package charnames;
use strict;
use warnings;
-use File::Spec;
-our $VERSION = '1.16';
+our $VERSION = '1.43';
+use unicore::Name; # mktables-generated algorithmically-defined names
+use _charnames (); # The submodule for this where most of the work gets done
use bytes (); # for $bytes::hint_bits
+use re "/aa"; # Everything in here should be ASCII
-# The hashes are stored as utf8 strings. This makes it easier to deal with
-# sequences. I (khw) also tried making Name.pl utf8, but it slowed things
-# down by a factor of 7. I then tried making Name.pl store the ut8
-# equivalents but not calling them utf8. That led to similar speed as leaving
-# it alone, but since that is harder for a human to parse, I left it as-is.
-
-my %system_aliases = (
- # Icky 3.2 names with parentheses.
- 'LINE FEED' => pack("U", 0x0A), # LINE FEED (LF)
- 'FORM FEED' => pack("U", 0x0C), # FORM FEED (FF)
- 'CARRIAGE RETURN' => pack("U", 0x0D), # CARRIAGE RETURN (CR)
- 'NEXT LINE' => pack("U", 0x85), # NEXT LINE (NEL)
-
- # Some variant names from Wikipedia
- 'SINGLE-SHIFT 2' => pack("U", 0x8E),
- 'SINGLE-SHIFT 3' => pack("U", 0x8F),
- 'PRIVATE USE 1' => pack("U", 0x91),
- 'PRIVATE USE 2' => pack("U", 0x92),
- 'START OF PROTECTED AREA' => pack("U", 0x96),
- 'END OF PROTECTED AREA' => pack("U", 0x97),
-
- # Convenience. Standard abbreviations for the controls
- 'NUL' => pack("U", 0x00), # NULL
- 'SOH' => pack("U", 0x01), # START OF HEADING
- 'STX' => pack("U", 0x02), # START OF TEXT
- 'ETX' => pack("U", 0x03), # END OF TEXT
- 'EOT' => pack("U", 0x04), # END OF TRANSMISSION
- 'ENQ' => pack("U", 0x05), # ENQUIRY
- 'ACK' => pack("U", 0x06), # ACKNOWLEDGE
- 'BEL' => pack("U", 0x07), # BELL
- 'BS' => pack("U", 0x08), # BACKSPACE
- 'HT' => pack("U", 0x09), # HORIZONTAL TABULATION
- 'LF' => pack("U", 0x0A), # LINE FEED (LF)
- 'VT' => pack("U", 0x0B), # VERTICAL TABULATION
- 'FF' => pack("U", 0x0C), # FORM FEED (FF)
- 'CR' => pack("U", 0x0D), # CARRIAGE RETURN (CR)
- 'SO' => pack("U", 0x0E), # SHIFT OUT
- 'SI' => pack("U", 0x0F), # SHIFT IN
- 'DLE' => pack("U", 0x10), # DATA LINK ESCAPE
- 'DC1' => pack("U", 0x11), # DEVICE CONTROL ONE
- 'DC2' => pack("U", 0x12), # DEVICE CONTROL TWO
- 'DC3' => pack("U", 0x13), # DEVICE CONTROL THREE
- 'DC4' => pack("U", 0x14), # DEVICE CONTROL FOUR
- 'NAK' => pack("U", 0x15), # NEGATIVE ACKNOWLEDGE
- 'SYN' => pack("U", 0x16), # SYNCHRONOUS IDLE
- 'ETB' => pack("U", 0x17), # END OF TRANSMISSION BLOCK
- 'CAN' => pack("U", 0x18), # CANCEL
- 'EOM' => pack("U", 0x19), # END OF MEDIUM
- 'SUB' => pack("U", 0x1A), # SUBSTITUTE
- 'ESC' => pack("U", 0x1B), # ESCAPE
- 'FS' => pack("U", 0x1C), # FILE SEPARATOR
- 'GS' => pack("U", 0x1D), # GROUP SEPARATOR
- 'RS' => pack("U", 0x1E), # RECORD SEPARATOR
- 'US' => pack("U", 0x1F), # UNIT SEPARATOR
- 'DEL' => pack("U", 0x7F), # DELETE
- 'BPH' => pack("U", 0x82), # BREAK PERMITTED HERE
- 'NBH' => pack("U", 0x83), # NO BREAK HERE
- 'NEL' => pack("U", 0x85), # NEXT LINE (NEL)
- 'SSA' => pack("U", 0x86), # START OF SELECTED AREA
- 'ESA' => pack("U", 0x87), # END OF SELECTED AREA
- 'HTS' => pack("U", 0x88), # CHARACTER TABULATION SET
- 'HTJ' => pack("U", 0x89), # CHARACTER TABULATION WITH JUSTIFICATION
- 'VTS' => pack("U", 0x8A), # LINE TABULATION SET
- 'PLD' => pack("U", 0x8B), # PARTIAL LINE FORWARD
- 'PLU' => pack("U", 0x8C), # PARTIAL LINE BACKWARD
- 'RI ' => pack("U", 0x8D), # REVERSE LINE FEED
- 'SS2' => pack("U", 0x8E), # SINGLE SHIFT TWO
- 'SS3' => pack("U", 0x8F), # SINGLE SHIFT THREE
- 'DCS' => pack("U", 0x90), # DEVICE CONTROL STRING
- 'PU1' => pack("U", 0x91), # PRIVATE USE ONE
- 'PU2' => pack("U", 0x92), # PRIVATE USE TWO
- 'STS' => pack("U", 0x93), # SET TRANSMIT STATE
- 'CCH' => pack("U", 0x94), # CANCEL CHARACTER
- 'MW ' => pack("U", 0x95), # MESSAGE WAITING
- 'SPA' => pack("U", 0x96), # START OF GUARDED AREA
- 'EPA' => pack("U", 0x97), # END OF GUARDED AREA
- 'SOS' => pack("U", 0x98), # START OF STRING
- 'SCI' => pack("U", 0x9A), # SINGLE CHARACTER INTRODUCER
- 'CSI' => pack("U", 0x9B), # CONTROL SEQUENCE INTRODUCER
- 'ST ' => pack("U", 0x9C), # STRING TERMINATOR
- 'OSC' => pack("U", 0x9D), # OPERATING SYSTEM COMMAND
- 'PM ' => pack("U", 0x9E), # PRIVACY MESSAGE
- 'APC' => pack("U", 0x9F), # APPLICATION PROGRAM COMMAND
-
- # There are no names for these in the Unicode standard;
- # perhaps should be deprecated, but then again there are
- # no alternative names, so am not deprecating. And if
- # did, the code would have to change to not recommend an
- # alternative for these.
- 'PADDING CHARACTER' => pack("U", 0x80),
- 'PAD' => pack("U", 0x80),
- 'HIGH OCTET PRESET' => pack("U", 0x81),
- 'HOP' => pack("U", 0x81),
- 'INDEX' => pack("U", 0x84),
- 'IND' => pack("U", 0x84),
- 'SINGLE GRAPHIC CHARACTER INTRODUCER' => pack("U", 0x99),
- 'SGC' => pack("U", 0x99),
-
- # More convenience. For further convenience,
- # it is suggested some way of using the NamesList
- # aliases be implemented, but there are ambiguities in
- # NamesList.txt
- 'BOM' => pack("U", 0xFEFF), # BYTE ORDER MARK
- 'BYTE ORDER MARK'=> pack("U", 0xFEFF),
- 'CGJ' => pack("U", 0x034F), # COMBINING GRAPHEME JOINER
- 'FVS1' => pack("U", 0x180B), # MONGOLIAN FREE VARIATION SELECTOR ONE
- 'FVS2' => pack("U", 0x180C), # MONGOLIAN FREE VARIATION SELECTOR TWO
- 'FVS3' => pack("U", 0x180D), # MONGOLIAN FREE VARIATION SELECTOR THREE
- 'LRE' => pack("U", 0x202A), # LEFT-TO-RIGHT EMBEDDING
- 'LRM' => pack("U", 0x200E), # LEFT-TO-RIGHT MARK
- 'LRO' => pack("U", 0x202D), # LEFT-TO-RIGHT OVERRIDE
- 'MMSP' => pack("U", 0x205F), # MEDIUM MATHEMATICAL SPACE
- 'MVS' => pack("U", 0x180E), # MONGOLIAN VOWEL SEPARATOR
- 'NBSP' => pack("U", 0x00A0), # NO-BREAK SPACE
- 'NNBSP' => pack("U", 0x202F), # NARROW NO-BREAK SPACE
- 'PDF' => pack("U", 0x202C), # POP DIRECTIONAL FORMATTING
- 'RLE' => pack("U", 0x202B), # RIGHT-TO-LEFT EMBEDDING
- 'RLM' => pack("U", 0x200F), # RIGHT-TO-LEFT MARK
- 'RLO' => pack("U", 0x202E), # RIGHT-TO-LEFT OVERRIDE
- 'SHY' => pack("U", 0x00AD), # SOFT HYPHEN
- 'VS1' => pack("U", 0xFE00), # VARIATION SELECTOR-1
- 'VS2' => pack("U", 0xFE01), # VARIATION SELECTOR-2
- 'VS3' => pack("U", 0xFE02), # VARIATION SELECTOR-3
- 'VS4' => pack("U", 0xFE03), # VARIATION SELECTOR-4
- 'VS5' => pack("U", 0xFE04), # VARIATION SELECTOR-5
- 'VS6' => pack("U", 0xFE05), # VARIATION SELECTOR-6
- 'VS7' => pack("U", 0xFE06), # VARIATION SELECTOR-7
- 'VS8' => pack("U", 0xFE07), # VARIATION SELECTOR-8
- 'VS9' => pack("U", 0xFE08), # VARIATION SELECTOR-9
- 'VS10' => pack("U", 0xFE09), # VARIATION SELECTOR-10
- 'VS11' => pack("U", 0xFE0A), # VARIATION SELECTOR-11
- 'VS12' => pack("U", 0xFE0B), # VARIATION SELECTOR-12
- 'VS13' => pack("U", 0xFE0C), # VARIATION SELECTOR-13
- 'VS14' => pack("U", 0xFE0D), # VARIATION SELECTOR-14
- 'VS15' => pack("U", 0xFE0E), # VARIATION SELECTOR-15
- 'VS16' => pack("U", 0xFE0F), # VARIATION SELECTOR-16
- 'VS17' => pack("U", 0xE0100), # VARIATION SELECTOR-17
- 'VS18' => pack("U", 0xE0101), # VARIATION SELECTOR-18
