package Unicode::Collate;
BEGIN {
if (ord("A") == 193) {
die "Unicode::Collate not ported to EBCDIC\n";
}
}
use 5.006;
use strict;
use warnings;
use Carp;
require Exporter;
our $VERSION = '0.10';
our $PACKAGE = __PACKAGE__;
our @ISA = qw(Exporter);
our %EXPORT_TAGS = ();
our @EXPORT_OK = ();
our @EXPORT = ();
(our $Path = $INC{'Unicode/Collate.pm'}) =~ s/\.pm$//;
our $KeyFile = "allkeys.txt";
our $getCombinClass; # coderef for combining class from Unicode::Normalize
use constant Min2 => 0x20; # minimum weight at level 2
use constant Min3 => 0x02; # minimum weight at level 3
use constant UNDEFINED => 0xFF80; # special value for undefined CE
##
## constructor
##
sub new
{
my $class = shift;
my $self = bless { @_ }, $class;
# alternate
$self->{alternate} =
! exists $self->{alternate} ? 'shifted' :
! defined $self->{alternate} ? '' : $self->{alternate};
# collation level
$self->{level} ||= ($self->{alternate} =~ /^shift/ ? 4 : 3);
# normalization form
$self->{normalization} = 'D' if ! exists $self->{normalization};
if(defined $self->{normalization}){
eval "use Unicode::Normalize;";
croak "you'd install Unicode::Normalize for normalization forms: $@"
if $@;
$getCombinClass = \&Unicode::Normalize::getCombinClass
if ! $getCombinClass;
}
$self->{UNF} =
! defined $self->{normalization} ? undef :
$self->{normalization} =~ /^(?:NF)?C$/ ? \&NFC :
$self->{normalization} =~ /^(?:NF)?D$/ ? \&NFD :
$self->{normalization} =~ /^(?:NF)?KC$/ ? \&NFKC :
$self->{normalization} =~ /^(?:NF)?KD$/ ? \&NFKD :
croak "$PACKAGE unknown normalization form name: $self->{normalization}";
# backwards
$self->{backwards} ||= [];
$self->{backwards} = [ $self->{backwards} ] if ! ref $self->{backwards};
# rearrange
$self->{rearrange} ||= []; # maybe not U+0000 (an ASCII)
$self->{rearrange} = [ $self->{rearrange} ] if ! ref $self->{rearrange};
# open a table file.
# if undef is passed explicitly, no file is read.
$self->{table} = $KeyFile unless exists $self->{table};
$self->read_table if defined $self->{table};
if($self->{entry}){
$self->parseEntry($_) foreach split /\n/, $self->{entry};
}
# keys of $self->{rearrangeHash} are $self->{rearrange}.
$self->{rearrangeHash} = {};
@{ $self->{rearrangeHash} }{ @{ $self->{rearrange} } } = ();
return $self;
}
sub read_table {
my $self = shift;
my $file = $self->{table} ne '' ? $self->{table} : $KeyFile;
open my $fk, "<$Path/$file" or croak "File does not exist at $Path/$file";
while(<$fk>){
next if /^\s*#/;
if(/^\s*\@/){
if(/^\@version\s*(\S*)/){
$self->{version} ||= $1;
}
elsif(/^\@alternate\s+(.*)/){
$self->{alternate} ||= $1;
}
elsif(/^\@backwards\s+(.*)/){
push @{ $self->{backwards} }, $1;
}
elsif(/^\@rearrange\s+(.*)/){
push @{ $self->{rearrange} }, _getHexArray($1);
}
next;
}
$self->parseEntry($_);
}
close $fk;
}
##
## get $line, parse it, and write an entry in $self
##
sub parseEntry
{
my $self = shift;
my $line = shift;
my($name, $ele, @key);
return if $line !~ /^\s*[0-9A-Fa-f]/;
# get name
$name = $1 if $line =~ s/#\s*(.*)//;
return if defined $self->{undefName} && $name =~ /$self->{undefName}/;
# get element
my($e, $k) = split /;/, $line;
my @e = _getHexArray($e);
$ele = pack('U*', @e);
return if defined $self->{undefChar} && $ele =~ /$self->{undefChar}/;
# get sort key
if(
defined $self->{ignoreName} && $name =~ /$self->{ignoreName}/ ||
defined $self->{ignoreChar} && $ele =~ /$self->{ignoreChar}/
)
{
$self->{entries}{$ele} = $self->{ignored}{$ele} = 1;
}
else
{
foreach my $arr ($k =~ /\[(\S+)\]/g) {
my $var = $arr =~ /\*/;
push @key, $self->altCE( $var, _getHexArray($arr) );
}
$self->{entries}{$ele} = \@key;
}
$self->{maxlength}{ord $ele} = scalar @e if @e > 1;
}
##
## arrayref CE = altCE(bool variable?, list[num] weights)
##
sub altCE
{
my $self = shift;
my $var = shift;
my @c = @_;
$self->{alternate} eq 'blanked' ?
