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# Copyright 2011, 2012, 2013 Kevin Ryde

# This file is part of X11-Protocol-Other.
#
# X11-Protocol-Other is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by the
# Free Software Foundation; either version 3, or (at your option) any later
# version.
#
# X11-Protocol-Other is distributed in the hope that it will be useful, but
# WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
# or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
# for more details.
#
# You should have received a copy of the GNU General Public License along
# with X11-Protocol-Other.  If not, see <http://www.gnu.org/licenses/>.


# /usr/share/doc/xorg-docs/specs/CTEXT/ctext.txt.gz
# lcCT.c
# lcUTF8.c
# RFC2237 2022-jp
# RFC1557 2022-kr


package Encode::X11;
use 5.008;
use strict;
use warnings;
use Carp;
use Encode ();
use Encode::Encoding;

our $VERSION = 29;
our @ISA = ('Encode::Encoding');

# uncomment this to run the ### lines
#use Devel::Comments; # '###';

__PACKAGE__->Define('x11-compound-text');


#------------------------------------------------------------------------------
# encode

my @coding = ('iso-8859-1',
              'iso-8859-2',
              'iso-8859-3',
              'iso-8859-4',
              'iso-8859-7',
              'iso-8859-6',
              'iso-8859-8',
              'iso-8859-5',
              'iso-8859-9',
              'jis0201-raw',

              'jis0208-raw',
              'ksc5601-raw',
              'jis0212-raw',
              'gb2312-raw',
             );
# $esc[$i] corresponding to $coding[$i]
my @esc = (
           # Esc 0x2D switch GR 0x80-0xFF
           "\x1B\x2D\x41", # iso-8859-1 GR    Esc-A
           "\x1B\x2D\x42", # iso-8859-2 GR    Esc-B
           "\x1B\x2D\x43", # iso-8859-3 GR    Esc-C
           "\x1B\x2D\x44", # iso-8859-4 GR    Esc-D
           "\x1B\x2D\x46", # iso-8859-7 GR    Esc-F
           "\x1B\x2D\x47", # iso-8859-6 GR
           "\x1B\x2D\x48", # iso-8859-8 GR
           "\x1B\x2D\x4C", # iso-8859-5 GR
           "\x1B\x2D\x4D", # iso-8859-9 GR
           "\x1B\x29\x49", # jis 201 right half  GR

           "\x1B\x24\x28\x42", # jis 208  GL    Esc$(B
           "\x1B\x24\x28\x43", # ksc 5601 GL    Esc$(C
           "\x1B\x24\x28\x44", # jis 212  GL    Esc$(D
           "\x1B\x24\x28\x41", # gb 2312  GL    Esc$(A

           # FIXME: any merit generating these, when available?
           # "\x1B\x24\x28\x47" => 'cns11643-1', # Encode::HanExtra
           # "\x1B\x24\x28\x48" => 'cns11643-2',
           # "\x1B\x24\x28\x49" => 'cns11643-3',
           # "\x1B\x24\x28\x4A" => 'cns11643-4',
           # "\x1B\x24\x28\x4B" => 'cns11643-5',
           # "\x1B\x24\x28\x4C" => 'cns11643-6',
           # "\x1B\x24\x28\x4D" => 'cns11643-7',
          );

# xfree86 utf8 in compound: ESC % G --UTF-8-BYTES-- ESC % @
#                              25 47                    25 40

# return true if any of the @coding encodings is able to encode $str
sub _encodable_char {
  my ($str) = @_;
  foreach my $coding (@coding) {
    my $input = $str;
    Encode::encode ($coding, $input, Encode::FB_QUIET());
    if (! length($input)) {
      return 1;
    }
  }
  return 0;
}

my $use_utf8 = 1;

sub encode {
  my ($self, $str, $chk) = @_;
  ### Encode-X11 encode(): 'len='.length($str)

  # FIXME: don't think want to preserve esc state across multiple encode()
  # calls, except for perlio ...
  local $self->{'gl_non_ascii'};

