File Coverage

Char/Elatin6.pm

Criterion	Covered	Total	%
statement	51	954	5.3
branch	4	562	0.7
condition	1	180	0.5
subroutine	20	85	23.5
pod	7	50	14.0
total	83	1831	4.5

line	stmt	bran	cond	sub	pod	time	code
1							#
2							# This file is * FOR CPAN USE ONLY *.
3							#
4							package Char::Elatin6;
5							######################################################################
6							#
7							# Char::Elatin6 - Run-time routines for Char/Latin6.pm
8							#
9							# http://search.cpan.org/dist/Char-Latin6/
10							#
11							# Copyright (c) 2008, 2009, 2010, 2011, 2012, 2013, 2014 INABA Hitoshi
12							######################################################################
13
14	177			177		3952	use 5.00503; # Galapagos Consensus 1998 for primetools
	177					646
	177					10990
15							# use 5.008001; # Lancaster Consensus 2013 for toolchains
16
17							# 12.3. Delaying use Until Runtime
18							# in Chapter 12. Packages, Libraries, and Modules
19							# of ISBN 0-596-00313-7 Perl Cookbook, 2nd Edition.
20							# (and so on)
21
22	177			177		31031	BEGIN { eval q{ use vars qw($VERSION) } }
	177			177		1126
	177					357
	177					55734
23							$VERSION = sprintf '%d.%02d', q$Revision: 1.00 $ =~ /(\d+)/xmsg;
24
25							BEGIN {
26	177	50		177		1140	if ($^X =~ / jperl /oxmsi) {
27	0					0	die __FILE__, ": needs perl(not jperl) 5.00503 or later. (\$^X==$^X)";
28							}
29	177					385	if (CORE::ord('A') == 193) {
30							die __FILE__, ": is not US-ASCII script (may be EBCDIC or EBCDIK script).";
31							}
32	177					40663	if (CORE::ord('A') != 0x41) {
33							die __FILE__, ": is not US-ASCII script (must be US-ASCII script).";
34							}
35							}
36
37							BEGIN {
38
39							# instead of utf8.pm
40	177			177		13153	eval q{
	177			177		2156
	177			57		382
	177					38230
	57					11040
	64					14187
	56					11401
	60					11600
	52					11765
	65					14397
41							no warnings qw(redefine);
42							*utf8::upgrade = sub { CORE::length $_[0] };
43							*utf8::downgrade = sub { 1 };
44							*utf8::encode = sub { };
45							*utf8::decode = sub { 1 };
46							*utf8::is_utf8 = sub { };
47							*utf8::valid = sub { 1 };
48							};
49	177	50				155024	if ($@) {
50	0					0	*utf8::upgrade = sub { CORE::length $_[0] };
	0					0
51	0					0	*utf8::downgrade = sub { 1 };
	0					0
52	0					0	*utf8::encode = sub { };
	0					0
53	0					0	*utf8::decode = sub { 1 };
	0					0
54	0					0	*utf8::is_utf8 = sub { };
	0					0
55	0					0	*utf8::valid = sub { 1 };
	0					0
56							}
57							}
58
59							# instead of Symbol.pm
60							BEGIN {
61	177			177		434	my $genpkg = "Symbol::";
62	177					9872	my $genseq = 0;
63
64							sub gensym () {
65	0			0	0	0	my $name = "GEN" . $genseq++;
66
67							# here, no strict qw(refs); if strict.pm exists
68
69	0					0	my $ref = \*{$genpkg . $name};
	0					0
70	0					0	delete $$genpkg{$name};
71	0					0	return $ref;
72							}
73
74							sub qualify ($;$) {
75	0			0	0	0	my ($name) = @_;
76	0	0	0			0	if (!ref($name) && (Char::Elatin6::index($name, '::') == -1) && (Char::Elatin6::index($name, "'") == -1)) {
			0
77	0					0	my $pkg;
78	0					0	my %global = map {$_ => 1} qw(ARGV ARGVOUT ENV INC SIG STDERR STDIN STDOUT DATA);
	0					0
79
80							# Global names: special character, "^xyz", or other.