- 'VS19' => pack("U", 0xE0102), # VARIATION SELECTOR-19
- 'VS20' => pack("U", 0xE0103), # VARIATION SELECTOR-20
- 'VS21' => pack("U", 0xE0104), # VARIATION SELECTOR-21
- 'VS22' => pack("U", 0xE0105), # VARIATION SELECTOR-22
- 'VS23' => pack("U", 0xE0106), # VARIATION SELECTOR-23
- 'VS24' => pack("U", 0xE0107), # VARIATION SELECTOR-24
- 'VS25' => pack("U", 0xE0108), # VARIATION SELECTOR-25
- 'VS26' => pack("U", 0xE0109), # VARIATION SELECTOR-26
- 'VS27' => pack("U", 0xE010A), # VARIATION SELECTOR-27
- 'VS28' => pack("U", 0xE010B), # VARIATION SELECTOR-28
- 'VS29' => pack("U", 0xE010C), # VARIATION SELECTOR-29
- 'VS30' => pack("U", 0xE010D), # VARIATION SELECTOR-30
- 'VS31' => pack("U", 0xE010E), # VARIATION SELECTOR-31
- 'VS32' => pack("U", 0xE010F), # VARIATION SELECTOR-32
- 'VS33' => pack("U", 0xE0110), # VARIATION SELECTOR-33
- 'VS34' => pack("U", 0xE0111), # VARIATION SELECTOR-34
- 'VS35' => pack("U", 0xE0112), # VARIATION SELECTOR-35
- 'VS36' => pack("U", 0xE0113), # VARIATION SELECTOR-36
- 'VS37' => pack("U", 0xE0114), # VARIATION SELECTOR-37
- 'VS38' => pack("U", 0xE0115), # VARIATION SELECTOR-38
- 'VS39' => pack("U", 0xE0116), # VARIATION SELECTOR-39
- 'VS40' => pack("U", 0xE0117), # VARIATION SELECTOR-40
- 'VS41' => pack("U", 0xE0118), # VARIATION SELECTOR-41
- 'VS42' => pack("U", 0xE0119), # VARIATION SELECTOR-42
- 'VS43' => pack("U", 0xE011A), # VARIATION SELECTOR-43
- 'VS44' => pack("U", 0xE011B), # VARIATION SELECTOR-44
- 'VS45' => pack("U", 0xE011C), # VARIATION SELECTOR-45
- 'VS46' => pack("U", 0xE011D), # VARIATION SELECTOR-46
- 'VS47' => pack("U", 0xE011E), # VARIATION SELECTOR-47
- 'VS48' => pack("U", 0xE011F), # VARIATION SELECTOR-48
- 'VS49' => pack("U", 0xE0120), # VARIATION SELECTOR-49
- 'VS50' => pack("U", 0xE0121), # VARIATION SELECTOR-50
- 'VS51' => pack("U", 0xE0122), # VARIATION SELECTOR-51
- 'VS52' => pack("U", 0xE0123), # VARIATION SELECTOR-52
- 'VS53' => pack("U", 0xE0124), # VARIATION SELECTOR-53
- 'VS54' => pack("U", 0xE0125), # VARIATION SELECTOR-54
- 'VS55' => pack("U", 0xE0126), # VARIATION SELECTOR-55
- 'VS56' => pack("U", 0xE0127), # VARIATION SELECTOR-56
- 'VS57' => pack("U", 0xE0128), # VARIATION SELECTOR-57
- 'VS58' => pack("U", 0xE0129), # VARIATION SELECTOR-58
- 'VS59' => pack("U", 0xE012A), # VARIATION SELECTOR-59
- 'VS60' => pack("U", 0xE012B), # VARIATION SELECTOR-60
- 'VS61' => pack("U", 0xE012C), # VARIATION SELECTOR-61
- 'VS62' => pack("U", 0xE012D), # VARIATION SELECTOR-62
- 'VS63' => pack("U", 0xE012E), # VARIATION SELECTOR-63
- 'VS64' => pack("U", 0xE012F), # VARIATION SELECTOR-64
- 'VS65' => pack("U", 0xE0130), # VARIATION SELECTOR-65
- 'VS66' => pack("U", 0xE0131), # VARIATION SELECTOR-66
- 'VS67' => pack("U", 0xE0132), # VARIATION SELECTOR-67
- 'VS68' => pack("U", 0xE0133), # VARIATION SELECTOR-68
- 'VS69' => pack("U", 0xE0134), # VARIATION SELECTOR-69
- 'VS70' => pack("U", 0xE0135), # VARIATION SELECTOR-70
- 'VS71' => pack("U", 0xE0136), # VARIATION SELECTOR-71
- 'VS72' => pack("U", 0xE0137), # VARIATION SELECTOR-72
- 'VS73' => pack("U", 0xE0138), # VARIATION SELECTOR-73
- 'VS74' => pack("U", 0xE0139), # VARIATION SELECTOR-74
- 'VS75' => pack("U", 0xE013A), # VARIATION SELECTOR-75
- 'VS76' => pack("U", 0xE013B), # VARIATION SELECTOR-76
- 'VS77' => pack("U", 0xE013C), # VARIATION SELECTOR-77
- 'VS78' => pack("U", 0xE013D), # VARIATION SELECTOR-78
- 'VS79' => pack("U", 0xE013E), # VARIATION SELECTOR-79
- 'VS80' => pack("U", 0xE013F), # VARIATION SELECTOR-80
- 'VS81' => pack("U", 0xE0140), # VARIATION SELECTOR-81
- 'VS82' => pack("U", 0xE0141), # VARIATION SELECTOR-82
- 'VS83' => pack("U", 0xE0142), # VARIATION SELECTOR-83
- 'VS84' => pack("U", 0xE0143), # VARIATION SELECTOR-84
- 'VS85' => pack("U", 0xE0144), # VARIATION SELECTOR-85
- 'VS86' => pack("U", 0xE0145), # VARIATION SELECTOR-86
- 'VS87' => pack("U", 0xE0146), # VARIATION SELECTOR-87
- 'VS88' => pack("U", 0xE0147), # VARIATION SELECTOR-88
- 'VS89' => pack("U", 0xE0148), # VARIATION SELECTOR-89
- 'VS90' => pack("U", 0xE0149), # VARIATION SELECTOR-90
- 'VS91' => pack("U", 0xE014A), # VARIATION SELECTOR-91
- 'VS92' => pack("U", 0xE014B), # VARIATION SELECTOR-92
- 'VS93' => pack("U", 0xE014C), # VARIATION SELECTOR-93
- 'VS94' => pack("U", 0xE014D), # VARIATION SELECTOR-94
- 'VS95' => pack("U", 0xE014E), # VARIATION SELECTOR-95
- 'VS96' => pack("U", 0xE014F), # VARIATION SELECTOR-96
- 'VS97' => pack("U", 0xE0150), # VARIATION SELECTOR-97
- 'VS98' => pack("U", 0xE0151), # VARIATION SELECTOR-98
- 'VS99' => pack("U", 0xE0152), # VARIATION SELECTOR-99
- 'VS100' => pack("U", 0xE0153), # VARIATION SELECTOR-100
- 'VS101' => pack("U", 0xE0154), # VARIATION SELECTOR-101
- 'VS102' => pack("U", 0xE0155), # VARIATION SELECTOR-102
- 'VS103' => pack("U", 0xE0156), # VARIATION SELECTOR-103
- 'VS104' => pack("U", 0xE0157), # VARIATION SELECTOR-104
- 'VS105' => pack("U", 0xE0158), # VARIATION SELECTOR-105
- 'VS106' => pack("U", 0xE0159), # VARIATION SELECTOR-106
- 'VS107' => pack("U", 0xE015A), # VARIATION SELECTOR-107
- 'VS108' => pack("U", 0xE015B), # VARIATION SELECTOR-108
- 'VS109' => pack("U", 0xE015C), # VARIATION SELECTOR-109
- 'VS110' => pack("U", 0xE015D), # VARIATION SELECTOR-110
- 'VS111' => pack("U", 0xE015E), # VARIATION SELECTOR-111
- 'VS112' => pack("U", 0xE015F), # VARIATION SELECTOR-112
- 'VS113' => pack("U", 0xE0160), # VARIATION SELECTOR-113
- 'VS114' => pack("U", 0xE0161), # VARIATION SELECTOR-114
- 'VS115' => pack("U", 0xE0162), # VARIATION SELECTOR-115
- 'VS116' => pack("U", 0xE0163), # VARIATION SELECTOR-116
- 'VS117' => pack("U", 0xE0164), # VARIATION SELECTOR-117
- 'VS118' => pack("U", 0xE0165), # VARIATION SELECTOR-118
- 'VS119' => pack("U", 0xE0166), # VARIATION SELECTOR-119
- 'VS120' => pack("U", 0xE0167), # VARIATION SELECTOR-120
- 'VS121' => pack("U", 0xE0168), # VARIATION SELECTOR-121
- 'VS122' => pack("U", 0xE0169), # VARIATION SELECTOR-122
- 'VS123' => pack("U", 0xE016A), # VARIATION SELECTOR-123
- 'VS124' => pack("U", 0xE016B), # VARIATION SELECTOR-124
- 'VS125' => pack("U", 0xE016C), # VARIATION SELECTOR-125
- 'VS126' => pack("U", 0xE016D), # VARIATION SELECTOR-126
- 'VS127' => pack("U", 0xE016E), # VARIATION SELECTOR-127
- 'VS128' => pack("U", 0xE016F), # VARIATION SELECTOR-128
- 'VS129' => pack("U", 0xE0170), # VARIATION SELECTOR-129
- 'VS130' => pack("U", 0xE0171), # VARIATION SELECTOR-130
- 'VS131' => pack("U", 0xE0172), # VARIATION SELECTOR-131
- 'VS132' => pack("U", 0xE0173), # VARIATION SELECTOR-132
- 'VS133' => pack("U", 0xE0174), # VARIATION SELECTOR-133
- 'VS134' => pack("U", 0xE0175), # VARIATION SELECTOR-134
- 'VS135' => pack("U", 0xE0176), # VARIATION SELECTOR-135
- 'VS136' => pack("U", 0xE0177), # VARIATION SELECTOR-136
- 'VS137' => pack("U", 0xE0178), # VARIATION SELECTOR-137
- 'VS138' => pack("U", 0xE0179), # VARIATION SELECTOR-138
- 'VS139' => pack("U", 0xE017A), # VARIATION SELECTOR-139
- 'VS140' => pack("U", 0xE017B), # VARIATION SELECTOR-140
- 'VS141' => pack("U", 0xE017C), # VARIATION SELECTOR-141
