elsif (0xE9F6C0 <= $cc && $cc <= 0xF06F80) { |
} elsif (0xE9F6C0 <= $cc && $cc <= 0xF06F80) { |
104 |
my $c = $cc - 0xE9F6C0; my $F = chr (($c / 8836)+0x30); |
my $c = $cc - 0xE9F6C0; my $F = chr (($c / 8836)+0x30); |
105 |
if ($C->{G1} eq $Encode::Charset::CHARSET{G94n}->{ $F }) { |
if ($C->{G1} eq $Encode::Charset::CHARSET{G94n}->{ $F }) { |
109 |
} elsif ($C->{G3} eq $Encode::Charset::CHARSET{G94n}->{ $F }) { |
} elsif ($C->{G3} eq $Encode::Charset::CHARSET{G94n}->{ $F }) { |
110 |
my ($c1, $c2) = ((($c % 8836) / 94)+0x21, ($c % 94)+0x21); |
my ($c1, $c2) = ((($c % 8836) / 94)+0x21, ($c % 94)+0x21); |
111 |
if ($C->{G3}->{Csjis_first}) { |
if ($C->{G3}->{Csjis_first}) { |
112 |
$t = pack ('CC', $C->{G3}->{Csjis_first}->{ ($c % 8836) / 94 }, |
my $fb = $C->{G3}->{Csjis_first}->{ ($c % 8836) / 94 }; |
113 |
$c2 + (($c1 & 1) ? ($c2 < 0x60 ? 0x1F : 0x20) : 0x7E)); |
$t = pack ('CC', $fb, $c2 + (($c1 & 1) ? ($c2 < 0x60 ? 0x1F : 0x20) : 0x7E)) if $fb; |
114 |
} else { |
} else { |
115 |
$t = pack ('CC', ($c / 188) + 0xF0, |
$t = pack ('CC', ($c / 188) + 0xF0, |
116 |
$c2 + (($c1 & 1) ? ($c2 < 0x60 ? 0x1F : 0x20) : 0x7E)) |
$c2 + (($c1 & 1) ? ($c2 < 0x60 ? 0x1F : 0x20) : 0x7E)) |
117 |
if ($c / 188) + 0xF0 < 0xFD; |
if ($c / 188) + 0xF0 < 0xFD; |
118 |
} |
} |
119 |
} |
} |
120 |
|
## G1 = JIS X 0208-1990/:1997 |
121 |
} elsif (0xF49D7C <= $cc && $cc <= 0xF4BFFF) { |
} elsif (0xF49D7C <= $cc && $cc <= 0xF4BFFF) { |
122 |
my $c = $cc - 0xF49D7C; |
my $c = $cc - 0xF49D7C; |
123 |
if ($C->{G1} eq $Encode::Charset::CHARSET{G94n}->{'B@'}) { |
if ($C->{G1} eq $Encode::Charset::CHARSET{G94n}->{'B@'}) { |
125 |
$t = pack ('CC', (($c1 - 1) >> 1) + ($c1 < 0x5F ? 0x71 : 0xB1), |
$t = pack ('CC', (($c1 - 1) >> 1) + ($c1 < 0x5F ? 0x71 : 0xB1), |
126 |
$c2 + (($c1 & 1) ? ($c2 < 0x60 ? 0x1F : 0x20) : 0x7E)); |
$c2 + (($c1 & 1) ? ($c2 < 0x60 ? 0x1F : 0x20) : 0x7E)); |
127 |
} |
} |
128 |
|
## GL = G0 = ISO/IEC 646 graphic character set / GR = G2 = JIS X 0201 Katakana set |
129 |
} elsif (0xE90940 <= $cc && $cc <= 0xE92641) { |
} elsif (0xE90940 <= $cc && $cc <= 0xE92641) { |
130 |
my $c = $cc - 0xE90940; my $F = chr (($c / 94)+0x30); |
my $c = $cc - 0xE90940; my $F = chr (($c / 94)+0x30); |
131 |
if ($C->{ $C->{GL} } eq $Encode::Charset::CHARSET{G94}->{ $F }) { |
if ($C->{ $C->{GL} } eq $Encode::Charset::CHARSET{G94}->{ $F }) { |
133 |
} elsif ($C->{ $C->{GR} } eq $Encode::Charset::CHARSET{G94}->{ $F }) { |
} elsif ($C->{ $C->{GR} } eq $Encode::Charset::CHARSET{G94}->{ $F }) { |
134 |
$t = pack 'C', (($c % 94) + 0xA1) if ($c % 94) < 0x3F; |
$t = pack 'C', (($c % 94) + 0xA1) if ($c % 94) < 0x3F; |
135 |
} |
} |
136 |
|
## G1 / G3 = 94^2 graphic character set |
137 |
} elsif (0x70420000 <= $cc && $cc <= 0x7046F19B) { |
} elsif (0x70420000 <= $cc && $cc <= 0x7046F19B) { |
138 |
my $c = $cc % 0x10000; |
my $c = $cc % 0x10000; |
139 |
my $F0=$C->{option}->{private_set}->{G94n}->[($cc/0x10000)-0x7042]->[$c/8836]; |
my $F0=$C->{option}->{private_set}->{G94n}->[($cc/0x10000)-0x7042]->[$c/8836]; |
142 |
|| $C->{G3} eq $Encode::Charset::CHARSET{G94n}->{ $F1 }) { |
|| $C->{G3} eq $Encode::Charset::CHARSET{G94n}->{ $F1 }) { |
143 |