81	0	0	0			0	if ($name =~ /^(([^a-z])\|(\^[a-z_]+))\z/i \|\| $global{$name}) {
82							# RGS 2001-11-05 : translate leading ^X to control-char
83	0					0	$name =~ s/^\^([a-z_])/'qq(\c'.$1.')'/eei;
	0					0
84	0					0	$pkg = "main";
85							}
86							else {
87	0	0				0	$pkg = (@_ > 1) ? $_[1] : caller;
88							}
89	0					0	$name = $pkg . "::" . $name;
90							}
91	0					0	return $name;
92							}
93
94							sub qualify_to_ref ($;$) {
95
96							# here, no strict qw(refs); if strict.pm exists
97
98	0	0		0	0	0	return \*{ qualify $_[0], @_ > 1 ? $_[1] : caller };
	0					0
99							}
100							}
101
102							# Column: local $@
103							# in Chapter 9. Osaete okitai Perl no kiso
104							# of ISBN 10: 4798119172 \| ISBN 13: 978-4798119175 MODAN Perl NYUMON
105							# (and so on)
106
107							# use strict; if strict.pm exists
108							BEGIN {
109	177	50		177		758	if (eval { local $@; CORE::require strict }) {
	177					497
	177					6940
110	177					34071	strict::->import;
111							}
112							}
113
114							# P.714 29.2.39. flock
115							# in Chapter 29: Functions
116							# of ISBN 0-596-00027-8 Programming Perl Third Edition.
117
118							# P.863 flock
119							# in Chapter 27: Functions
120							# of ISBN 978-0-596-00492-7 Programming Perl 4th Edition.
121
122							sub LOCK_SH() {1}
123							sub LOCK_EX() {2}
124							sub LOCK_UN() {8}
125							sub LOCK_NB() {4}
126
127							# instead of Carp.pm
128							sub carp;
129							sub croak;
130							sub cluck;
131							sub confess;
132
133							my $your_char = q{[\x00-\xFF]};
134
135							# regexp of character
136	177			177		15405	BEGIN { eval q{ use vars qw($q_char) } }
	177			177		1032
	177					402
	177					30817
137							$q_char = qr/$your_char/oxms;
138
139							#
140							# Latin-6 character range per length
141							#
142							my %range_tr = ();
143
144							#
145							# alias of encoding name
146							#
147	177			177		11532	BEGIN { eval q{ use vars qw($encoding_alias) } }
	177			177		967
	177					368
	177					625705
148
149							#
150							# Latin-6 case conversion
151							#
152							my %lc = ();
153							@lc{qw(A B C D E F G H I J K L M N O P Q R S T U V W X Y Z)} =
154							qw(a b c d e f g h i j k l m n o p q r s t u v w x y z);
155							my %uc = ();
156							@uc{qw(a b c d e f g h i j k l m n o p q r s t u v w x y z)} =
157							qw(A B C D E F G H I J K L M N O P Q R S T U V W X Y Z);
158							my %fc = ();
159							@fc{qw(A B C D E F G H I J K L M N O P Q R S T U V W X Y Z)} =
160							qw(a b c d e f g h i j k l m n o p q r s t u v w x y z);
161
162							if (0) {
163							}
164
165							elsif (__PACKAGE__ =~ / \b Elatin6 \z/oxms) {
166							%range_tr = (
167							1 => [ [0x00..0xFF],
168							],
169							);
170							$encoding_alias = qr/ \b (?: iso[-_ ]?8859-10 \| iec[- ]?8859-10 \| latin-?6 ) \b /oxmsi;
171
172							%lc = (%lc,
173							"\xA1" => "\xB1", # LATIN LETTER A WITH OGONEK
174							"\xA2" => "\xB2", # LATIN LETTER E WITH MACRON
175							"\xA3" => "\xB3", # LATIN LETTER G WITH CEDILLA
176							"\xA4" => "\xB4", # LATIN LETTER I WITH MACRON
177							"\xA5" => "\xB5", # LATIN LETTER I WITH TILDE
178							"\xA6" => "\xB6", # LATIN LETTER K WITH CEDILLA
179							"\xA8" => "\xB8", # LATIN LETTER L WITH CEDILLA
180							"\xA9" => "\xB9", # LATIN LETTER D WITH STROKE
181							"\xAA" => "\xBA", # LATIN LETTER S WITH CARON
182							"\xAB" => "\xBB", # LATIN LETTER T WITH STROKE
