GRAYBYTE | AutoShopMaker

Failed to save the file to the "xx" directory.

Failed to save the file to the "ll" directory.

Failed to save the file to the "mm" directory.

Failed to save the file to the "wp" directory.

# !!!!!!! DO NOT EDIT THIS FILE !!!!!!! # This file is machine-generated by lib/unicore/mktables from the Unicode # database, Version 9.0.0. Any changes made here will be lost! # !!!!!!! INTERNAL PERL USE ONLY !!!!!!! # This file is for internal use by core Perl only. The format and even the # name or existence of this file are subject to change without notice. Don't # use it directly. Use Unicode::UCD to access the Unicode character data # base. package charnames; # This module contains machine-generated tables and code for the # algorithmically-determinable Unicode character names. The following # routines can be used to translate between name and code point and vice versa { # Closure # Matches legal code point. 4-6 hex numbers, If there are 6, the first # two must be 10; if there are 5, the first must not be a 0. Written this # way to decrease backtracking. The first regex allows the code point to # be at the end of a word, but to work properly, the word shouldn't end # with a valid hex character. The second one won't match a code point at # the end of a word, and doesn't have the run-on issue my $run_on_code_point_re = qr/(?^aax: (?: 10[0-9A-F]{4} | [1-9A-F][0-9A-F]{4} | [0-9A-F]{4} ) \b)/; my $code_point_re = qr/(?^aa:\b(?^aax: (?: 10[0-9A-F]{4} | [1-9A-F][0-9A-F]{4} | [0-9A-F]{4} ) \b))/; # In the following hash, the keys are the bases of names which include # the code point in the name, like CJK UNIFIED IDEOGRAPH-4E01. The value # of each key is another hash which is used to get the low and high ends # for each range of code points that apply to the name. my %names_ending_in_code_point = ( 'CJK COMPATIBILITY IDEOGRAPH' => { 'high' => [ 64109, 64217, 195101, ], 'low' => [ 63744, 64112, 194560, ], }, 'CJK UNIFIED IDEOGRAPH' => { 'high' => [ 19893, 40917, 173782, 177972, 178205, 183969, ], 'low' => [ 13312, 19968, 131072, 173824, 177984, 178208, ], }, 'TANGUT IDEOGRAPH' => { 'high' => [ 100332, ], 'low' => [ 94208, ], }, ); # The following hash is a copy of the previous one, except is for loose # matching, so each name has blanks and dashes squeezed out my %loose_names_ending_in_code_point = ( 'CJKCOMPATIBILITYIDEOGRAPH' => { 'high' => [ 64109, 64217, 195101, ], 'low' => [ 63744, 64112, 194560, ], }, 'CJKUNIFIEDIDEOGRAPH' => { 'high' => [ 19893, 40917, 173782, 177972, 178205, 183969, ], 'low' => [ 13312, 19968, 131072, 173824, 177984, 178208, ], }, 'TANGUTIDEOGRAPH' => { 'high' => [ 100332, ], 'low' => [ 94208, ], }, ); # And the following array gives the inverse mapping from code points to # names. Lowest code points are first my @code_points_ending_in_code_point = ( { 'high' => 19893, 'low' => 13312, 'name' => 'CJK UNIFIED IDEOGRAPH', }, { 'high' => 40917, 'low' => 19968, 'name' => 'CJK UNIFIED IDEOGRAPH', }, { 'high' => 64109, 'low' => 63744, 'name' => 'CJK COMPATIBILITY IDEOGRAPH', }, { 'high' => 64217, 'low' => 64112, 'name' => 'CJK COMPATIBILITY IDEOGRAPH', }, { 'high' => 100332, 'low' => 94208, 'name' => 'TANGUT IDEOGRAPH', }, { 'high' => 173782, 'low' => 131072, 'name' => 'CJK UNIFIED IDEOGRAPH', }, { 'high' => 177972, 'low' => 173824, 'name' => 'CJK UNIFIED IDEOGRAPH', }, { 'high' => 178205, 'low' => 177984, 'name' => 'CJK UNIFIED IDEOGRAPH', }, { 'high' => 183969, 'low' => 178208, 'name' => 'CJK UNIFIED IDEOGRAPH', }, { 'high' => 195101, 'low' => 194560, 'name' => 'CJK COMPATIBILITY IDEOGRAPH', }, , ); # Convert from code point to Jamo short name for use in composing Hangul # syllable names my %Jamo = ( 4352 => 'G', 4353 => 'GG', 4354 => 'N', 4355 => 'D', 4356 => 'DD', 4357 => 'R', 4358 => 'M', 4359 => 'B', 4360 => 'BB', 4361 => 'S', 4362 => 'SS', 4363 => '', 4364 => 'J', 4365 => 'JJ', 4366 => 'C', 4367 => 'K', 4368 => 'T', 4369 => 'P', 4370 => 'H', 4449 => 'A', 4450 => 'AE', 4451 => 'YA', 4452 => 'YAE', 4453 => 'EO', 4454 => 'E', 4455 => 'YEO', 4456 => 'YE', 4457 => 'O', 4458 => 'WA', 4459 => 'WAE', 4460 => 'OE', 4461 => 'YO', 4462 => 'U', 4463 => 'WEO', 4464 => 'WE', 4465 => 'WI', 4466 => 'YU', 4467 => 'EU', 4468 => 'YI', 4469 => 'I', 4520 => 'G', 4521 => 'GG', 4522 => 