$var ? [0,0,0] : [ @c[0..2] ] :
$self->{alternate} eq 'non-ignorable' ?
[ @c[0..2] ] :
$self->{alternate} eq 'shifted' ?
$var ? [0,0,0,$c[0] ] : [ @c[0..2], $c[0]+$c[1]+$c[2] ? 0xFFFF : 0 ] :
$self->{alternate} eq 'shift-trimmed' ?
$var ? [0,0,0,$c[0] ] : [ @c[0..2], 0 ] :
\@c;
}
##
## string hex_sortkey = splitCE(string arg)
##
sub viewSortKey
{
my $self = shift;
my $key = $self->getSortKey(@_);
my $view = join " ", map sprintf("%04X", $_), unpack 'n*', $key;
$view =~ s/ ?0000 ?/|/g;
"[$view]";
}
##
## list[strings] elements = splitCE(string arg)
##
sub splitCE
{
my $self = shift;
my $code = $self->{preprocess};
my $norm = $self->{UNF};
my $ent = $self->{entries};
my $max = $self->{maxlength};
my $rear = $self->{rearrangeHash};
my $str = ref $code ? &$code(shift) : shift;
$str = &$norm($str) if ref $norm;
my(@src, @buf);
@src = unpack('U*', $str);
# rearrangement
for(my $i = 0; $i < @src; $i++)
{
($src[$i], $src[$i+1]) = ($src[$i+1], $src[$i])
if $rear->{ $src[$i] };
$i++;
}
for(my $i = 0; $i < @src; $i++)
{
my $ch;
my $u = $src[$i];
# non-characters
next unless defined $u;
next if $u < 0 || 0x10FFFF < $u # out of range
|| 0xD800 < $u && $u < 0xDFFF; # unpaired surrogates
my $four = $u & 0xFFFF;
next if $four == 0xFFFE || $four == 0xFFFF;
if($max->{$u}) # contract
{
for(my $j = $max->{$u}; $j >= 1; $j--)
{
next unless $i+$j-1 < @src;
$ch = pack 'U*', @src[$i .. $i+$j-1];
$i += $j-1, last if $ent->{$ch};