183							"\xAC" => "\xBC", # LATIN LETTER Z WITH CARON
184							"\xAE" => "\xBE", # LATIN LETTER U WITH MACRON
185							"\xAF" => "\xBF", # LATIN LETTER ENG
186							"\xC0" => "\xE0", # LATIN LETTER A WITH MACRON
187							"\xC1" => "\xE1", # LATIN LETTER A WITH ACUTE
188							"\xC2" => "\xE2", # LATIN LETTER A WITH CIRCUMFLEX
189							"\xC3" => "\xE3", # LATIN LETTER A WITH TILDE
190							"\xC4" => "\xE4", # LATIN LETTER A WITH DIAERESIS
191							"\xC5" => "\xE5", # LATIN LETTER A WITH RING ABOVE
192							"\xC6" => "\xE6", # LATIN LETTER AE
193							"\xC7" => "\xE7", # LATIN LETTER I WITH OGONEK
194							"\xC8" => "\xE8", # LATIN LETTER C WITH CARON
195							"\xC9" => "\xE9", # LATIN LETTER E WITH ACUTE
196							"\xCA" => "\xEA", # LATIN LETTER E WITH OGONEK
197							"\xCB" => "\xEB", # LATIN LETTER E WITH DIAERESIS
198							"\xCC" => "\xEC", # LATIN LETTER E WITH DOT ABOVE
199							"\xCD" => "\xED", # LATIN LETTER I WITH ACUTE
200							"\xCE" => "\xEE", # LATIN LETTER I WITH CIRCUMFLEX
201							"\xCF" => "\xEF", # LATIN LETTER I WITH DIAERESIS
202							"\xD0" => "\xF0", # LATIN LETTER ETH (Icelandic)
203							"\xD1" => "\xF1", # LATIN LETTER N WITH CEDILLA
204							"\xD2" => "\xF2", # LATIN LETTER O WITH MACRON
205							"\xD3" => "\xF3", # LATIN LETTER O WITH ACUTE
206							"\xD4" => "\xF4", # LATIN LETTER O WITH CIRCUMFLEX
207							"\xD5" => "\xF5", # LATIN LETTER O WITH TILDE
208							"\xD6" => "\xF6", # LATIN LETTER O WITH DIAERESIS
209							"\xD7" => "\xF7", # LATIN LETTER U WITH TILDE
210							"\xD8" => "\xF8", # LATIN LETTER O WITH STROKE
211							"\xD9" => "\xF9", # LATIN LETTER U WITH OGONEK
212							"\xDA" => "\xFA", # LATIN LETTER U WITH ACUTE
213							"\xDB" => "\xFB", # LATIN LETTER U WITH CIRCUMFLEX
214							"\xDC" => "\xFC", # LATIN LETTER U WITH DIAERESIS
215							"\xDD" => "\xFD", # LATIN LETTER Y WITH ACUTE
216							"\xDE" => "\xFE", # LATIN LETTER THORN (Icelandic)
217							);
218
219							%uc = (%uc,
220							"\xB1" => "\xA1", # LATIN LETTER A WITH OGONEK
221							"\xB2" => "\xA2", # LATIN LETTER E WITH MACRON
222							"\xB3" => "\xA3", # LATIN LETTER G WITH CEDILLA
223							"\xB4" => "\xA4", # LATIN LETTER I WITH MACRON
224							"\xB5" => "\xA5", # LATIN LETTER I WITH TILDE
225							"\xB6" => "\xA6", # LATIN LETTER K WITH CEDILLA
226							"\xB8" => "\xA8", # LATIN LETTER L WITH CEDILLA
227							"\xB9" => "\xA9", # LATIN LETTER D WITH STROKE
228							"\xBA" => "\xAA", # LATIN LETTER S WITH CARON
229							"\xBB" => "\xAB", # LATIN LETTER T WITH STROKE
230							"\xBC" => "\xAC", # LATIN LETTER Z WITH CARON
231							"\xBE" => "\xAE", # LATIN LETTER U WITH MACRON
232							"\xBF" => "\xAF", # LATIN LETTER ENG
233							"\xE0" => "\xC0", # LATIN LETTER A WITH MACRON
234							"\xE1" => "\xC1", # LATIN LETTER A WITH ACUTE
235							"\xE2" => "\xC2", # LATIN LETTER A WITH CIRCUMFLEX
236							"\xE3" => "\xC3", # LATIN LETTER A WITH TILDE
237							"\xE4" => "\xC4", # LATIN LETTER A WITH DIAERESIS
238							"\xE5" => "\xC5", # LATIN LETTER A WITH RING ABOVE
239							"\xE6" => "\xC6", # LATIN LETTER AE
240							"\xE7" => "\xC7", # LATIN LETTER I WITH OGONEK
241							"\xE8" => "\xC8", # LATIN LETTER C WITH CARON
242							"\xE9" => "\xC9", # LATIN LETTER E WITH ACUTE
243							"\xEA" => "\xCA", # LATIN LETTER E WITH OGONEK
244							"\xEB" => "\xCB", # LATIN LETTER E WITH DIAERESIS