- 'VS142' => pack("U", 0xE017D), # VARIATION SELECTOR-142
- 'VS143' => pack("U", 0xE017E), # VARIATION SELECTOR-143
- 'VS144' => pack("U", 0xE017F), # VARIATION SELECTOR-144
- 'VS145' => pack("U", 0xE0180), # VARIATION SELECTOR-145
- 'VS146' => pack("U", 0xE0181), # VARIATION SELECTOR-146
- 'VS147' => pack("U", 0xE0182), # VARIATION SELECTOR-147
- 'VS148' => pack("U", 0xE0183), # VARIATION SELECTOR-148
- 'VS149' => pack("U", 0xE0184), # VARIATION SELECTOR-149
- 'VS150' => pack("U", 0xE0185), # VARIATION SELECTOR-150
- 'VS151' => pack("U", 0xE0186), # VARIATION SELECTOR-151
- 'VS152' => pack("U", 0xE0187), # VARIATION SELECTOR-152
- 'VS153' => pack("U", 0xE0188), # VARIATION SELECTOR-153
- 'VS154' => pack("U", 0xE0189), # VARIATION SELECTOR-154
- 'VS155' => pack("U", 0xE018A), # VARIATION SELECTOR-155
- 'VS156' => pack("U", 0xE018B), # VARIATION SELECTOR-156
- 'VS157' => pack("U", 0xE018C), # VARIATION SELECTOR-157
- 'VS158' => pack("U", 0xE018D), # VARIATION SELECTOR-158
- 'VS159' => pack("U", 0xE018E), # VARIATION SELECTOR-159
- 'VS160' => pack("U", 0xE018F), # VARIATION SELECTOR-160
- 'VS161' => pack("U", 0xE0190), # VARIATION SELECTOR-161
- 'VS162' => pack("U", 0xE0191), # VARIATION SELECTOR-162
- 'VS163' => pack("U", 0xE0192), # VARIATION SELECTOR-163
- 'VS164' => pack("U", 0xE0193), # VARIATION SELECTOR-164
- 'VS165' => pack("U", 0xE0194), # VARIATION SELECTOR-165
- 'VS166' => pack("U", 0xE0195), # VARIATION SELECTOR-166
- 'VS167' => pack("U", 0xE0196), # VARIATION SELECTOR-167
- 'VS168' => pack("U", 0xE0197), # VARIATION SELECTOR-168
- 'VS169' => pack("U", 0xE0198), # VARIATION SELECTOR-169
- 'VS170' => pack("U", 0xE0199), # VARIATION SELECTOR-170
- 'VS171' => pack("U", 0xE019A), # VARIATION SELECTOR-171
- 'VS172' => pack("U", 0xE019B), # VARIATION SELECTOR-172
- 'VS173' => pack("U", 0xE019C), # VARIATION SELECTOR-173
- 'VS174' => pack("U", 0xE019D), # VARIATION SELECTOR-174
- 'VS175' => pack("U", 0xE019E), # VARIATION SELECTOR-175
- 'VS176' => pack("U", 0xE019F), # VARIATION SELECTOR-176
- 'VS177' => pack("U", 0xE01A0), # VARIATION SELECTOR-177
- 'VS178' => pack("U", 0xE01A1), # VARIATION SELECTOR-178
- 'VS179' => pack("U", 0xE01A2), # VARIATION SELECTOR-179
- 'VS180' => pack("U", 0xE01A3), # VARIATION SELECTOR-180
- 'VS181' => pack("U", 0xE01A4), # VARIATION SELECTOR-181
- 'VS182' => pack("U", 0xE01A5), # VARIATION SELECTOR-182
- 'VS183' => pack("U", 0xE01A6), # VARIATION SELECTOR-183
- 'VS184' => pack("U", 0xE01A7), # VARIATION SELECTOR-184
- 'VS185' => pack("U", 0xE01A8), # VARIATION SELECTOR-185
- 'VS186' => pack("U", 0xE01A9), # VARIATION SELECTOR-186
- 'VS187' => pack("U", 0xE01AA), # VARIATION SELECTOR-187
- 'VS188' => pack("U", 0xE01AB), # VARIATION SELECTOR-188
- 'VS189' => pack("U", 0xE01AC), # VARIATION SELECTOR-189
- 'VS190' => pack("U", 0xE01AD), # VARIATION SELECTOR-190
- 'VS191' => pack("U", 0xE01AE), # VARIATION SELECTOR-191
- 'VS192' => pack("U", 0xE01AF), # VARIATION SELECTOR-192
- 'VS193' => pack("U", 0xE01B0), # VARIATION SELECTOR-193
- 'VS194' => pack("U", 0xE01B1), # VARIATION SELECTOR-194
- 'VS195' => pack("U", 0xE01B2), # VARIATION SELECTOR-195
- 'VS196' => pack("U", 0xE01B3), # VARIATION SELECTOR-196
- 'VS197' => pack("U", 0xE01B4), # VARIATION SELECTOR-197
- 'VS198' => pack("U", 0xE01B5), # VARIATION SELECTOR-198
- 'VS199' => pack("U", 0xE01B6), # VARIATION SELECTOR-199
- 'VS200' => pack("U", 0xE01B7), # VARIATION SELECTOR-200
- 'VS201' => pack("U", 0xE01B8), # VARIATION SELECTOR-201
- 'VS202' => pack("U", 0xE01B9), # VARIATION SELECTOR-202
- 'VS203' => pack("U", 0xE01BA), # VARIATION SELECTOR-203
- 'VS204' => pack("U", 0xE01BB), # VARIATION SELECTOR-204
- 'VS205' => pack("U", 0xE01BC), # VARIATION SELECTOR-205
- 'VS206' => pack("U", 0xE01BD), # VARIATION SELECTOR-206
- 'VS207' => pack("U", 0xE01BE), # VARIATION SELECTOR-207
- 'VS208' => pack("U", 0xE01BF), # VARIATION SELECTOR-208
- 'VS209' => pack("U", 0xE01C0), # VARIATION SELECTOR-209
- 'VS210' => pack("U", 0xE01C1), # VARIATION SELECTOR-210
- 'VS211' => pack("U", 0xE01C2), # VARIATION SELECTOR-211
- 'VS212' => pack("U", 0xE01C3), # VARIATION SELECTOR-212
- 'VS213' => pack("U", 0xE01C4), # VARIATION SELECTOR-213
- 'VS214' => pack("U", 0xE01C5), # VARIATION SELECTOR-214
- 'VS215' => pack("U", 0xE01C6), # VARIATION SELECTOR-215
- 'VS216' => pack("U", 0xE01C7), # VARIATION SELECTOR-216
- 'VS217' => pack("U", 0xE01C8), # VARIATION SELECTOR-217
- 'VS218' => pack("U", 0xE01C9), # VARIATION SELECTOR-218
- 'VS219' => pack("U", 0xE01CA), # VARIATION SELECTOR-219
- 'VS220' => pack("U", 0xE01CB), # VARIATION SELECTOR-220
- 'VS221' => pack("U", 0xE01CC), # VARIATION SELECTOR-221
- 'VS222' => pack("U", 0xE01CD), # VARIATION SELECTOR-222
- 'VS223' => pack("U", 0xE01CE), # VARIATION SELECTOR-223
- 'VS224' => pack("U", 0xE01CF), # VARIATION SELECTOR-224
- 'VS225' => pack("U", 0xE01D0), # VARIATION SELECTOR-225
- 'VS226' => pack("U", 0xE01D1), # VARIATION SELECTOR-226
- 'VS227' => pack("U", 0xE01D2), # VARIATION SELECTOR-227
- 'VS228' => pack("U", 0xE01D3), # VARIATION SELECTOR-228
- 'VS229' => pack("U", 0xE01D4), # VARIATION SELECTOR-229
- 'VS230' => pack("U", 0xE01D5), # VARIATION SELECTOR-230
- 'VS231' => pack("U", 0xE01D6), # VARIATION SELECTOR-231
- 'VS232' => pack("U", 0xE01D7), # VARIATION SELECTOR-232
- 'VS233' => pack("U", 0xE01D8), # VARIATION SELECTOR-233
- 'VS234' => pack("U", 0xE01D9), # VARIATION SELECTOR-234
- 'VS235' => pack("U", 0xE01DA), # VARIATION SELECTOR-235
- 'VS236' => pack("U", 0xE01DB), # VARIATION SELECTOR-236
- 'VS237' => pack("U", 0xE01DC), # VARIATION SELECTOR-237
- 'VS238' => pack("U", 0xE01DD), # VARIATION SELECTOR-238
- 'VS239' => pack("U", 0xE01DE), # VARIATION SELECTOR-239
- 'VS240' => pack("U", 0xE01DF), # VARIATION SELECTOR-240
- 'VS241' => pack("U", 0xE01E0), # VARIATION SELECTOR-241
- 'VS242' => pack("U", 0xE01E1), # VARIATION SELECTOR-242
- 'VS243' => pack("U", 0xE01E2), # VARIATION SELECTOR-243
- 'VS244' => pack("U", 0xE01E3), # VARIATION SELECTOR-244
- 'VS245' => pack("U", 0xE01E4), # VARIATION SELECTOR-245
- 'VS246' => pack("U", 0xE01E5), # VARIATION SELECTOR-246
- 'VS247' => pack("U", 0xE01E6), # VARIATION SELECTOR-247
- 'VS248' => pack("U", 0xE01E7), # VARIATION SELECTOR-248
- 'VS249' => pack("U", 0xE01E8), # VARIATION SELECTOR-249
- 'VS250' => pack("U", 0xE01E9), # VARIATION SELECTOR-250
- 'VS251' => pack("U", 0xE01EA), # VARIATION SELECTOR-251
- 'VS252' => pack("U", 0xE01EB), # VARIATION SELECTOR-252
- 'VS253' => pack("U", 0xE01EC), # VARIATION SELECTOR-253
- 'VS254' => pack("U", 0xE01ED), # VARIATION SELECTOR-254
- 'VS255' => pack("U", 0xE01EE), # VARIATION SELECTOR-255
- 'VS256' => pack("U", 0xE01EF), # VARIATION SELECTOR-256
- 'WJ' => pack("U", 0x2060), # WORD JOINER
- 'ZWJ' => pack("U", 0x200D), # ZERO WIDTH JOINER
- 'ZWNJ' => pack("U", 0x200C), # ZERO WIDTH NON-JOINER
- 'ZWSP' => pack("U", 0x200B), # ZERO WIDTH SPACE
- );
-
-my %deprecated_aliases = (
- # Pre-3.2 compatibility (only for the first 256 characters).