my ($c1, $c2) = ((($c % 8836) / 94)+0x21, ($c % 94)+0x21); |
my ($c1, $c2) = ((($c % 8836) / 94)+0x21, ($c % 94)+0x21); |
144 |
if ($C->{G3}->{Csjis_first}) { |
if ($C->{G3}->{Csjis_first}) { |
145 |
$t = pack ('CC', $C->{G3}->{Csjis_first}->{ ($c % 8836) / 94 }, |
my $fb = $C->{G3}->{Csjis_first}->{ ($c % 8836) / 94 }; |
146 |
$c2 + (($c1 & 1) ? ($c2 < 0x60 ? 0x1F : 0x20) : 0x7E)); |
$t = pack ('CC', $fb, $c2 + (($c1 & 1) ? ($c2 < 0x60 ? 0x1F : 0x20) : 0x7E)) if $fb; |
147 |
} else { |
} else { |
148 |
$t = pack ('CC', ($c / 188) + 0xF0, |
$t = pack ('CC', ($c / 188) + 0xF0, |
149 |
$c2 + (($c1 & 1) ? ($c2 < 0x60 ? 0x1F : 0x20) : 0x7E)) |
$c2 + (($c1 & 1) ? ($c2 < 0x60 ? 0x1F : 0x20) : 0x7E)) |
150 |
if ($c / 188) + 0xF0 < 0xFD; |
if ($c / 188) + 0xF0 < 0xFD; |
151 |
} |
} |
152 |
} |
} |
153 |
|
## Other character sets are not supported now (and there is no plan to implement them). |
154 |
} |
} |
155 |
|
|
156 |
|
## Output the character itself |
157 |
if (defined $t) { |
if (defined $t) { |
158 |
$r .= $t; |
$r .= $t; |
159 |
|
## Output the character itself with mapping table of special code positions |
160 |
} elsif ($C->{GsmapR}->{ $c }) { |
} elsif ($C->{GsmapR}->{ $c }) { |
161 |
$r .= $C->{GsmapR}->{ $c }; |
$r .= $C->{GsmapR}->{ $c }; |
162 |
|
} elsif ($C->{option}->{fallback_from_ucs} =~ /quiet/) { |
163 |
|
return ($r, halfway => 1, converted_length => $i, |
164 |
|
warn => $C->{option}->{fallback_from_ucs} =~ /warn/ ? 1 : 0, |
165 |
|
reason => sprintf (q(U+%04X: There is no character mapped to), $cc)); |
166 |
|
} elsif ($C->{option}->{fallback_from_ucs} eq 'croak') { |
167 |
|
return ($r, halfway => 1, die => 1, |
168 |
|
reason => sprintf (q(U+%04X: There is no character mapped to), $cc)); |
169 |
|
## |
170 |
} else { |
} else { |
171 |
$r .= $C->{option}->{undef_char_sjis} || "\x3F"; |
## Try to output with fallback escape sequence (if specified) |
172 |
|
my $t = Encode::Charset::fallback_escape ($C, $c); |
173 |
|
if (defined $t) { |
174 |
|
my %D = (fallback => $C->{option}->{fallback_from_ucs}, reset => $C->{option}->{reset}); |
175 |
|
$C->{option}->{fallback_from_ucs} = 'croak'; |
176 |
|
$C->{option}->{reset} = {Gdesignation => 0, Ginvoke => 0}; |
177 |
|
eval q{$t = $C->{_encoder}->_encode_internal ($t, $C)} or undef $t; |
178 |
|
$C->{option}->{fallback_from_ucs} = $D{fallback}; |
179 |
|
$C->{option}->{reset} = $D{reset}; |
180 |
|
} |
181 |
|
if (defined $t) { |
182 |
|
$r .= $t; |
183 |
|
} else { ## Replacement character specified in charset definition |
184 |
|
$r .= $C->{option}->{undef_char_sjis} || "\x3F"; |
185 |
|
} |
186 |
} |
} |
187 |
} |
} |
188 |
$r; |
$r; |
189 |
} |
} |
190 |
|
|
|
sub __clone ($) { |
|
|
my $self = shift; |
|
|
bless {%$self}, ref $self; |
|
|
}; |
|
|
|
|
|
__PACKAGE__->Define (qw!shift_jisx0213 japanese-shift-jisx0213 |
|
|
shift-jisx0213 x-shift_jisx0213 shift-jis-3 shift-jis-2000 |
|
|
sjis s-jis shift-jis x-sjis x_sjis x-sjis-jp shiftjis x-shiftjis |
|
|
x-shift-jis shift.jis!); |
|
|
|
|
|
=item sjis |
|
|
|
|
|
"Shift JIS" coding system. (Alias: shift-jis, shiftjis, |
|
|
shift.jis, x-shiftjis, x-shift-jis, s-jis, x-sjis, x_sjis, |
|