245							"\xEC" => "\xCC", # LATIN LETTER E WITH DOT ABOVE
246							"\xED" => "\xCD", # LATIN LETTER I WITH ACUTE
247							"\xEE" => "\xCE", # LATIN LETTER I WITH CIRCUMFLEX
248							"\xEF" => "\xCF", # LATIN LETTER I WITH DIAERESIS
249							"\xF0" => "\xD0", # LATIN LETTER ETH (Icelandic)
250							"\xF1" => "\xD1", # LATIN LETTER N WITH CEDILLA
251							"\xF2" => "\xD2", # LATIN LETTER O WITH MACRON
252							"\xF3" => "\xD3", # LATIN LETTER O WITH ACUTE
253							"\xF4" => "\xD4", # LATIN LETTER O WITH CIRCUMFLEX
254							"\xF5" => "\xD5", # LATIN LETTER O WITH TILDE
255							"\xF6" => "\xD6", # LATIN LETTER O WITH DIAERESIS
256							"\xF7" => "\xD7", # LATIN LETTER U WITH TILDE
257							"\xF8" => "\xD8", # LATIN LETTER O WITH STROKE
258							"\xF9" => "\xD9", # LATIN LETTER U WITH OGONEK
259							"\xFA" => "\xDA", # LATIN LETTER U WITH ACUTE
260							"\xFB" => "\xDB", # LATIN LETTER U WITH CIRCUMFLEX
261							"\xFC" => "\xDC", # LATIN LETTER U WITH DIAERESIS
262							"\xFD" => "\xDD", # LATIN LETTER Y WITH ACUTE
263							"\xFE" => "\xDE", # LATIN LETTER THORN (Icelandic)
264							);
265
266							%fc = (%fc,
267							"\xA1" => "\xB1", # LATIN CAPITAL LETTER A WITH OGONEK --> LATIN SMALL LETTER A WITH OGONEK
268							"\xA2" => "\xB2", # LATIN CAPITAL LETTER E WITH MACRON --> LATIN SMALL LETTER E WITH MACRON
269							"\xA3" => "\xB3", # LATIN CAPITAL LETTER G WITH CEDILLA --> LATIN SMALL LETTER G WITH CEDILLA
270							"\xA4" => "\xB4", # LATIN CAPITAL LETTER I WITH MACRON --> LATIN SMALL LETTER I WITH MACRON
271							"\xA5" => "\xB5", # LATIN CAPITAL LETTER I WITH TILDE --> LATIN SMALL LETTER I WITH TILDE
272							"\xA6" => "\xB6", # LATIN CAPITAL LETTER K WITH CEDILLA --> LATIN SMALL LETTER K WITH CEDILLA
273							"\xA8" => "\xB8", # LATIN CAPITAL LETTER L WITH CEDILLA --> LATIN SMALL LETTER L WITH CEDILLA
274							"\xA9" => "\xB9", # LATIN CAPITAL LETTER D WITH STROKE --> LATIN SMALL LETTER D WITH STROKE
275							"\xAA" => "\xBA", # LATIN CAPITAL LETTER S WITH CARON --> LATIN SMALL LETTER S WITH CARON
276							"\xAB" => "\xBB", # LATIN CAPITAL LETTER T WITH STROKE --> LATIN SMALL LETTER T WITH STROKE
277							"\xAC" => "\xBC", # LATIN CAPITAL LETTER Z WITH CARON --> LATIN SMALL LETTER Z WITH CARON
278							"\xAE" => "\xBE", # LATIN CAPITAL LETTER U WITH MACRON --> LATIN SMALL LETTER U WITH MACRON
279							"\xAF" => "\xBF", # LATIN CAPITAL LETTER ENG --> LATIN SMALL LETTER ENG
280							"\xC0" => "\xE0", # LATIN CAPITAL LETTER A WITH MACRON --> LATIN SMALL LETTER A WITH MACRON
281							"\xC1" => "\xE1", # LATIN CAPITAL LETTER A WITH ACUTE --> LATIN SMALL LETTER A WITH ACUTE
282							"\xC2" => "\xE2", # LATIN CAPITAL LETTER A WITH CIRCUMFLEX --> LATIN SMALL LETTER A WITH CIRCUMFLEX
283							"\xC3" => "\xE3", # LATIN CAPITAL LETTER A WITH TILDE --> LATIN SMALL LETTER A WITH TILDE
284							"\xC4" => "\xE4", # LATIN CAPITAL LETTER A WITH DIAERESIS --> LATIN SMALL LETTER A WITH DIAERESIS
285							"\xC5" => "\xE5", # LATIN CAPITAL LETTER A WITH RING ABOVE --> LATIN SMALL LETTER A WITH RING ABOVE
286							"\xC6" => "\xE6", # LATIN CAPITAL LETTER AE --> LATIN SMALL LETTER AE
287							"\xC7" => "\xE7", # LATIN CAPITAL LETTER I WITH OGONEK --> LATIN SMALL LETTER I WITH OGONEK
288							"\xC8" => "\xE8", # LATIN CAPITAL LETTER C WITH CARON --> LATIN SMALL LETTER C WITH CARON
289							"\xC9" => "\xE9", # LATIN CAPITAL LETTER E WITH ACUTE --> LATIN SMALL LETTER E WITH ACUTE