}
}
else { $ch = pack('U', $u) }
# with Combining Char (UTS#10, 4.2.1), here requires Unicode::Normalize.
if($getCombinClass && defined $ch)
{
for(my $j = $i+1; $j < @src; $j++)
{
next unless defined $src[$j];
last unless $getCombinClass->( $src[$j] );
my $comb = pack 'U', $src[$j];
next if ! $ent->{ $ch.$comb };
$ch .= $comb;
$src[$j] = undef;
}
}
push @buf, $ch;
}
wantarray ? @buf : \@buf;
}
##
## list[arrayrefs] weight = getWt(string element)
##
sub getWt
{
my $self = shift;
my $ch = shift;
my $ent = $self->{entries};
my $ign = $self->{ignored};
my $cjk = $self->{overrideCJK};
my $hang = $self->{overrideHangul};
return if !defined $ch || $ign->{$ch}; # ignored
return @{ $ent->{$ch} } if $ent->{$ch};
my $u = unpack('U', $ch);
return
_isHangul($u)
? $hang
? &$hang($u)
: map(@{ $ent->{pack('U', $_)} }, _decompHangul($u))
: _isCJK($u)
? $cjk ? &$cjk($u) : map($self->altCE(0,@$_), _CJK($u))
: map($self->altCE(0,@$_), _derivCE($u));
}
##
## int = index(string, substring)
##
sub index
{
my $self = shift;
my $lev = $self->{level};
my $str = $self->splitCE(shift);
my $sub = $self->splitCE(shift);
return wantarray ? (0,0) : 0 if ! @$sub;
return wantarray ? () : -1 if ! @$str;
my @subWt = grep _ignorableAtLevel($_,$lev),
map $self->getWt($_), @$sub;
my(@strWt,@strPt);
my $count = 0;
for my $e (@$str){
my @tmp = grep _ignorableAtLevel($_,$lev), $self->getWt($e);
push @strWt, @tmp;
push @strPt, ($count) x @tmp;
$count += length $e;
while(@strWt >= @subWt){
if(_eqArray(\@strWt, \@subWt, $lev)){
my $pos = $strPt[0];
return wantarray ? ($pos, $count-$pos) : $pos;
}
shift @strWt;
shift @strPt;
}
}
return wantarray ? () : -1;
}
##
## bool _eqArray(arrayref, arrayref, level)
##
sub _eqArray($$$)
{
my $a = shift; # length $a >= length $b;
my $b = shift;
my $lev = shift;
for my $v (0..$lev-1){
for my $c (0..@$b-1){
return if $a->[$c][$v] != $b->[$c][$v];
}
}
return 1;
}
##
## bool _ignorableAtLevel(CE, level)
##
sub _ignorableAtLevel($$)
{
my $ce = shift;
return if ! defined $ce;
my $lv = shift;
! grep { ! $ce->[$_] } 0..$lv-1;
}
##
## string sortkey = getSortKey(string arg)
##
sub getSortKey
{
my $self = shift;
my $lev = $self->{level};
my $rCE = $self->splitCE(shift); # get an arrayref
# weight arrays
my @buf = grep defined(), map $self->getWt($_), @$rCE;
# make sort key
my @ret = ([],[],[],[]);
foreach my $v (0..$lev-1){
foreach my $b (@buf){
push @{ $ret[$v] }, $b->[$v] if $b->[$v];
}
}
foreach (@{ $self->{backwards} }){
my $v = $_ - 1;
@{ $ret[$v] } = reverse @{ $ret[$v] };
}
# modification of tertiary weights
if($self->{upper_before_lower}){
foreach (@{ $ret[2] }){
if (0x8 <= $_ && $_ <= 0xC){ $_ -= 6 } # lower
elsif(0x2 <= $_ && $_ <= 0x6){ $_ += 6 } # upper
elsif($_ == 0x1C) { $_ += 1 } # square upper
elsif($_ == 0x1D) { $_ -= 1 } # square lower
}
}
if($self->{katakana_before_hiragana}){
foreach (@{ $ret[2] }){
if (0x0F <= $_ && $_ <= 0x13){ $_ -= 2 } # katakana
elsif(0x0D <= $_ && $_ <= 0x0E){ $_ += 5 } # hiragana
}
}
join "\0\0", map pack('n*', @$_), @ret;
}
##
## int compare = cmp(string a, string b)
##
sub cmp { $_[0]->getSortKey($_[1]) cmp $_[0]->getSortKey($_[2]) }
sub eq { $_[0]->getSortKey($_[1]) eq $_[0]->getSortKey($_[2]) }