  # as much initial latin1 as possible
  my $ret = Encode::encode ('iso-8859-1', $str, Encode::FB_QUIET());

  my $in_latin1 = 1;

  while (length($str)) {
    ### str length: length($str)

    my $longest_bytes = '';
    my $esc;
    my $remainder = $str;
    foreach my $i (0 .. $#coding) {
      last unless length($remainder);
      my $input = $str;
      my $bytes = Encode::encode ($coding[$i], $input, Encode::FB_QUIET());
      if (length($input) < length($remainder)) {
        ### coding: $coding[$i]
        ### length: length($bytes)
        $longest_bytes = $bytes;
        $esc = $esc[$i];
        $remainder = $input;
        $in_latin1 = ($i == 0);
      }
    }
    ### $longest_bytes
    ### $esc

    if (length($longest_bytes)) {
      if ($esc eq "\x1B\x29\x49") {
        # 0x49 right half jis0201 in GR
        if ($longest_bytes !~ /[\x80-\xFF]/) {
          $esc = '';
        }
        if ($longest_bytes =~ /[\x00-\x7F]/) {
          # 0x7E overline U+203E switch GL to jis0201
          $esc .= "\x1B\x28\x4A"; # 0x4A left half in GL
          $self->{'gl_non_ascii'} = 1;
        }
      } elsif (length($esc) == 3) {
        ### want ascii in GL
        $ret .= _encode_ensure_ascii($self);
      } else {
        $self->{'gl_non_ascii'} = 1;
      }
      $ret .= $esc;
      $ret .= $longest_bytes;
      $str = $remainder;

    } else {
      ### unconvertable: ord(substr($str,0,1))

      if ($use_utf8) {
        my $ulen = 1;
        for (;;) {
          if (_encodable_char(substr($str,$ulen,1))) {
            last;
          }
          $ulen++;
        }
        my $input = substr($str,0,$ulen);
        $str = substr($str,$ulen);

        my $bytes = Encode::encode ('utf-8', $input, Encode::FB_QUIET());
        $ret .= "\x1B\x25\x47";
        $ret .= $bytes;
        $ret .= "\x1B\x25\x40";
        if (length($input)) {
          ### oops, unencodable as utf-8 too
          $str = $input . $str;
        } else {
          next;
        }
      }

      if ($chk) {
        ### stop
        last;
      } else {
        ### substitute "?" char
        $ret .= _encode_ensure_ascii($self);
        $ret .= '?';
        $str = substr ($str, 1);
      }
    }
  }
  # if (! $in_latin1) {
  #   $ret .= $esc[0];
  # }
  if ($chk) {
    $_[1] = $str;  # unconverted part, if any
  }
  ### encode final: $ret
  return $ret;
}
sub _encode_ensure_ascii {
  my ($self) = @_;
  if ($self->{'gl_non_ascii'}) {
    $self->{'gl_non_ascii'} = 0;
    return "\x1B\x28\x42"; # ascii GL
  } else {
    return '';
  }
}


#------------------------------------------------------------------------------
# decode()

# xfree86 utf8 in compound: ESC % G --UTF-8-BYTES-- ESC % @
#                              25 47                    25 40

my %esc_to_coding =
 (
  # esc[] table above
  (map { $esc[$_] => $coding[$_] } 0 .. $#coding),

  "\x1B\x28\x4A" => 'jis0201-raw', # jis0201 GL ascii except 0x7E
  "\x1B\x29\x49" => 'jis0201-raw', # jis0201 right GR japanese

  # but supposed to have 0x4A jis0201 left only in GL, and 0x49 jis0201
  # right only in GR
  "\x1B\x28\x49" => 'ascii',       # jis0201 GL
  "\x1B\x29\x4A" => 'iso-8859-1',  # jis0201 GR

  "\x1B\x28\x42" => 'ascii',

  # "\x1B\x2D\x44" => 'jis0212-raw', # GL 1-bytes 96 chars

  # \x24 means 2-bytes per char
  # "\x1B\x24\x28\x41" => 'gb2312',
  # "\x1B\x24\x28\x42" => 'jis0208-raw',# 208-1983 or 208-1990
  "\x1B\x24\x28\x43" => 'ksc5601-raw',
  "\x1B\x24\x28\x44" => 'jis0212-raw',# 212-1990

  # http://www.itscj.ipsj.or.jp/ISO-IR/2-4.htm
  "\x1B\x24\x28\x47" => 'cns11643-1', # Encode::HanExtra
  "\x1B\x24\x28\x48" => 'cns11643-2',
  "\x1B\x24\x28\x49" => 'cns11643-3',
  "\x1B\x24\x28\x4A" => 'cns11643-4',
  "\x1B\x24\x28\x4B" => 'cns11643-5',
  "\x1B\x24\x28\x4C" => 'cns11643-6',
  "\x1B\x24\x28\x4D" => 'cns11643-7',