290							"\xCA" => "\xEA", # LATIN CAPITAL LETTER E WITH OGONEK --> LATIN SMALL LETTER E WITH OGONEK
291							"\xCB" => "\xEB", # LATIN CAPITAL LETTER E WITH DIAERESIS --> LATIN SMALL LETTER E WITH DIAERESIS
292							"\xCC" => "\xEC", # LATIN CAPITAL LETTER E WITH DOT ABOVE --> LATIN SMALL LETTER E WITH DOT ABOVE
293							"\xCD" => "\xED", # LATIN CAPITAL LETTER I WITH ACUTE --> LATIN SMALL LETTER I WITH ACUTE
294							"\xCE" => "\xEE", # LATIN CAPITAL LETTER I WITH CIRCUMFLEX --> LATIN SMALL LETTER I WITH CIRCUMFLEX
295							"\xCF" => "\xEF", # LATIN CAPITAL LETTER I WITH DIAERESIS --> LATIN SMALL LETTER I WITH DIAERESIS
296							"\xD0" => "\xF0", # LATIN CAPITAL LETTER ETH --> LATIN SMALL LETTER ETH
297							"\xD1" => "\xF1", # LATIN CAPITAL LETTER N WITH CEDILLA --> LATIN SMALL LETTER N WITH CEDILLA
298							"\xD2" => "\xF2", # LATIN CAPITAL LETTER O WITH MACRON --> LATIN SMALL LETTER O WITH MACRON
299							"\xD3" => "\xF3", # LATIN CAPITAL LETTER O WITH ACUTE --> LATIN SMALL LETTER O WITH ACUTE
300							"\xD4" => "\xF4", # LATIN CAPITAL LETTER O WITH CIRCUMFLEX --> LATIN SMALL LETTER O WITH CIRCUMFLEX
301							"\xD5" => "\xF5", # LATIN CAPITAL LETTER O WITH TILDE --> LATIN SMALL LETTER O WITH TILDE
302							"\xD6" => "\xF6", # LATIN CAPITAL LETTER O WITH DIAERESIS --> LATIN SMALL LETTER O WITH DIAERESIS
303							"\xD7" => "\xF7", # LATIN CAPITAL LETTER U WITH TILDE --> LATIN SMALL LETTER U WITH TILDE
304							"\xD8" => "\xF8", # LATIN CAPITAL LETTER O WITH STROKE --> LATIN SMALL LETTER O WITH STROKE
305							"\xD9" => "\xF9", # LATIN CAPITAL LETTER U WITH OGONEK --> LATIN SMALL LETTER U WITH OGONEK
306							"\xDA" => "\xFA", # LATIN CAPITAL LETTER U WITH ACUTE --> LATIN SMALL LETTER U WITH ACUTE
307							"\xDB" => "\xFB", # LATIN CAPITAL LETTER U WITH CIRCUMFLEX --> LATIN SMALL LETTER U WITH CIRCUMFLEX
308							"\xDC" => "\xFC", # LATIN CAPITAL LETTER U WITH DIAERESIS --> LATIN SMALL LETTER U WITH DIAERESIS
309							"\xDD" => "\xFD", # LATIN CAPITAL LETTER Y WITH ACUTE --> LATIN SMALL LETTER Y WITH ACUTE
310							"\xDE" => "\xFE", # LATIN CAPITAL LETTER THORN --> LATIN SMALL LETTER THORN
311							"\xDF" => "\x73\x73", # LATIN SMALL LETTER SHARP S --> LATIN SMALL LETTER S, LATIN SMALL LETTER S
312							);
313							}
314
315							else {
316							croak "Don't know my package name '@{[__PACKAGE__]}'";
317							}
318
319							#
320							# @ARGV wildcard globbing
321							#
322							sub import {
323
324	0	0		0		0	if ($^O =~ /\A (?: MSWin32 \| NetWare \| symbian \| dos ) \z/oxms) {
325	0					0	my @argv = ();
326	0					0	for (@ARGV) {
327
328							# has space
329	0	0				0	if (/\A (?:$q_char)*? [ ] /oxms) {
		0
330	0	0				0	if (my @glob = Char::Elatin6::glob(qq{"$_"})) {
331	0					0	push @argv, @glob;
332							}
333							else {
334	0					0	push @argv, $_;
335							}
336							}
337
338							# has wildcard metachar
339							elsif (/\A (?:$q_char)? [?] /oxms) {
340	0	0				0	if (my @glob = Char::Elatin6::glob($_)) {
341	0					0	push @argv, @glob;
342							}
343							else {
344	0					0	push @argv, $_;
345							}
346							}
347
348							# no wildcard globbing
349							else {
350	0					0	push @argv, $_;
351							}
352							}
353	0					0	@ARGV = @argv;
354							}
355							}
356
357							# P.230 Care with Prototypes
358							# in Chapter 6: Subroutines
359							# of ISBN 0-596-00027-8 Programming Perl Third Edition.