- # Use of these gives deprecated message.
- 'HORIZONTAL TABULATION' => pack("U", 0x09), # CHARACTER TABULATION
- 'VERTICAL TABULATION' => pack("U", 0x0B), # LINE TABULATION
- 'FILE SEPARATOR' => pack("U", 0x1C), # INFORMATION SEPARATOR FOUR
- 'GROUP SEPARATOR' => pack("U", 0x1D), # INFORMATION SEPARATOR THREE
- 'RECORD SEPARATOR' => pack("U", 0x1E), # INFORMATION SEPARATOR TWO
- 'UNIT SEPARATOR' => pack("U", 0x1F), # INFORMATION SEPARATOR ONE
- 'HORIZONTAL TABULATION SET' => pack("U", 0x88), # CHARACTER TABULATION SET
- 'HORIZONTAL TABULATION WITH JUSTIFICATION' => pack("U", 0x89), # CHARACTER TABULATION WITH JUSTIFICATION
- 'PARTIAL LINE DOWN' => pack("U", 0x8B), # PARTIAL LINE FORWARD
- 'PARTIAL LINE UP' => pack("U", 0x8C), # PARTIAL LINE BACKWARD
- 'VERTICAL TABULATION SET' => pack("U", 0x8A), # LINE TABULATION SET
- 'REVERSE INDEX' => pack("U", 0x8D), # REVERSE LINE FEED
- );
-
-
-my $txt; # The table of official character names
-
-my %full_names_cache; # Holds already-looked-up names, so don't have to
-# re-look them up again. The previous versions of charnames had scoping
-# bugs. For example if we use script A in one scope and find and cache
-# what Z resolves to, we can't use that cache in a different scope that
-# uses script B instead of A, as Z might be an entirely different letter
-# there; or there might be different aliases in effect in different
-# scopes, or :short may be in effect or not effect in different scopes,
-# or various combinations thereof. This was solved in this version
-# mostly by moving things to %^H. But some things couldn't be moved
-# there. One of them was the cache of runtime looked-up names, in part
-# because %^H is read-only at runtime. I (khw) don't know why the cache
-# was run-time only in the previous versions: perhaps oversight; perhaps
-# that compile time looking doesn't happen in a loop so didn't think it
-# was worthwhile; perhaps not wanting to make the cache too large. But
-# I decided to make it compile time as well; this could easily be
-# changed.
-# Anyway, this hash is not scoped, and is added to at runtime. It
-# doesn't have scoping problems because the data in it is restricted to
-# official names, which are always invariant, and we only set it and
-# look at it at during :full lookups, so is unaffected by any other
-# scoped options. I put this in to maintain parity with the older
-# version. If desired, a %short_names cache could also be made, as well
-# as one for each script, say in %script_names_cache, with each key
-# being a hash for a script named in a 'use charnames' statement. I
-# decided not to do that for now, just because it's added complication,
-# and because I'm just trying to maintain parity, not extend it.
-
-# Designed so that test decimal first, and then hex. Leading zeros
-# imply non-decimal, as do non-[0-9]
-my $decimal_qr = qr/^[1-9]\d*$/;
-
-# Returns the hex number in $1.
-my $hex_qr = qr/^(?:[Uu]\+|0[xX])?([[:xdigit:]]+)$/;
-
-sub croak
-{
- require Carp; goto &Carp::croak;
-} # croak
-
-sub carp
-{
- require Carp; goto &Carp::carp;
-} # carp
-
-sub alias (@) # Set up a single alias
-{
- my $alias = ref $_[0] ? $_[0] : { @_ };
- foreach my $name (keys %$alias) {
- my $value = $alias->{$name};
- next unless defined $value; # Omit if screwed up.
-
- # Is slightly slower to just after this statement see if it is
- # decimal, since we already know it is after having converted from
- # hex, but makes the code easier to maintain, and is called
- # infrequently, only at compile-time
- if ($value !~ $decimal_qr && $value =~ $hex_qr) {
- $value = CORE::hex $1;
- }
- if ($value =~ $decimal_qr) {
- no warnings 'utf8'; # Allow even illegal characters
- $^H{charnames_ord_aliases}{$name} = pack("U", $value);
-
- # Use a canonical form.
- $^H{charnames_inverse_ords}{sprintf("%05X", $value)} = $name;
- }
- else {
- # XXX validate syntax when deprecation cycle complete. ie. start
- # with an alpha only, etc.
- $^H{charnames_name_aliases}{$name} = $value;
- }
- }
-} # alias
-
-sub not_legal_use_bytes_msg {
- my ($name, $utf8) = @_;
- my $return;
-
- if (length($utf8) == 1) {
- $return = sprintf("Character 0x%04x with name '%s' is", ord $utf8, $name);
- } else {
- $return = sprintf("String with name '%s' (and ordinals %s) contains character(s)", $name, join(" ", map { sprintf "0x%04X", ord $_ } split(//, $utf8)));
- }
- return $return . " above 0xFF with 'use bytes' in effect";
-}
-
-sub alias_file ($) # Reads a file containing alias definitions
-{
- my ($arg, $file) = @_;
- if (-f $arg && File::Spec->file_name_is_absolute ($arg)) {
- $file = $arg;
- }
- elsif ($arg =~ m/^\w+$/) {
- $file = "unicore/${arg}_alias.pl";
- }
- else {
- croak "Charnames alias files can only have identifier characters";
- }
- if (my @alias = do $file) {
- @alias == 1 && !defined $alias[0] and
- croak "$file cannot be used as alias file for charnames";
- @alias % 2 and
- croak "$file did not return a (valid) list of alias pairs";
- alias (@alias);
- return (1);
- }
- 0;
-} # alias_file
-
-# For use when don't import anything. This structure must be kept in
-# sync with the one that import() fills up.
-my %dummy_H = (
- charnames_stringified_names => "",
- charnames_stringified_ords => "",
- charnames_scripts => "",
- charnames_full => 1,
- charnames_short => 0,
- );
-
-
-sub lookup_name ($$$) {
- my ($name, $wants_ord, $runtime) = @_;
-
- # Lookup the name or sequence $name in the tables. If $wants_ord is false,
- # returns the string equivalent of $name; if true, returns the ordinal value
- # instead, but in this case $name must not be a sequence; otherwise undef is
- # returned and a warning raised. $runtime is 0 if compiletime, otherwise
- # gives the number of stack frames to go back to get the application caller
- # info.
- # If $name is not found, returns undef in runtime with no warning; and in
- # compiletime, the Unicode replacement character, with a warning.
-
- # It looks first in the aliases, then in the large table of official Unicode
- # names.
-
- my $utf8; # The string result
- my $save_input;
-
- if ($runtime) {
-
- my $hints_ref = (caller($runtime))[10];
-
- # If we didn't import anything (which happens with 'use charnames ()',
- # substitute a dummy structure.
- $hints_ref = \%dummy_H if ! defined $hints_ref
- || ! defined $hints_ref->{charnames_full};
-
- # At runtime, but currently not at compile time, $^H gets
- # stringified, so un-stringify back to the original data structures.
- # These get thrown away by perl before the next invocation
- # Also fill in the hash with the non-stringified data.
- # N.B. New fields must be also added to %dummy_H
-
- %{$^H{charnames_name_aliases}} = split ',',
- $hints_ref->{charnames_stringified_names};
- %{$^H{charnames_ord_aliases}} = split ',',
- $hints_ref->{charnames_stringified_ords};
- $^H{charnames_scripts} = $hints_ref->{charnames_scripts};
- $^H{charnames_full} = $hints_ref->{charnames_full};
- $^H{charnames_short} = $hints_ref->{charnames_short};
- }
-
- # User alias should be checked first or else can't override ours, and if we
- # were to add any, could conflict with theirs.