  "\x1B\x2D\x56" => 'iso-8859-10',  # V
  "\x1B\x2D\x54" => 'iso-8859-11',  # T
  "\x1B\x2D\x59" => 'iso-8859-13',  # Y
  "\x1B\x2D\x5F" => 'iso-8859-14',  # "_"
  "\x1B\x2D\x62" => 'iso-8859-15',  # b
  "\x1B\x2D\x66" => 'iso-8859-16',  # f

  # Emacs chinese-big5-1, A141-C67E
  # "\x1B\x24\x28\x30" => 'big5-eten', # E0
  # Emacs chinese-big5-2, C940-FEFE
  # "\x1B\x24\x28\x31" => 'big5-hkscs',

  # Emacs mule ipa or chinese-sisheng ?
  # "\x1B\x2D\x30" => 'ipa',
  # Emacs mule viscii ?
  # "\x1B\x2D\x31" => 'viscii-lower',
  # "\x1B\x2D\x32" => 'viscii-upper',

 );

my %coding_is_lo = ('ascii' => 1,
                    'jis0208-raw' => 1,
                    'jis0212-raw' => 1,
                    'ksc5601-raw' => 1,
                    'gb2312-raw'  => 1,
                    'cns11643-1' => 1,
                    'cns11643-2' => 1,
                    'cns11643-3' => 1,
                    'cns11643-4' => 1,
                    'cns11643-5' => 1,
                    'cns11643-6' => 1,
                    'cns11643-7' => 1,
                   );
my %coding_is_hi = ('big5-eten' => 1,
                    'big5-hkscs' => 1,
                   );

sub decode {
  my ($self, $bytes, $chk) = @_;
  ### Encode-X11 decode(): 'len='.length($bytes)

  my $ret = '';  # wide chars to return
  my $gl_coding = 'ascii';
  my $gr_coding = 'iso-8859-1';
  my $in_utf8 = 0;

  while ((pos($bytes)||0) < length $bytes) {
    $bytes =~ m{\G(.*?)  # $1 part
                (\x1B    # $2 esc
                  (?:[\x28\x29\x2D].   # 1-byte 94, 94GR, or 96GR
                  |\x24[\x28\x29\x2D]. # 2-byte 94^2 or 96^2
                  |\x25[\x47\x40]      # xfree86 utf-8
                  )
                |$)
             }gx or die;
    my $part_bytes = $1;
    my $esc = $2;

    ### $gl_coding
    ### $gr_coding
    ### part_bytes len: length($part_bytes)
    #### part_bytes: $part_bytes
    for (;;) {
      my $coding;
      my $half_bytes;
      if ($in_utf8 && length($part_bytes) && ! pos($part_bytes))  {
        ### utf8 bytes
        $half_bytes = $part_bytes;
        pos($part_bytes) = length($part_bytes);
        $coding = 'utf-8';

      } elsif ($part_bytes =~ /\G([\x00-\x7F]+)/gc) {
        ### run of GL low bytes ...
        $half_bytes = $1;
        $coding = $gl_coding;
        if ($coding_is_hi{$coding}) {
          $half_bytes =~ tr/\x21-\x7E/\xA1-\xFE/;
        }
      } elsif ($part_bytes =~ /\G([^\x00-\x7F]+)/gc) {
        ### run of GR high bytes ...
        $half_bytes = $1;
        $coding = $gr_coding;
        if ($coding_is_lo{$coding}) {
          ### pos: pos($part_bytes)
          $half_bytes =~ tr/\xA1-\xFE/\x21-\x7E/;
          ### pos: pos($part_bytes)
        }
      } else {
        last;
      }

      while (length $half_bytes) {
        ### $coding
        ### half_bytes len: length($half_bytes)
        #### $half_bytes
        $ret .= Encode::decode ($coding, $half_bytes,
                                $chk ? Encode::FB_QUIET() : Encode::FB_DEFAULT());
        ### half_bytes left: length($half_bytes)
        ### now ret len: length($ret)
        #### now ret: $ret
        if (length $half_bytes) {
          ### decode error at: sprintf("%#X",pos($bytes))
          if ($chk) {
            $_[1] = substr ($bytes,
                            pos($bytes) - length($esc)
                            - length($part_bytes) + pos($part_bytes)
                            - length($half_bytes));
            return $ret;

          } else {
            $ret .= chr(0xFFFD);
            # or skip two for a 2-byte encoding ?
            $half_bytes = substr($half_bytes, 1);
          }
        }
      }
    }