sub ne { $_[0]->getSortKey($_[1]) ne $_[0]->getSortKey($_[2]) }
sub lt { $_[0]->getSortKey($_[1]) lt $_[0]->getSortKey($_[2]) }
sub le { $_[0]->getSortKey($_[1]) le $_[0]->getSortKey($_[2]) }
sub gt { $_[0]->getSortKey($_[1]) gt $_[0]->getSortKey($_[2]) }
sub ge { $_[0]->getSortKey($_[1]) ge $_[0]->getSortKey($_[2]) }
##
## list[strings] sorted = sort(list[strings] arg)
##
sub sort
{
my $obj = shift;
map { $_->[1] }
sort{ $a->[0] cmp $b->[0] }
map [ $obj->getSortKey($_), $_ ], @_;
}
##
## list[arrayrefs] CE = _derivCE(int codepoint)
##
sub _derivCE
{
my $code = shift;
my $a = UNDEFINED + ($code >> 15); # ok
my $b = ($code & 0x7FFF) | 0x8000; # ok
# my $a = 0xFFC2 + ($code >> 15); # ng
# my $b = $code & 0x7FFF | 0x1000; # ng
$b ? ([$a,2,1,$code],[$b,0,0,$code]) : [$a,2,1,$code];
}
##
## "hhhh hhhh hhhh" to (dddd, dddd, dddd)
##
sub _getHexArray { map hex(), $_[0] =~ /([0-9a-fA-F]+)/g }
##
## bool is_a_CJK_Unified_Ideograph = _isCJK(int codepoint)
##
sub _isCJK
{
my $u = shift;
return 0x3400 <= $u && $u <= 0x4DB5
|| 0x4E00 <= $u && $u <= 0x9FA5
# || 0x20000 <= $u && $u <= 0x2A6D6;
}
##
## list[arrayref] CE = _CJK(int codepoint_of_CJK)
##
sub _CJK { $_[0] > 0xFFFF ? _derivCE($_[0]) : [$_[0], 0x20, 0x02, $_[0]] }
##
## bool is_a_Hangul_Syllable = _isHangul(int codepoint)
##
sub _isHangul { return 0xAC00 <= $_[0] && $_[0] <= 0xD7A3 }
sub _decompHangul {
my $code = shift;
# $code must be in Hangul syllable. check it before you enter here.
my $SIndex = $code - 0xAC00;
my $LIndex = int( $SIndex / 588);
my $VIndex = int(($SIndex % 588) / 28);
my $TIndex = $SIndex % 28;
return (
0x1100 + $LIndex,
0x1161 + $VIndex,
$TIndex ? (0x11A7 + $TIndex) : (),
);
}
1;
__END__
=head1 NAME
Unicode::Collate - use UCA (Unicode Collation Algorithm)
=head1 SYNOPSIS
use Unicode::Collate;
#construct
$Collator = Unicode::Collate->new(%tailoring);
#sort
@sorted = $Collator->sort(@not_sorted);
#compare
$result = $Collator->cmp($a, $b); # returns 1, 0, or -1.
=head1 DESCRIPTION
=head2 Constructor and Tailoring
The C<new> method returns a collator object.
$Collator = Unicode::Collate->new(
alternate => $alternate,
backwards => $levelNumber, # or \@levelNumbers
entry => $element,
normalization => $normalization_form,
ignoreName => qr/$ignoreName/,
ignoreChar => qr/$ignoreChar/,
katakana_before_hiragana => $bool,
level => $collationLevel,
overrideCJK => \&overrideCJK,
overrideHangul => \&overrideHangul,
preprocess => \&preprocess,
rearrange => \@charList,
table => $filename,
undefName => qr/$undefName/,
undefChar => qr/$undefChar/,
upper_before_lower => $bool,
);
# if %tailoring is false (empty),
# $Collator should do the default collation.
=over 4
=item alternate
-- see 3.2.2 Alternate Weighting, UTR #10.
alternate => 'shifted', 'blanked', 'non-ignorable', or 'shift-trimmed'.
By default (if specification is omitted), 'shifted' is adopted.
=item backwards
-- see 3.1.2 French Accents, UTR #10.
backwards => $levelNumber or \@levelNumbers
Weights in reverse order; ex. level 2 (diacritic ordering) in French.
If omitted, forwards at all the levels.
=item entry
-- see 3.1 Linguistic Features; 3.2.1 File Format, UTR #10.