|
x-sjis-jp) |
|
|
|
|
|
Since this name is ambiguous (it can now refer all or any |
|
|
of shift JIS coding system family), this name should not |
|
|
be used to address specific coding system. In this module, |
|
|
this is considered as an alias name to the shift JIS with |
|
|
latest official definition, currently of JIS X 0213:2000 |
|
|
Appendix 1 (with implemention level 4). |
|
|
|
|
|
Note that the name "Shift_JIS" is not associated with |
|
|
this name, because IANA registry [IANAREG] assignes |
|
|
it to a shift JIS defined by JIS X 0208:1997. |
|
|
|
|
|
=item shift_jisx0213 |
|
|
|
|
|
Shift_JISX0213 coded representation, defined by |
|
|
JIS X 0213:2000 Appendix 1 (implemention level 4). |
|
|
(Alias: shift-jisx0213, x-shift_jisx0213, japanese-shift-jisx0213 (emacsen), |
|
|
shift-jis-3 (Yudit), shift-jis-2000) |
|
|
|
|
|
=cut |
|
|
|
|
|
sub __2022__common ($) { |
|
|
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 ($) { |
|
|
[qw/jisx0201_latin_to_ucs jisx0213_2000_1_to_ucs jisx0213_2000_2_to_ucs jisx0201_katakana_to_ucs/]; |
|
|
} |
|
|
|
|
|
package Encode::SJIS::X0213ASCII; |
|
|
use vars qw/@ISA/; |
|
|
push @ISA, 'Encode::SJIS'; |
|
|
__PACKAGE__->Define (qw/shift_jisx0213-ascii shift-jis-2000-ascii |
|
|
sjis-ascii shift-jis-ascii/); |
|
|
|
|
|
=item sjis-ascii |
|
|
|
|
|
Same as sjis but ASCII (ISO/IEC 646 IRV) instead of |
|
|
JIS X 0201 Roman (or Latin) set. (Alias: shift-jis-ascii) |
|
|
|
|
|
In spite of the history of shift JIS, ASCII is sometimes |
|
|
used instead of JIS X 0201 Roman set, because of compatibility |
|
|
with ASCII world. |
|
|
|
|
|
Note that this name is now an alias of shift_jisx0213-ascii, |
|
|
as sjis is of shift_jisx0213. |
|
|
|
|
|
=item shift_jisx0213-ascii |
|
|
|
|
|
Same as Shift_JISX0213 but ASCII (ISO/IEC 646 IRV) |
|
|
instead of JIS X 0201:1997 Latin character set. |
|
|
(Alias: shift-jis-2000-ascii) |
|
|
|
|
|
Note that this coding system does NOT comform to |
|
|
JIS X 0213:2000 Appendix 1. |
|
|
|
|
|
=cut |
|
|
|
|
|
sub __2022__common ($) { |
|
|
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/]; |
|
|
} |
|
|
|
|
|
1; |
|
|
__END__ |
|
|
|
|
191 |
=back |
=back |
192 |
|
|
193 |
=head1 SEE ALSO |
=head1 SEE ALSO |
200 |
sets for information interchange", Japan Industrial Standards |
sets for information interchange", Japan Industrial Standards |
201 |
Committee (JISC) <http://www.jisc.go.jp/>, 2000. |
Committee (JISC) <http://www.jisc.go.jp/>, 2000. |
202 |
|
|
203 |
Encode, perlunicode |
L<Encode::SJIS::JIS> |
204 |
|
|
205 |
|
L<Encode>, L<perlunicode> |
206 |
|
|
207 |
[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.) |
|
208 |
|
|
209 |
=head1 LICENSE |
=head1 LICENSE |
210 |
|
|
211 |
Copyright 2002 Nanashi-san |
Copyright 2002 Nanashi-san <nanashi-san@nanashi.invalid> |
212 |
|
|
213 |
This library is free software; you can redistribute it |
This library is free software; you can redistribute it |
214 |
and/or modify it under the same terms as Perl itself. |
and/or modify it under the same terms as Perl itself. |
215 |
|
|
216 |
=cut |
=cut |
217 |
|
|
218 |
# $Date$ |
1; # $Date$ |
|
### SJIS.pm ends here |
|