- if (exists $^H{charnames_ord_aliases}{$name}) {
- $utf8 = $^H{charnames_ord_aliases}{$name};
- }
- elsif (exists $^H{charnames_name_aliases}{$name}) {
- $name = $^H{charnames_name_aliases}{$name};
- $save_input = $name; # Cache the result for any error message
- }
- elsif (exists $system_aliases{$name}) {
- $utf8 = $system_aliases{$name};
- }
- elsif (exists $deprecated_aliases{$name}) {
- require warnings;
- warnings::warnif('deprecated', "Unicode character name \"$name\" is deprecated, use \"" . viacode(ord $deprecated_aliases{$name}) . "\" instead");
- $utf8 = $deprecated_aliases{$name};
- }
-
- my @off;
-
- if (! defined $utf8) {
-
- # See if has looked this input up earlier.
- if ($^H{charnames_full} && exists $full_names_cache{$name}) {
- $utf8 = $full_names_cache{$name};
- }
- else {
-
- ## Suck in the code/name list as a big string.
- ## Lines look like:
- ## "00052\tLATIN CAPITAL LETTER R\n"
- # or
- # "0052 0303\tLATIN CAPITAL LETTER R WITH TILDE\n"
- $txt = do "unicore/Name.pl" unless $txt;
-
- ## @off will hold the index into the code/name string of the start and
- ## end of the name as we find it.
-
- ## If :full, look for the name exactly; runtime implies full
- my $found_full_in_table = 0; # Tells us if can cache the result
- if ($^H{charnames_full}) {
-
- # See if the name is one which is algorithmically determinable.
- # The subroutine is included in Name.pl. The table contained in
- # $txt doesn't contain these. Experiments show that checking
- # for these before checking for the regular names has no
- # noticeable impact on performance for the regular names, but
- # the other way around slows down finding these immensely.
- # Algorithmically determinables are not placed in the cache (that
- # $found_full_in_table indicates) because that uses up memory,
- # and finding these again is fast.
- if (defined (my $ord = name_to_code_point_special($name))) {
- $utf8 = pack("U", $ord);
- }
- else {
-
- # Not algorthmically determinable; look up in the table.
- if ($txt =~ /\t\Q$name\E$/m) {
- @off = ($-[0] + 1, $+[0]); # The 1 is for the tab
- $found_full_in_table = 1;
- }
- }
- }
-
- # If we didn't get it above, keep looking
- if (! $found_full_in_table && ! defined $utf8) {
-
- # If :short is allowed, see if input is like "greek:Sigma".
- my $scripts_trie;
- if (($^H{charnames_short})
- && $name =~ /^ \s* (.+?) \s* : \s* (.+?) \s* $ /xs)
- {
- $scripts_trie = "\U\Q$1";
- $name = $2;
- }
- else { # Otherwise look in allowed scripts
- $scripts_trie = $^H{charnames_scripts};
- }
-
- my $case = $name =~ /[[:upper:]]/ ? "CAPITAL" : "SMALL";
- if ($txt !~
- /\t (?: $scripts_trie ) \ (?:$case\ )? LETTER \ \U\Q$name\E $/xm)
- {
- # Here we still don't have it, give up.
- return if $runtime;
-
- # May have zapped input name, get it again.
- $name = (defined $save_input) ? $save_input : $_[0];
- carp "Unknown charname '$name'";
- return ($wants_ord) ? 0xFFFD : pack("U", 0xFFFD);
- }
+# Translate between Unicode character names and their code points.
+# This is a wrapper around the submodule C<_charnames>. This design allows
+# C<_charnames> to be autoloaded to enable use of \N{...}, but requires this
+# module to be explicitly requested for the functions API.
- @off = ($-[0] + 1, $+[0]); # The 1 is for the tab
- }
-
- if (! defined $utf8) {
-
- # Here, we haven't set up the output, but we know where in the string
- # the name starts. The string is set up so that for single characters
- # (and not named sequences), the name is preceeded immediately by a
- # tab and 5 hex digits for its code, with a \n before those. Named
- # sequences won't have the 7th preceeding character be a \n.
- # (Actually, for the very first entry in the table this isn't strictly
- # true: subtracting 7 will yield -1, and the substr below will
- # therefore yield the very last character in the table, which should
- # also be a \n, so the statement works anyway.)
- if (substr($txt, $off[0] - 7, 1) eq "\n") {
- $utf8 = pack("U", CORE::hex substr($txt, $off[0] - 6, 5));
- }
- else {
-
- # Here, is a named sequence. Need to go looking for the beginning,
- # which is just after the \n from the previous entry in the table.
- # The +1 skips past that newline, or, if the rindex() fails, to put
- # us to an offset of zero.
- my $charstart = rindex($txt, "\n", $off[0] - 7) + 1;
- $utf8 = pack("U*", map { CORE::hex }
- split " ", substr($txt, $charstart, $off[0] - $charstart - 1));
- }
- }
-
- # Cache the input so as to not have to search the large table
- # again, but only if it came from the one search that we cache.
- $full_names_cache{$name} = $utf8 if $found_full_in_table;
- }
- }
-
-
- # Here, have the utf8. If the return is to be an ord, must be any single
- # character.
- if ($wants_ord) {
- return ord($utf8) if length $utf8 == 1;
- }
- else {
-
- # Here, wants string output. If utf8 is acceptable, just return what
- # we've got; otherwise attempt to convert it to non-utf8 and return that.
- my $in_bytes = ($runtime)
- ? (caller $runtime)[8] & $bytes::hint_bits
- : $^H & $bytes::hint_bits;
- return $utf8 if (! $in_bytes || utf8::downgrade($utf8, 1)) # The 1 arg
- # means don't die on failure
- }
-
- # Here, there is an error: either there are too many characters, or the
- # result string needs to be non-utf8, and at least one character requires
- # utf8. Prefer any official name over the input one for the error message.
- if (@off) {
- $name = substr($txt, $off[0], $off[1] - $off[0]) if @off;
- }
- else {
- $name = (defined $save_input) ? $save_input : $_[0];
- }
-
- if ($wants_ord) {
- # Only way to get here in this case is if result too long. Message
- # assumes that our only caller that requires single char result is
- # vianame.
- carp "charnames::vianame() doesn't handle named sequences ($name). Use charnames::string_vianame() instead";
- return;
- }
-
- # Only other possible failure here is from use bytes.
- if ($runtime) {
- carp not_legal_use_bytes_msg($name, $utf8);
- return;
- } else {
- croak not_legal_use_bytes_msg($name, $utf8);
- }
-
-} # lookup_name
-
-sub charnames {
-
- # For \N{...}. Looks up the character name and returns the string
- # representation of it.
-
- # The first 0 arg means wants a string returned; the second that we are in
- # compile time
- return lookup_name($_[0], 0, 0);
-}
+$Carp::Internal{ (__PACKAGE__) } = 1;
sub import
{
shift; ## ignore class name
-
- if (not @_) {
- carp("`use charnames' needs explicit imports list");
- }
- $^H{charnames} = \&charnames ;
- $^H{charnames_ord_aliases} = {};
- $^H{charnames_name_aliases} = {};
- $^H{charnames_inverse_ords} = {};
- # New fields must be added to %dummy_H, and the code in lookup_name()
- # that copies fields from the runtime structure
-
- ##
- ## fill %h keys with our @_ args.
- ##
- my ($promote, %h, @args) = (0);
- while (my $arg = shift) {
- if ($arg eq ":alias") {
- @_ or
- croak ":alias needs an argument in charnames";
- my $alias = shift;
- if (ref $alias) {
- ref $alias eq "HASH" or
- croak "Only HASH reference supported as argument to :alias";
- alias ($alias);
- next;
- }
- if ($alias =~ m{:(\w+)$}) {
- $1 eq "full" || $1 eq "short" and
- croak ":alias cannot use existing pragma :$1 (reversed order?)";
- alias_file ($1) and $promote = 1;
- next;
- }
- alias_file ($alias);
- next;
- }
- if (substr($arg, 0, 1) eq ':' and ! ($arg eq ":full" || $arg eq ":short")) {
- warn "unsupported special '$arg' in charnames";
- next;
- }
- push @args, $arg;
- }
- @args == 0 && $promote and @args = (":full");
- @h{@args} = (1) x @args;
-
- $^H{charnames_full} = delete $h{':full'} || 0; # Don't leave undefined,
- # as tested for in
- # lookup_names
- $^H{charnames_short} = delete $h{':short'} || 0;
- my @scripts = map uc, keys %h;
-
- ##
- ## If utf8? warnings are enabled, and some scripts were given,
- ## see if at least we can find one letter from each script.
- ##
- if (warnings::enabled('utf8') && @scripts) {
- $txt = do "unicore/Name.pl" unless $txt;
-
- for my $script (@scripts) {
- if (not $txt =~ m/\t$script (?:CAPITAL |SMALL )?LETTER /) {
- warnings::warn('utf8', "No such script: '$script'");
- $script = quotemeta $script; # Escape it, for use in the re.
- }
- }
- }
-
- # %^H gets stringified, so serialize it ourselves so can extract the
- # real data back later.