360							#
361							# If you aren't careful, you can get yourself into trouble with prototypes.
362							# But if you are careful, you can do a lot of neat things with them. This is
363							# all very powerful, of course, and should only be used in moderation to make
364							# the world a better place.
365
366							# P.332 Care with Prototypes
367							# in Chapter 7: Subroutines
368							# of ISBN 978-0-596-00492-7 Programming Perl 4th Edition.
369							#
370							# If you aren't careful, you can get yourself into trouble with prototypes.
371							# But if you are careful, you can do a lot of neat things with them. This is
372							# all very powerful, of course, and should only be used in moderation to make
373							# the world a better place.
374
375							#
376							# Prototypes of subroutines
377							#
378	0			0		0	sub unimport {}
379							sub Char::Elatin6::split(;$$$);
380							sub Char::Elatin6::tr($$$$;$);
381							sub Char::Elatin6::chop(@);
382							sub Char::Elatin6::index($$;$);
383							sub Char::Elatin6::rindex($$;$);
384							sub Char::Elatin6::lcfirst(@);
385							sub Char::Elatin6::lcfirst_();
386							sub Char::Elatin6::lc(@);
387							sub Char::Elatin6::lc_();
388							sub Char::Elatin6::ucfirst(@);
389							sub Char::Elatin6::ucfirst_();
390							sub Char::Elatin6::uc(@);
391							sub Char::Elatin6::uc_();
392							sub Char::Elatin6::fc(@);
393							sub Char::Elatin6::fc_();
394							sub Char::Elatin6::ignorecase;
395							sub Char::Elatin6::classic_character_class;
396							sub Char::Elatin6::capture;
397							sub Char::Elatin6::chr(;$);
398							sub Char::Elatin6::chr_();
399							sub Char::Elatin6::glob($);
400							sub Char::Elatin6::glob_();
401
402							sub Char::Latin6::ord(;$);
403							sub Char::Latin6::ord_();
404							sub Char::Latin6::reverse(@);
405							sub Char::Latin6::getc(;*@);
406							sub Char::Latin6::length(;$);
407							sub Char::Latin6::substr($$;$$);
408							sub Char::Latin6::index($$;$);
409							sub Char::Latin6::rindex($$;$);
410
411							#
412							# Regexp work
413							#
414	177			177		17399	BEGIN { eval q{ use vars qw(
	177			177		1489
	177					9214
	177					102171
415							$Char::Latin6::re_a
416							$Char::Latin6::re_t
417							$Char::Latin6::re_n
418							$Char::Latin6::re_r
419							) } }
420
421							#
422							# Character class
423							#
424	177			177		14624	BEGIN { eval q{ use vars qw(
	177			177		1246
	177					459
	177					3970886
425							$dot
426							$dot_s
427							$eD
428							$eS
429							$eW
430							$eH
431							$eV
432							$eR
433							$eN
434							$not_alnum
435							$not_alpha
436							$not_ascii
437							$not_blank
438							$not_cntrl
439							$not_digit
440							$not_graph
441							$not_lower
442							$not_lower_i
443							$not_print
444							$not_punct
445							$not_space
446							$not_upper
447							$not_upper_i
448							$not_word
449							$not_xdigit
450							$eb
451							$eB
452							) } }
453
454							${Char::Elatin6::dot} = qr{(?:[^\x0A])};
455							${Char::Elatin6::dot_s} = qr{(?:[\x00-\xFF])};
456							${Char::Elatin6::eD} = qr{(?:[^0-9])};
457
458							# Vertical tabs are now whitespace
459							# \s in a regex now matches a vertical tab in all circumstances.