    ### esc: join(' ',map {sprintf("%02X",ord(substr($esc,$_,1)))} 0 .. length($esc)-1)
    # XFree86
    # http://www.itscj.ipsj.or.jp/ISO-IR/2-8-1.htm
    if ($esc eq "\x1B\x25\x47") {
      $in_utf8 = 1;
      next;
    }
    if ($esc eq "\x1B\x25\x40") {
      $in_utf8 = 0;  # back to GL/GR style ...
      next;
    }

    my $coding = $esc_to_coding{$esc};
    my $gref;
    if (($esc =~ s/\x1B\x29/\x1B\x28/)   # 1-byte 94-char
        ||
        ($esc =~ s/\x1B\x24[\x29\x2D]/\x1B\x24\x28/)   # 2-byte 94^2-char
        ||
        ($esc =~ /\x1B\x2D/)   # 1-byte 96-char
       ) {
      $gref = \$gr_coding;
    } else {
      $gref = \$gl_coding;
    }
    ### mangled esc: join(' ',map {sprintf("%02X",ord(substr($esc,$_,1)))} 0 .. length($esc)-1)

    $coding ||= $esc_to_coding{$esc};
    if (! defined $coding
        || ($coding =~ /^cns/
            && ! eval { require Encode::HanExtra; 1 })) {
      ### no coding: $coding
      if ($chk) {
        pos($bytes) -= length($esc);
        last;
      } else {
        $ret .= chr(0xFFFD);
      }
    }
    $$gref = $coding;
  }

  ### final len: length($ret)
  #### final ret: $ret
  $_[1] = substr ($bytes, pos($bytes));
  return $ret;
}

1;
__END__

=for stopwords X11-Protocol-Other Ryde encodings ICCCM charsets JIS KSC there'll latin-N jis ksc gb utf-8 recognise cns11643 Xlib libX11 HanExtra oopery

=head1 NAME

Encode::X11 -- character encodings for X11

=for test_synopsis my ($bytes)

=head1 SYNOPSIS

 use Encode;
 use Encode::X11;
 my $chars = Encode::decode ('x11-compound-text', $bytes);

=head1 DESCRIPTION

This module encodes and decodes X11 ICCCM "compound text" strings.

    x11-compound-text

Compound text is found in window properties of type C<COMPOUND_TEXT>.  It's
not usual to use it outside that context.  Compound text consists of
ISO-2022 style escape sequences switching among various basic charsets,
including the ISO-8859 series, JIS, KSC, and GB.

The plain name "x11-compound-text" tries to encode in a sensible and
compatible way.  Perhaps in the future there'll be some options or
variations for which charsets to use.  For now encoding prefers the original
ICCCM charsets latin-N, JIS, KSC and GB for the benefit of older X clients,
then the newer utf-8 encoding when necessary.

The decode is meant to recognise anything, but may be a bit limited yet.
Perhaps it could be just a full ISO-2022 decode, if/when that might exist,
but for now it's done explicitly and might potentially cope with X11
specifics.

Decoding cns11643 segments requires the C<Encode::HanExtra> module.  Such
segments are not normally generated by the Xlib conversions (as of X.org
libX11 1.4.0).  Have HanExtra available if you think you might encounter
them.

Emacs has some "private encoding" sequences for big5.  They're not supported
currently.

When working with compound text you might in fact not want to convert it to
Perl wide chars.  If drawing with the core X requests then split it into
segments of the various charsets and find a font for each encoding.  Some
oopery could no doubt represent such a breakdown and have things like
concatenate or compare.  That would work almost directly with the bytes
without converting.

=head1 SEE ALSO

L<Encode>,
L<Encode::HanExtra>

"Compound Text Encoding" specification,
L</usr/share/doc/xorg-docs/specs/CTEXT/ctext.txt.gz>,
L<http://www.x.org/docs/CTEXT/ctext.pdf>

=head1 HOME PAGE

L<http://user42.tuxfamily.org/x11-protocol-other/index.html>

=head1 LICENSE

Copyright 2011, 2012, 2013 Kevin Ryde

X11-Protocol-Other is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by the
Free Software Foundation; either version 3, or (at your option) any later
version.

X11-Protocol-Other is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License for
more details.

You should have received a copy of the GNU General Public License along with
X11-Protocol-Other.  If not, see <http://www.gnu.org/licenses/>.

=cut