- $^H{charnames_stringified_ords} = join ",", %{$^H{charnames_ord_aliases}};
- $^H{charnames_stringified_names} = join ",", %{$^H{charnames_name_aliases}};
- $^H{charnames_stringified_inverse_ords} = join ",", %{$^H{charnames_inverse_ords}};
- $^H{charnames_scripts} = join "|", @scripts; # Stringifiy them as a trie
-} # import
+ _charnames->import(@_);
+}
# Cache of already looked-up values. This is set to only contain
# official values, and user aliases can't override them, so scoping is
my %viacode;
sub viacode {
-
- # Returns the name of the code point argument
-
- if (@_ != 1) {
- carp "charnames::viacode() expects one argument";
- return;
- }
-
- my $arg = shift;
-
- # This is derived from Unicode::UCD, where it is nearly the same as the
- # function _getcode(), but here it makes sure that even a hex argument
- # has the proper number of leading zeros, which is critical in
- # matching against $txt below
- # Must check if decimal first; see comments at that definition
- my $hex;
- if ($arg =~ $decimal_qr) {
- $hex = sprintf "%05X", $arg;
- } elsif ($arg =~ $hex_qr) {
- # Below is the line that differs from the _getcode() source
- $hex = sprintf "%05X", hex $1;
- } else {
- carp("unexpected arg \"$arg\" to charnames::viacode()");
- return;
- }
-
- return $viacode{$hex} if exists $viacode{$hex};
-
- # If the code point is above the max in the table, there's no point
- # looking through it. Checking the length first is slightly faster
- if (length($hex) <= 5 || CORE::hex($hex) <= 0x10FFFF) {
- $txt = do "unicore/Name.pl" unless $txt;
-
- # See if the name is algorithmically determinable.
- my $algorithmic = code_point_to_name_special(CORE::hex $hex);
- if (defined $algorithmic) {
- $viacode{$hex} = $algorithmic;
- return $algorithmic;
- }
-
- # Return the official name, if exists. It's unclear to me (khw) at
- # this juncture if it is better to return a user-defined override, so
- # leaving it as is for now.
- if ($txt =~ m/^$hex\t/m) {
-
- # The name starts with the next character and goes up to the
- # next new-line. Using capturing parentheses above instead of
- # @+ more than doubles the execution time in Perl 5.13
- $viacode{$hex} = substr($txt, $+[0], index($txt, "\n", $+[0]) - $+[0]);
- return $viacode{$hex};
- }
- }
-
- # See if there is a user name for it, before giving up completely.
- # First get the scoped aliases, give up if have none.
- my $H_ref = (caller(0))[10];
- return if ! defined $H_ref
- || ! exists $H_ref->{charnames_stringified_inverse_ords};
-
- my %code_point_aliases = split ',',
- $H_ref->{charnames_stringified_inverse_ords};
- if (! exists $code_point_aliases{$hex}) {
- if (CORE::hex($hex) > 0x10FFFF) {
- carp "Unicode characters only allocated up to U+10FFFF (you asked for U+$hex)";
- }
- return;
- }
-
- return $code_point_aliases{$hex};
-} # viacode
+ return _charnames::viacode(@_);
+}
sub vianame
{
if (@_ != 1) {
- carp "charnames::vianame() expects one name argument";
+ _charnames::carp "charnames::vianame() expects one name argument";
return ()
}
# can't change it because of backward compatibility. New code can use
# string_vianame() instead.
my $ord = CORE::hex $1;
- return chr $ord if $ord <= 255 || ! ((caller 0)[8] & $bytes::hint_bits);
- carp not_legal_use_bytes_msg($arg, chr $ord);
+ return pack("U", $ord) if $ord <= 255 || ! ((caller 0)[8] & $bytes::hint_bits);
+ _charnames::carp _charnames::not_legal_use_bytes_msg($arg, chr $ord);
return;
}
# The first 1 arg means wants an ord returned; the second that we are in
# runtime, and this is the first level routine called from the user
- return lookup_name($arg, 1, 1);
+ return _charnames::lookup_name($arg, 1, 1);
} # vianame
sub string_vianame {
# found, undef otherwise.
if (@_ != 1) {
- carp "charnames::string_vianame() expects one name argument";
+ _charnames::carp "charnames::string_vianame() expects one name argument";
return;
}
if ($arg =~ /^U\+([0-9a-fA-F]+)$/) {
my $ord = CORE::hex $1;
- return chr $ord if $ord <= 255 || ! ((caller 0)[8] & $bytes::hint_bits);
+ return pack("U", $ord) if $ord <= 255 || ! ((caller 0)[8] & $bytes::hint_bits);
- carp not_legal_use_bytes_msg($arg, chr $ord);
+ _charnames::carp _charnames::not_legal_use_bytes_msg($arg, chr $ord);
return;
}
# The 0 arg means wants a string returned; the 1 arg means that we are in
# runtime, and this is the first level routine called from the user
- return lookup_name($arg, 0, 1);
+ return _charnames::lookup_name($arg, 0, 1);
} # string_vianame
-
-
1;
__END__
+=encoding utf8
+
=head1 NAME
charnames - access to Unicode character names and named character sequences; also define character names
=head1 SYNOPSIS
- use charnames ':full';
- print "\N{GREEK SMALL LETTER SIGMA} is called sigma.\n";
- print "\N{LATIN CAPITAL LETTER E WITH VERTICAL LINE BELOW}",
- " is an officially named sequence of two Unicode characters\n";
-
- use charnames ':short';
- print "\N{greek:Sigma} is an upper-case sigma.\n";
-
- use charnames qw(cyrillic greek);
- print "\N{sigma} is Greek sigma, and \N{be} is Cyrillic b.\n";
-
- use charnames ":full", ":alias" => {
- e_ACUTE => "LATIN SMALL LETTER E WITH ACUTE",
- mychar => 0xE8000, # Private use area
- };
- print "\N{e_ACUTE} is a small letter e with an acute.\n";
- print "\\N{mychar} allows me to name private use characters.\n";
-
- use charnames ();
- print charnames::viacode(0x1234); # prints "ETHIOPIC SYLLABLE SEE"
- printf "%04X", charnames::vianame("GOTHIC LETTER AHSA"); # prints
- # "10330"
- print charnames::vianame("LATIN CAPITAL LETTER A"); # prints 65 on
- # ASCII platforms;
- # 193 on EBCDIC
- print charnames::string_vianame("LATIN CAPITAL LETTER A"); # prints "A"
+ use charnames ':full';
+ print "\N{GREEK SMALL LETTER SIGMA} is called sigma.\n";
+ print "\N{LATIN CAPITAL LETTER E WITH VERTICAL LINE BELOW}",
+ " is an officially named sequence of two Unicode characters\n";
+
+ use charnames ':loose';
+ print "\N{Greek small-letter sigma}",
+ "can be used to ignore case, underscores, most blanks,"
+ "and when you aren't sure if the official name has hyphens\n";
+
+ use charnames ':short';
+ print "\N{greek:Sigma} is an upper-case sigma.\n";
+
+ use charnames qw(cyrillic greek);
+ print "\N{sigma} is Greek sigma, and \N{be} is Cyrillic b.\n";
+
+ use utf8;
+ use charnames ":full", ":alias" => {
+ e_ACUTE => "LATIN SMALL LETTER E WITH ACUTE",
+ mychar => 0xE8000, # Private use area
+ "自転車に乗る人" => "BICYCLIST"
+ };
+ print "\N{e_ACUTE} is a small letter e with an acute.\n";
+ print "\N{mychar} allows me to name private use characters.\n";
+ print "And I can create synonyms in other languages,",
+ " such as \N{自転車に乗る人} for "BICYCLIST (U+1F6B4)\n";
+
+ use charnames ();
+ print charnames::viacode(0x1234); # prints "ETHIOPIC SYLLABLE SEE"
+ printf "%04X", charnames::vianame("GOTHIC LETTER AHSA"); # prints
+ # "10330"
+ print charnames::vianame("LATIN CAPITAL LETTER A"); # prints 65 on
+ # ASCII platforms;
+ # 193 on EBCDIC
+ print charnames::string_vianame("LATIN CAPITAL LETTER A"); # prints "A"
=head1 DESCRIPTION
=back
-All forms other than C<S<"use charnames ();">> also enable the use of
-C<\N{I<CHARNAME>}> sequences to compile a Unicode character into a
-string, based on its name.
+Starting in Perl v5.16, any occurrence of C<\N{I<CHARNAME>}> sequences
+in a double-quotish string automatically loads this module with arguments
+C<:full> and C<:short> (described below) if it hasn't already been loaded with
+different arguments, in order to compile the named Unicode character into
+position in the string. Prior to v5.16, an explicit S<C<use charnames>> was
+required to enable this usage. (However, prior to v5.16, the form C<S<"use
+charnames ();">> did not enable C<\N{I<CHARNAME>}>.)
Note that C<\N{U+I<...>}>, where the I<...> is a hexadecimal number,
-also inserts a character into a string, but doesn't require the use of
-this pragma. The character it inserts is the one whose code point
+also inserts a character into a string.
+The character it inserts is the one whose Unicode code point
(ordinal value) is equal to the number. For example, C<"\N{U+263a}"> is
-the Unicode (white background, black foreground) smiley face; it doesn't
-require this pragma, whereas the equivalent, C<"\N{WHITE SMILING FACE}">
-does.
-Also, C<\N{I<...>}> can mean a regex quantifier instead of a character
+the Unicode (white background, black foreground) smiley face
+equivalent to C<"\N{WHITE SMILING FACE}">.
+Also note, C<\N{I<...>}> can mean a regex quantifier instead of a character
name, when the I<...> is a number (or comma separated pair of numbers
(see L<perlreref/QUANTIFIERS>), and is not related to this pragma.
-The C<charnames> pragma supports arguments C<:full>, C<:short>, script
-names and customized aliases. If C<:full> is present, for expansion of
+The C<charnames> pragma supports arguments C<:full>, C<:loose>, C<:short>,
+script names and L<customized aliases|/CUSTOM ALIASES>.
+
+If C<:full> is present, for expansion of
C<\N{I<CHARNAME>}>, the string I<CHARNAME> is first looked up in the list of
-standard Unicode character names. If C<:short> is present, and
+standard Unicode character names.
+
+C<:loose> is a variant of C<:full> which allows I<CHARNAME> to be less
+precisely specified. Details are in L</LOOSE MATCHES>.