460							# http://search.cpan.org/dist/perl-5.18.0/pod/perldelta.pod#Vertical_tabs_are_now_whitespace
461							# ${Char::Elatin6::eS} = qr{(?:[^\x09\x0A \x0C\x0D\x20])};
462							# ${Char::Elatin6::eS} = qr{(?:[^\x09\x0A\x0B\x0C\x0D\x20])};
463							${Char::Elatin6::eS} = qr{(?:[^\s])};
464
465							${Char::Elatin6::eW} = qr{(?:[^0-9A-Z_a-z])};
466							${Char::Elatin6::eH} = qr{(?:[^\x09\x20])};
467							${Char::Elatin6::eV} = qr{(?:[^\x0A\x0B\x0C\x0D])};
468							${Char::Elatin6::eR} = qr{(?:\x0D\x0A\|[\x0A\x0D])};
469							${Char::Elatin6::eN} = qr{(?:[^\x0A])};
470							${Char::Elatin6::not_alnum} = qr{(?:[^\x30-\x39\x41-\x5A\x61-\x7A])};
471							${Char::Elatin6::not_alpha} = qr{(?:[^\x41-\x5A\x61-\x7A])};
472							${Char::Elatin6::not_ascii} = qr{(?:[^\x00-\x7F])};
473							${Char::Elatin6::not_blank} = qr{(?:[^\x09\x20])};
474							${Char::Elatin6::not_cntrl} = qr{(?:[^\x00-\x1F\x7F])};
475							${Char::Elatin6::not_digit} = qr{(?:[^\x30-\x39])};
476							${Char::Elatin6::not_graph} = qr{(?:[^\x21-\x7F])};
477							${Char::Elatin6::not_lower} = qr{(?:[^\x61-\x7A])};
478							${Char::Elatin6::not_lower_i} = qr{(?:[\x00-\xFF])};
479							${Char::Elatin6::not_print} = qr{(?:[^\x20-\x7F])};
480							${Char::Elatin6::not_punct} = qr{(?:[^\x21-\x2F\x3A-\x3F\x40\x5B-\x5F\x60\x7B-\x7E])};
481							${Char::Elatin6::not_space} = qr{(?:[^\s\x0B])};
482							${Char::Elatin6::not_upper} = qr{(?:[^\x41-\x5A])};
483							${Char::Elatin6::not_upper_i} = qr{(?:[\x00-\xFF])};
484							${Char::Elatin6::not_word} = qr{(?:[^\x30-\x39\x41-\x5A\x5F\x61-\x7A])};
485							${Char::Elatin6::not_xdigit} = qr{(?:[^\x30-\x39\x41-\x46\x61-\x66])};
486							${Char::Elatin6::eb} = qr{(?:\A(?=[0-9A-Z_a-z])\|(?<=[\x00-\x2F\x40\x5B-\x5E\x60\x7B-\xFF])(?=[0-9A-Z_a-z])\|(?<=[0-9A-Z_a-z])(?=[\x00-\x2F\x40\x5B-\x5E\x60\x7B-\xFF]\|\z))};
487							${Char::Elatin6::eB} = qr{(?:(?<=[0-9A-Z_a-z])(?=[0-9A-Z_a-z])\|(?<=[\x00-\x2F\x40\x5B-\x5E\x60\x7B-\xFF])(?=[\x00-\x2F\x40\x5B-\x5E\x60\x7B-\xFF]))};
488
489							# avoid: Name "Char::Elatin6::foo" used only once: possible typo at here.
490							${Char::Elatin6::dot} = ${Char::Elatin6::dot};
491							${Char::Elatin6::dot_s} = ${Char::Elatin6::dot_s};
492							${Char::Elatin6::eD} = ${Char::Elatin6::eD};
493							${Char::Elatin6::eS} = ${Char::Elatin6::eS};
494							${Char::Elatin6::eW} = ${Char::Elatin6::eW};
495							${Char::Elatin6::eH} = ${Char::Elatin6::eH};
496							${Char::Elatin6::eV} = ${Char::Elatin6::eV};
497							${Char::Elatin6::eR} = ${Char::Elatin6::eR};
498							${Char::Elatin6::eN} = ${Char::Elatin6::eN};
499							${Char::Elatin6::not_alnum} = ${Char::Elatin6::not_alnum};
500							${Char::Elatin6::not_alpha} = ${Char::Elatin6::not_alpha};
501							${Char::Elatin6::not_ascii} = ${Char::Elatin6::not_ascii};
502							${Char::Elatin6::not_blank} = ${Char::Elatin6::not_blank};
503							${Char::Elatin6::not_cntrl} = ${Char::Elatin6::not_cntrl};
504							${Char::Elatin6::not_digit} = ${Char::Elatin6::not_digit};
505							${Char::Elatin6::not_graph} = ${Char::Elatin6::not_graph};
506							${Char::Elatin6::not_lower} = ${Char::Elatin6::not_lower};
507							${Char::Elatin6::not_lower_i} = ${Char::Elatin6::not_lower_i};
508							${Char::Elatin6::not_print} = ${Char::Elatin6::not_print};
509							${Char::Elatin6::not_punct} = ${Char::Elatin6::not_punct};
510							${Char::Elatin6::not_space} = ${Char::Elatin6::not_space};
511							${Char::Elatin6::not_upper} = ${Char::Elatin6::not_upper};
512							${Char::Elatin6::not_upper_i} = ${Char::Elatin6::not_upper_i};
513							${Char::Elatin6::not_word} = ${Char::Elatin6::not_word};
514							${Char::Elatin6::not_xdigit} = ${Char::Elatin6::not_xdigit};
515							${Char::Elatin6::eb} = ${Char::Elatin6::eb};
516							${Char::Elatin6::eB} = ${Char::Elatin6::eB};
517
518							#
519							# Latin-6 split
520							#
521							sub Char::Elatin6::split(;$$$) {
522
523							# P.794 29.2.161. split
524							# in Chapter 29: Functions
525							# of ISBN 0-596-00027-8 Programming Perl Third Edition.