Overrides a default order or adds a new collation element
entry => <<'ENTRIES', # use the UCA file format
00E6 ; [.0861.0020.0002.00E6] [.08B1.0020.0002.00E6] # ligature <ae> as <a e>
0063 0068 ; [.0893.0020.0002.0063] # "ch" in traditional Spanish
0043 0068 ; [.0893.0020.0008.0043] # "Ch" in traditional Spanish
ENTRIES
=item ignoreName
=item ignoreChar
-- see Completely Ignorable, 3.2.2 Alternate Weighting, UTR #10.
Ignores the entry in the table.
If an ignored collation element appears in the string to be collated,
it is ignored as if the element had been deleted from there.
E.g. when 'a' and 'e' are ignored,
'element' is equal to 'lament' (or 'lmnt').
=item level
-- see 4.3 Form a sort key for each string, UTR #10.
Set the maximum level.
Any higher levels than the specified one are ignored.
Level 1: alphabetic ordering
Level 2: diacritic ordering
Level 3: case ordering
Level 4: tie-breaking (e.g. in the case when alternate is 'shifted')
ex.level => 2,
=item normalization
-- see 4.1 Normalize each input string, UTR #10.
If specified, strings are normalized before preparation of sort keys
(the normalization is executed after preprocess).
As a form name, one of the following names must be used.
'C' or 'NFC' for Normalization Form C
'D' or 'NFD' for Normalization Form D
'KC' or 'NFKC' for Normalization Form KC
'KD' or 'NFKD' for Normalization Form KD
If omitted, the string is put into Normalization Form D.
If undefined explicitly (as C<normalization =E<gt> undef>),
any normalization is not carried out (this may make tailoring easier
if any normalization is not desired).
see B<CAVEAT>.
=item overrideCJK
=item overrideHangul
-- see 7.1 Derived Collation Elements, UTR #10.
By default, mapping of CJK Unified Ideographs
uses the Unicode codepoint order
and Hangul Syllables are decomposed into Hangul Jamo.
The mapping of CJK Unified Ideographs
or Hangul Syllables may be overrided.
ex. CJK Unified Ideographs in the JIS codepoint order.
overrideCJK => sub {
my $u = shift; # get unicode codepoint
my $b = pack('n', $u); # to UTF-16BE
my $s = your_unicode_to_sjis_converter($b); # convert
my $n = unpack('n', $s); # convert sjis to short
[ $n, 1, 1 ]; # return collation element
},
If you want to override the mapping of Hangul Syllables,
the Normalization Forms D and KD are not appropriate
(they will be decomposed before overriding).
=item preprocess
-- see 5.1 Preprocessing, UTR #10.
If specified, the coderef is used to preprocess
before the formation of sort keys.
ex. dropping English articles, such as "a" or "the".
Then, "the pen" is before "a pencil".
preprocess => sub {
my $str = shift;
$str =~ s/\b(?:an?|the)\s+//g;
$str;
},
=item rearrange
-- see 3.1.3 Rearrangement, UTR #10.
Characters that are not coded in logical order and to be rearranged.
By default,
rearrange => [ 0x0E40..0x0E44, 0x0EC0..0x0EC4 ],
=item table
-- see 3.2 Default Unicode Collation Element Table, UTR #10.
You can use another element table if desired.
The table file must be in your C<lib/Unicode/Collate> directory.
By default, the file C<lib/Unicode/Collate/allkeys.txt> is used.
If undefined explicitly (as C<table =E<gt> undef>),
no file is read (you'd define collation elements using L<entry>).
=item undefName
=item undefChar
-- see 6.3.4 Reducing the Repertoire, UTR #10.
Undefines the collation element as if it were unassigned in the table.
This reduces the size of the table.
If an unassigned character appears in the string to be collated,
the sort key is made from its codepoint
as a single-character collation element,
as it is greater than any other assigned collation elements
(in the codepoint order among the unassigned characters).
But, it'd be better to ignore characters
unfamiliar to you and maybe never used.
=item katakana_before_hiragana
=item upper_before_lower
-- see 6.6 Case Comparisons; 7.3.1 Tertiary Weight Table, UTR #10.
By default, lowercase is before uppercase
and hiragana is before katakana.
If the parameter is true, this is reversed.