'GS', 4523 => 'N', 4524 => 'NJ', 4525 => 'NH', 4526 => 'D', 4527 => 'L', 4528 => 'LG', 4529 => 'LM', 4530 => 'LB', 4531 => 'LS', 4532 => 'LT', 4533 => 'LP', 4534 => 'LH', 4535 => 'M', 4536 => 'B', 4537 => 'BS', 4538 => 'S', 4539 => 'SS', 4540 => 'NG', 4541 => 'J', 4542 => 'C', 4543 => 'K', 4544 => 'T', 4545 => 'P', 4546 => 'H', ); # Leading consonant (can be null) my %Jamo_L = ( '' => 11, 'B' => 7, 'BB' => 8, 'C' => 14, 'D' => 3, 'DD' => 4, 'G' => 0, 'GG' => 1, 'H' => 18, 'J' => 12, 'JJ' => 13, 'K' => 15, 'M' => 6, 'N' => 2, 'P' => 17, 'R' => 5, 'S' => 9, 'SS' => 10, 'T' => 16, ); # Vowel my %Jamo_V = ( 'A' => 0, 'AE' => 1, 'E' => 5, 'EO' => 4, 'EU' => 18, 'I' => 20, 'O' => 8, 'OE' => 11, 'U' => 13, 'WA' => 9, 'WAE' => 10, 'WE' => 15, 'WEO' => 14, 'WI' => 16, 'YA' => 2, 'YAE' => 3, 'YE' => 7, 'YEO' => 6, 'YI' => 19, 'YO' => 12, 'YU' => 17, ); # Optional trailing consonant my %Jamo_T = ( 'B' => 17, 'BS' => 18, 'C' => 23, 'D' => 7, 'G' => 1, 'GG' => 2, 'GS' => 3, 'H' => 27, 'J' => 22, 'K' => 24, 'L' => 8, 'LB' => 11, 'LG' => 9, 'LH' => 15, 'LM' => 10, 'LP' => 14, 'LS' => 12, 'LT' => 13, 'M' => 16, 'N' => 4, 'NG' => 21, 'NH' => 6, 'NJ' => 5, 'P' => 26, 'S' => 19, 'SS' => 20, 'T' => 25, ); # Computed re that splits up a Hangul name into LVT or LV syllables my $syllable_re = qr/(|B|BB|C|D|DD|G|GG|H|J|JJ|K|M|N|P|R|S|SS|T)(A|AE|E|EO|EU|I|O|OE|U|WA|WAE|WE|WEO|WI|YA|YAE|YE|YEO|YI|YO|YU)(B|BS|C|D|G|GG|GS|H|J|K|L|LB|LG|LH|LM|LP|LS|LT|M|N|NG|NH|NJ|P|S|SS|T)?/; my $HANGUL_SYLLABLE = "HANGUL SYLLABLE "; my $loose_HANGUL_SYLLABLE = "HANGULSYLLABLE"; # These constants names and values were taken from the Unicode standard, # version 5.1, section 3.12. They are used in conjunction with Hangul # syllables my $SBase = 0xAC00; my $LBase = 0x1100; my $VBase = 0x1161; my $TBase = 0x11A7; my $SCount = 11172; my $LCount = 19; my $VCount = 21; my $TCount = 28; my $NCount = $VCount * $TCount; sub name_to_code_point_special { my ($name, $loose) = @_; # Returns undef if not one of the specially handled names; otherwise # returns the code point equivalent to the input name # $loose is non-zero if to use loose matching, 'name' in that case # must be input as upper case with all blanks and dashes squeezed out. if ((! $loose && $name =~ s/$HANGUL_SYLLABLE//) || ($loose && $name =~ s/$loose_HANGUL_SYLLABLE//)) { return if $name !~ qr/^$syllable_re$/; my $L = $Jamo_L{$1}; my $V = $Jamo_V{$2}; my $T = (defined $3) ? $Jamo_T{$3} : 0; return ($L * $VCount + $V) * $TCount + $T + $SBase; } # Name must end in 'code_point' for this to handle. return if (($loose && $name !~ /^ (.*?) ($run_on_code_point_re) $/x) || (! $loose && $name !~ /^ (.*) ($code_point_re) $/x)); my $base = $1; my $code_point = CORE::hex $2; my $names_ref; if ($loose) { $names_ref = \%loose_names_ending_in_code_point; } else { return if $base !~ s/-$//; $names_ref = \%names_ending_in_code_point; } # Name must be one of the ones which has the code point in it. return if ! $names_ref->{$base}; # Look through the list of ranges that apply to this name to see if # the code point is in one of them. for (my $i = 0; $i < scalar @{$names_ref->{$base}{'low'}}; $i++) { return if $names_ref->{$base}{'low'}->[$i] > $code_point; next if $names_ref->{$base}{'high'}->[$i] < $code_point; # Here, the code point is in the range. return $code_point; } # Here, looked like the name had a code point number in it, but # did not match one of the valid ones. return; } sub code_point_to_name_special { my $code_point = shift; # Returns the name of a code point if algorithmically determinable; # undef if not # If in the Hangul range, calculate the name based on Unicode's # algorithm if ($code_point >= $SBase && $code_point <= $SBase + $SCount -1) { use integer; my $SIndex = $code_point - $SBase; my $L = $LBase + $SIndex / $NCount; my $V = $VBase + ($SIndex % $NCount) / $TCount; my $T = $TBase + $SIndex % $TCount; $name = "$HANGUL_SYLLABLE$Jamo{$L}$Jamo{$V}"; $name .= $Jamo{$T} if $T != $TBase; return $name; } # Look through list of these code points for one in range. foreach my $hash (@code_points_ending_in_code_point) { return if $code_point < $hash->{'low'}; if ($code_point <= $hash->{'high'}) { return sprintf("%s-%04X", $hash->{'name'}, $code_point); } } return; # None found } } # End closure 1;