+
+If C<:short> is present, and
I<CHARNAME> has the form C<I<SCRIPT>:I<CNAME>>, then I<CNAME> is looked up
-as a letter in script I<SCRIPT>. If C<use charnames> is used
+as a letter in script I<SCRIPT>, as described in the next paragraph.
+Or, if C<use charnames> is used
with script name arguments, then for C<\N{I<CHARNAME>}> the name
I<CHARNAME> is looked up as a letter in the given scripts (in the
specified order). Customized aliases can override these, and are explained in
L</CUSTOM ALIASES>.
-For lookup of I<CHARNAME> inside a given script I<SCRIPTNAME>
-this pragma looks for the names
+For lookup of I<CHARNAME> inside a given script I<SCRIPTNAME>,
+this pragma looks in the table of standard Unicode names for the names
SCRIPTNAME CAPITAL LETTER CHARNAME
SCRIPTNAME SMALL LETTER CHARNAME
SCRIPTNAME LETTER CHARNAME
-in the table of standard Unicode names. If I<CHARNAME> is lowercase,
+If I<CHARNAME> is all lowercase,
then the C<CAPITAL> variant is ignored, otherwise the C<SMALL> variant
-is ignored.
+is ignored, and both I<CHARNAME> and I<SCRIPTNAME> are converted to all
+uppercase for look-up. Other than that, both of them follow L<loose|/LOOSE
+MATCHES> rules if C<:loose> is also specified; strict otherwise.
Note that C<\N{...}> is compile-time; it's a special form of string
constant used inside double-quotish strings; this means that you cannot
functionality, use
L<charnames::string_vianame()|/charnames::string_vianame(I<name>)>.
-For the C0 and C1 control characters (U+0000..U+001F, U+0080..U+009F)
-there are no official Unicode names but you can use instead the ISO 6429
-names (LINE FEED, ESCAPE, and so forth, and their abbreviations, LF,
-ESC, ...). In Unicode 3.2 (as of Perl 5.8) some naming changes took
-place, and ISO 6429 was updated, see L</ALIASES>.
+Note, starting in Perl 5.18, the name C<BELL> refers to the Unicode character
+U+1F514, instead of the traditional U+0007. For the latter, use C<ALERT>
+or C<BEL>.
-If the input name is unknown, C<\N{NAME}> raises a warning and
-substitutes the Unicode REPLACEMENT CHARACTER (U+FFFD).
+It is a syntax error to use C<\N{NAME}> where C<NAME> is unknown.
For C<\N{NAME}>, it is a fatal error if C<use bytes> is in effect and the
input name is that of a character that won't fit into a byte (i.e., whose
ordinal is above 255).
Otherwise, any string that includes a C<\N{I<charname>}> or
-C<S<\N{U+I<code point>}>> will automatically have Unicode semantics (see
+C<S<\N{U+I<code point>}>> will automatically have Unicode rules (see
L<perlunicode/Byte and Character Semantics>).
+=head1 LOOSE MATCHES
+
+By specifying C<:loose>, Unicode's L<loose character name
+matching|http://www.unicode.org/reports/tr44#Matching_Rules> rules are
+selected instead of the strict exact match used otherwise.
+That means that I<CHARNAME> doesn't have to be so precisely specified.
+Upper/lower case doesn't matter (except with scripts as mentioned above), nor
+do any underscores, and the only hyphens that matter are those at the
+beginning or end of a word in the name (with one exception: the hyphen in
+U+1180 C<HANGUL JUNGSEONG O-E> does matter).
+Also, blanks not adjacent to hyphens don't matter.
+The official Unicode names are quite variable as to where they use hyphens
+versus spaces to separate word-like units, and this option allows you to not
+have to care as much.
+The reason non-medial hyphens matter is because of cases like
+U+0F60 C<TIBETAN LETTER -A> versus U+0F68 C<TIBETAN LETTER A>.
+The hyphen here is significant, as is the space before it, and so both must be
+included.
+
+C<:loose> slows down look-ups by a factor of 2 to 3 versus
+C<:full>, but the trade-off may be worth it to you. Each individual look-up
+takes very little time, and the results are cached, so the speed difference
+would become a factor only in programs that do look-ups of many different
+spellings, and probably only when those look-ups are through C<vianame()> and
+C<string_vianame()>, since C<\N{...}> look-ups are done at compile time.
+
=head1 ALIASES
-A few aliases have been defined for convenience: instead of having
-to use the official names
-
- LINE FEED (LF)
- FORM FEED (FF)
- CARRIAGE RETURN (CR)
- NEXT LINE (NEL)
-
-(yes, with parentheses), one can use
-
- LINE FEED
- FORM FEED
- CARRIAGE RETURN
- NEXT LINE
- LF
- FF
- CR
- NEL
-
-All the other standard abbreviations for the controls, such as C<ACK> for
-C<ACKNOWLEDGE> also can be used.
-
-One can also use
-
- BYTE ORDER MARK
- BOM
-
-and these abbreviations
-
- Abbreviation Full Name
-
- CGJ COMBINING GRAPHEME JOINER
- FVS1 MONGOLIAN FREE VARIATION SELECTOR ONE
- FVS2 MONGOLIAN FREE VARIATION SELECTOR TWO
- FVS3 MONGOLIAN FREE VARIATION SELECTOR THREE
- LRE LEFT-TO-RIGHT EMBEDDING
- LRM LEFT-TO-RIGHT MARK
- LRO LEFT-TO-RIGHT OVERRIDE
- MMSP MEDIUM MATHEMATICAL SPACE
- MVS MONGOLIAN VOWEL SEPARATOR
- NBSP NO-BREAK SPACE
- NNBSP NARROW NO-BREAK SPACE
- PDF POP DIRECTIONAL FORMATTING
- RLE RIGHT-TO-LEFT EMBEDDING
- RLM RIGHT-TO-LEFT MARK
- RLO RIGHT-TO-LEFT OVERRIDE
- SHY SOFT HYPHEN
- VS1 VARIATION SELECTOR-1
- .
- .
- .
- VS256 VARIATION SELECTOR-256
- WJ WORD JOINER
- ZWJ ZERO WIDTH JOINER
- ZWNJ ZERO WIDTH NON-JOINER
- ZWSP ZERO WIDTH SPACE
-
-For backward compatibility one can use the old names for
-certain C0 and C1 controls
-
- old new
-
- FILE SEPARATOR INFORMATION SEPARATOR FOUR
- GROUP SEPARATOR INFORMATION SEPARATOR THREE
- HORIZONTAL TABULATION CHARACTER TABULATION
- HORIZONTAL TABULATION SET CHARACTER TABULATION SET
- HORIZONTAL TABULATION WITH JUSTIFICATION CHARACTER TABULATION
- WITH JUSTIFICATION
- PARTIAL LINE DOWN PARTIAL LINE FORWARD
- PARTIAL LINE UP PARTIAL LINE BACKWARD
- RECORD SEPARATOR INFORMATION SEPARATOR TWO
- REVERSE INDEX REVERSE LINE FEED
- UNIT SEPARATOR INFORMATION SEPARATOR ONE
- VERTICAL TABULATION LINE TABULATION
- VERTICAL TABULATION SET LINE TABULATION SET
-
-but the old names in addition to giving the character
-will also give a warning about being deprecated.
-
-And finally, certain published variants are usable, including some for
-controls that have no Unicode names:
-
- name character
-
- END OF PROTECTED AREA END OF GUARDED AREA, U+0097
- HIGH OCTET PRESET U+0081
- HOP U+0081
- IND U+0084
- INDEX U+0084
- PAD U+0080
- PADDING CHARACTER U+0080
- PRIVATE USE 1 PRIVATE USE ONE, U+0091
- PRIVATE USE 2 PRIVATE USE TWO, U+0092
- SGC U+0099
- SINGLE GRAPHIC CHARACTER INTRODUCER U+0099
- SINGLE-SHIFT 2 SINGLE SHIFT TWO, U+008E
- SINGLE-SHIFT 3 SINGLE SHIFT THREE, U+008F
- START OF PROTECTED AREA START OF GUARDED AREA, U+0096
+Starting in Unicode 6.1 and Perl v5.16, Unicode defines many abbreviations and
+names that were formerly Perl extensions, and some additional ones that Perl
+did not previously accept. The list is getting too long to reproduce here,
+but you can get the complete list from the Unicode web site:
+L<http://www.unicode.org/Public/UNIDATA/NameAliases.txt>.
+
+Earlier versions of Perl accepted almost all the 6.1 names. These were most
+extensively documented in the v5.14 version of this pod:
+L<http://perldoc.perl.org/5.14.0/charnames.html#ALIASES>.
=head1 CUSTOM ALIASES
you're twisted enough, you can change C<"\N{LATIN CAPITAL LETTER A}"> to
mean C<"B">, etc.
-Note that an alias should not be something that is a legal curly
-brace-enclosed quantifier (see L<perlreref/QUANTIFIERS>). For example
-C<\N{123}> means to match 123 non-newline characters, and is not treated as a
-charnames alias. Aliases are discouraged from beginning with anything
-other than an alphabetic character and from containing anything other
-than alphanumerics, spaces, dashes, parentheses, and underscores.
-Currently they must be ASCII.
-
-An alias can map to either an official Unicode character name or to a
+Aliases must begin with a character that is alphabetic. After that, each may
+contain any combination of word (C<\w>) characters, SPACE (U+0020),
+HYPHEN-MINUS (U+002D), LEFT PARENTHESIS (U+0028), RIGHT PARENTHESIS (U+0029),
+and NO-BREAK SPACE (U+00A0). These last three should never have been allowed
+in names, and are retained for backwards compatibility only; NO-BREAK SPACE IS
+currently deprecated and scheduled for removal in Perl v5.26; the other two
+may also be
+deprecated and removed in future releases of Perl, so don't use them for new
+names. (More precisely, the first character of a name you specify must be
+something that matches all of C<\p{ID_Start}>, C<\p{Alphabetic}>, and
+C<\p{Gc=Letter}>. This makes sure it is what any reasonable person would view
+as an alphabetic character. And, the continuation characters that match C<\w>
+must also match C<\p{ID_Continue}>.) Starting with Perl v5.18, any Unicode
+characters meeting the above criteria may be used; prior to that only
+Latin1-range characters were acceptable.