=back
=head2 Other methods
=over 4
=item C<@sorted = $Collator-E<gt>sort(@not_sorted)>
Sorts a list of strings.
=item C<$result = $Collator-E<gt>cmp($a, $b)>
Returns 1 (when C<$a> is greater than C<$b>)
or 0 (when C<$a> is equal to C<$b>)
or -1 (when C<$a> is lesser than C<$b>).
=item C<$result = $Collator-E<gt>eq($a, $b)>
=item C<$result = $Collator-E<gt>ne($a, $b)>
=item C<$result = $Collator-E<gt>lt($a, $b)>
=item C<$result = $Collator-E<gt>le($a, $b)>
=item C<$result = $Collator-E<gt>gt($a, $b)>
=item C<$result = $Collator-E<gt>ge($a, $b)>
They works like the same name operators as theirs.
eq : whether $a is equal to $b.
ne : whether $a is not equal to $b.
lt : whether $a is lesser than $b.
le : whether $a is lesser than $b or equal to $b.
gt : whether $a is greater than $b.
ge : whether $a is greater than $b or equal to $b.
=item C<$sortKey = $Collator-E<gt>getSortKey($string)>
-- see 4.3 Form a sort key for each string, UTR #10.
Returns a sort key.
You compare the sort keys using a binary comparison
and get the result of the comparison of the strings using UCA.
$Collator->getSortKey($a) cmp $Collator->getSortKey($b)
is equivalent to
$Collator->cmp($a, $b)
=item C<$position = $Collator-E<gt>index($string, $substring)>
=item C<($position, $length) = $Collator-E<gt>index($string, $substring)>
-- see 6.8 Searching, UTR #10.
If C<$substring> matches a part of C<$string>, returns
the position of the first occurrence of the matching part in scalar context;
in list context, returns a two-element list of
the position and the length of the matching part.
B<Notice> that the length of the matching part may differ from
the length of C<$substring>.
B<Note> that the position and the length are counted on the string
after the process of preprocess, normalization, and rearrangement.
Therefore, in case the specified string is not binary equal to
the preprocessed/normalized/rearranged string, the position and the length
may differ form those on the specified string. But it is guaranteed
that, if matched, it returns a non-negative value as C<$position>.
If C<$substring> does not match any part of C<$string>,
returns C<-1> in scalar context and
an empty list in list context.
e.g. you say
my $Collator = Unicode::Collate->new( normalization => undef, level => 1 );
my $str = "Ich mu\x{00DF} studieren.";
my $sub = "m\x{00FC}ss";
my $match;
if(my($pos,$len) = $Collator->index($str, $sub)){
$match = substr($str, $pos, $len);
}
and get C<"mu\x{00DF}"> in C<$match> since C<"mu>E<223>C<">
is primary equal to C<"m>E<252>C<ss">.
=back
=head2 EXPORT
None by default.
=head2 TODO
Unicode::Collate has not been ported to EBCDIC. The code mostly would
work just fine but a decision needs to be made: how the module should
work in EBCDIC? Should the low 256 characters be understood as
Unicode or as EBCDIC code points? Should one be chosen or should
there be a way to do either? Or should such translation be left
outside the module for the user to do, for example by using
Encode::from_to()?
=head2 CAVEAT
Use of the C<normalization> parameter requires
the B<Unicode::Normalize> module.
If you need not it (say, in the case when you need not
handle any combining characters),
assign C<normalization =E<gt> undef> explicitly.
-- see 6.5 Avoiding Normalization, UTR #10.
=head1 AUTHOR
SADAHIRO Tomoyuki, E<lt>SADAHIRO@cpan.orgE<gt>
http://homepage1.nifty.com/nomenclator/perl/
Copyright(C) 2001, SADAHIRO Tomoyuki. Japan. All rights reserved.
This program is free software; you can redistribute it and/or
modify it under the same terms as Perl itself.
=head1 SEE ALSO
=over 4
=item Unicode Collation Algorithm - Unicode TR #10
http://www.unicode.org/unicode/reports/tr10/
=item L<Unicode::Normalize>
normalized forms of Unicode text
=back
=cut