+
+An alias can map to either an official Unicode character name (not a loose
+matched name) or to a
numeric code point (ordinal). The latter is useful for assigning names
to code points in Unicode private use areas such as U+E800 through
U+F8FF.
-A numeric code point must be a non-negative integer or a string beginning
+A numeric code point must be a non-negative integer, or a string beginning
with C<"U+"> or C<"0x"> with the remainder considered to be a
hexadecimal integer. A literal numeric constant must be unsigned; it
will be interpreted as hex if it has a leading zero or contains
non-decimal hex digits; otherwise it will be interpreted as decimal.
+If it begins with C<"U+">, it is interpreted as the Unicode code point;
+otherwise it is interpreted as native. (Only code points below 256 can
+differ between Unicode and native.) Thus C<U+41> is always the Latin letter
+"A"; but C<0x41> can be "NO-BREAK SPACE" on EBCDIC platforms.
Aliases are added either by the use of anonymous hashes:
use charnames ":full", ":alias" => "pro";
-Also, both these methods currently allow only a single character to be named.
+C<":loose"> has no effect with these. Input names must match exactly, using
+C<":full"> rules.
+
+Also, both these methods currently allow only single characters to be named.
To name a sequence of characters, use a
L<custom translator|/CUSTOM TRANSLATORS> (described below).
+=head1 charnames::string_vianame(I<name>)
+
+This is a runtime equivalent to C<\N{...}>. I<name> can be any expression
+that evaluates to a name accepted by C<\N{...}> under the L<C<:full>
+option|/DESCRIPTION> to C<charnames>. In addition, any other options for the
+controlling C<"use charnames"> in the same scope apply, like C<:loose> or any
+L<script list, C<:short> option|/DESCRIPTION>, or L<custom aliases|/CUSTOM
+ALIASES> you may have defined.
+
+The only differences are due to the fact that C<string_vianame> is run-time
+and C<\N{}> is compile time. You can't interpolate inside a C<\N{}>, (so
+C<\N{$variable}> doesn't work); and if the input name is unknown,
+C<string_vianame> returns C<undef> instead of it being a syntax error.
+
+=head1 charnames::vianame(I<name>)
+
+This is similar to C<string_vianame>. The main difference is that under most
+circumstances, C<vianame> returns an ordinal code
+point, whereas C<string_vianame> returns a string. For example,
+
+ printf "U+%04X", charnames::vianame("FOUR TEARDROP-SPOKED ASTERISK");
+
+prints "U+2722".
+
+This leads to the other two differences. Since a single code point is
+returned, the function can't handle named character sequences, as these are
+composed of multiple characters (it returns C<undef> for these. And, the code
+point can be that of any
+character, even ones that aren't legal under the C<S<use bytes>> pragma,
+
+See L</BUGS> for the circumstances in which the behavior differs
+from that described above.
+
=head1 charnames::viacode(I<code>)
Returns the full name of the character indicated by the numeric code.
prints "FOUR TEARDROP-SPOKED ASTERISK".
-The name returned is the official name for the code point, if
-available; otherwise your custom alias for it. This means that your
-alias will only be returned for code points that don't have an official
-Unicode name (nor Unicode version 1 name), such as private use code
-points, and the 4 control characters U+0080, U+0081, U+0084, and U+0099.
+The name returned is the "best" (defined below) official name or alias
+for the code point, if
+available; otherwise your custom alias for it, if defined; otherwise C<undef>.
+This means that your alias will only be returned for code points that don't
+have an official Unicode name (nor alias) such as private use code points.
+
If you define more than one name for the code point, it is indeterminate
which one will be returned.
-The function returns C<undef> if no name is known for the code point.
-In Unicode the proper name of these is the empty string, which
+As mentioned, the function returns C<undef> if no name is known for the code
+point. In Unicode the proper name for these is the empty string, which
C<undef> stringifies to. (If you ask for a code point past the legal
Unicode maximum of U+10FFFF that you haven't assigned an alias to, you
get C<undef> plus a warning.)
-The input number must be a non-negative integer or a string beginning
+The input number must be a non-negative integer, or a string beginning
with C<"U+"> or C<"0x"> with the remainder considered to be a
hexadecimal integer. A literal numeric constant must be unsigned; it
will be interpreted as hex if it has a leading zero or contains
non-decimal hex digits; otherwise it will be interpreted as decimal.
-
-Notice that the name returned for of U+FEFF is "ZERO WIDTH NO-BREAK
-SPACE", not "BYTE ORDER MARK".
-
-=head1 charnames::string_vianame(I<name>)
-
-This is a runtime equivalent to C<\N{...}>. I<name> can be any expression
-that evaluates to a name accepted by C<\N{...}> under the L<C<:full>
-option|/DESCRIPTION> to C<charnames>. In addition, any other options for the
-controlling C<"use charnames"> in the same scope apply, like any L<script
-list, C<:short> option|/DESCRIPTION>, or L<custom aliases|/CUSTOM ALIASES> you
-may have defined.
-
-The only difference is that if the input name is unknown, C<string_vianame>
-returns C<undef> instead of the REPLACEMENT CHARACTER and does not raise a
-warning message.
-
-=head1 charnames::vianame(I<name>)
-
-This is similar to C<string_vianame>. The main difference is that under most
-circumstances (see L</BUGS> for the others), vianame returns an ordinal code
-point, whereas C<string_vianame> returns a string. For example,
-
- printf "U+%04X", charnames::vianame("FOUR TEARDROP-SPOKED ASTERISK");
-
-prints "U+2722".
-
-This leads to the other two differences. Since a single code point is
-returned, the function can't handle named character sequences, as these are
-composed of multiple characters. And, the code point can be that of any
-character, even ones that aren't legal under the C<S<use bytes>> pragma,
+If it begins with C<"U+">, it is interpreted as the Unicode code point;
+otherwise it is interpreted as native. (Only code points below 256 can
+differ between Unicode and native.) Thus C<U+41> is always the Latin letter
+"A"; but C<0x41> can be "NO-BREAK SPACE" on EBCDIC platforms.
+
+As mentioned above under L</ALIASES>, Unicode 6.1 defines extra names
+(synonyms or aliases) for some code points, most of which were already
+available as Perl extensions. All these are accepted by C<\N{...}> and the
+other functions in this module, but C<viacode> has to choose which one
+name to return for a given input code point, so it returns the "best" name.
+To understand how this works, it is helpful to know more about the Unicode
+name properties. All code points actually have only a single name, which
+(starting in Unicode 2.0) can never change once a character has been assigned
+to the code point. But mistakes have been made in assigning names, for
+example sometimes a clerical error was made during the publishing of the
+Standard which caused words to be misspelled, and there was no way to correct
+those. The Name_Alias property was eventually created to handle these
+situations. If a name was wrong, a corrected synonym would be published for
+it, using Name_Alias. C<viacode> will return that corrected synonym as the
+"best" name for a code point. (It is even possible, though it hasn't happened
+yet, that the correction itself will need to be corrected, and so another
+Name_Alias can be created for that code point; C<viacode> will return the
+most recent correction.)
+
+The Unicode name for each of the control characters (such as LINE FEED) is the
+empty string. However almost all had names assigned by other standards, such
+as the ASCII Standard, or were in common use. C<viacode> returns these names
+as the "best" ones available. Unicode 6.1 has created Name_Aliases for each
+of them, including alternate names, like NEW LINE. C<viacode> uses the
+original name, "LINE FEED" in preference to the alternate. Similarly the
+name returned for U+FEFF is "ZERO WIDTH NO-BREAK SPACE", not "BYTE ORDER
+MARK".
+
+Until Unicode 6.1, the 4 control characters U+0080, U+0081, U+0084, and U+0099
+did not have names nor aliases.
+To preserve backwards compatibility, any alias you define for these code
+points will be returned by this function, in preference to the official name.
+
+Some code points also have abbreviated names, such as "LF" or "NL".
+C<viacode> never returns these.
+
+Because a name correction may be added in future Unicode releases, the name
+that C<viacode> returns may change as a result. This is a rare event, but it
+does happen.
=head1 CUSTOM TRANSLATORS
Here translator() is a subroutine which takes I<CHARNAME> as an
argument, and returns text to insert into the string instead of the
-C<\N{I<CHARNAME>}> escape. Since the text to insert should be different
+C<\N{I<CHARNAME>}> escape.
+
+This is the only way you can create a custom named sequence of code points.
+
+Since the text to insert should be different
in C<bytes> mode and out of it, the function should check the current
state of C<bytes>-flag as in:
See L</CUSTOM ALIASES> above for restrictions on I<CHARNAME>.
-Of course, C<vianame> and C<viacode> would need to be overridden as
-well.
+Of course, C<vianame>, C<viacode>, and C<string_vianame> would need to be
+overridden as well.
=head1 BUGS
-vianame normally returns an ordinal code point, but when the input name is of
+vianame() normally returns an ordinal code point, but when the input name is of
the form C<U+...>, it returns a chr instead. In this case, if C<use bytes> is
in effect and the character won't fit into a byte, it returns C<undef> and
raises a warning.
-Names must be ASCII characters only, which means that you are out of luck if
-you want to create aliases in a language where some or all the characters of
-the desired aliases are non-ASCII.
-
Since evaluation of the translation function (see L</CUSTOM
TRANSLATORS>) happens in the middle of compilation (of a string
literal), the translation function should not do any C<eval>s or