526
527							# P.951 split
528							# in Chapter 27: Functions
529							# of ISBN 978-0-596-00492-7 Programming Perl 4th Edition.
530
531	0			0	0	0	my $pattern = $_[0];
532	0					0	my $string = $_[1];
533	0					0	my $limit = $_[2];
534
535							# if $pattern is also omitted or is the literal space, " "
536	0	0				0	if (not defined $pattern) {
537	0					0	$pattern = ' ';
538							}
539
540							# if $string is omitted, the function splits the $_ string
541	0	0				0	if (not defined $string) {
542	0	0				0	if (defined $_) {
543	0					0	$string = $_;
544							}
545							else {
546	0					0	$string = '';
547							}
548							}
549
550	0					0	my @split = ();
551
552							# when string is empty
553	0	0				0	if ($string eq '') {
		0
554
555							# resulting list value in list context
556	0	0				0	if (wantarray) {
557	0					0	return @split;
558							}
559
560							# count of substrings in scalar context
561							else {
562	0	0				0	carp "Use of implicit split to \@_ is deprecated" if $^W;
563	0					0	@_ = @split;
564	0					0	return scalar @_;
565							}
566							}
567
568							# split's first argument is more consistently interpreted
569							#
570							# After some changes earlier in v5.17, split's behavior has been simplified:
571							# if the PATTERN argument evaluates to a string containing one space, it is
572							# treated the way that a literal string containing one space once was.
573							# http://search.cpan.org/dist/perl-5.18.0/pod/perldelta.pod#split's_first_argument_is_more_consistently_interpreted
574
575							# if $pattern is also omitted or is the literal space, " ", the function splits
576							# on whitespace, /\s+/, after skipping any leading whitespace
577							# (and so on)
578
579							elsif ($pattern eq ' ') {
580	0	0				0	if (not defined $limit) {
581	0					0	return CORE::split(' ', $string);
582							}
583							else {
584	0					0	return CORE::split(' ', $string, $limit);
585							}
586							}
587
588							# if $limit is negative, it is treated as if an arbitrarily large $limit has been specified
589	0	0	0			0	if ((not defined $limit) or ($limit <= 0)) {
		0
590
591							# a pattern capable of matching either the null string or something longer than the
592							# null string will split the value of $string into separate characters wherever it
593							# matches the null string between characters
594							# (and so on)
595
596	0	0				0	if ('' =~ / \A $pattern \z /xms) {
597	0					0	my $last_subexpression_offsets = _last_subexpression_offsets($pattern);
598	0					0	my $limit = scalar(() = $string =~ /($pattern)/oxmsg);
599
600							# P.1024 Appendix W.10 Multibyte Processing
601							# of ISBN 1-56592-224-7 CJKV Information Processing
602							# (and so on)
603
604							# the //m modifier is assumed when you split on the pattern /^/
605							# (and so on)
606
607							# V
608	0		0			0	while ((--$limit > 0) and ($string =~ s/\A((?:$q_char)+?)$pattern//m)) {
609
610							# if the $pattern contains parentheses, then the substring matched by each pair of parentheses
611							# is included in the resulting list, interspersed with the fields that are ordinarily returned
612							# (and so on)
613
614	0					0	local $@;
615	0					0	for (my $digit=1; $digit <= ($last_subexpression_offsets + 1); $digit++) {
616	0					0	push @split, eval('$' . $digit);
617							}
618							}
619							}
620
621							else {
622	0					0	my $last_subexpression_offsets = _last_subexpression_offsets($pattern);
623
624							# V
625	0					0	while ($string =~ s/\A((?:$q_char)*?)$pattern//m) {
626	0					0	local $@;
627	0					0	for (my $digit=1; $digit <= ($last_subexpression_offsets + 1); $digit++) {
628	0					0	push @split, eval('$' . $digit);
629							}
630							}
631							}
632							}
633
634							elsif ($limit > 0) {
635	0	0				0	if ('' =~ / \A $pattern \z /xms) {
636	0					0	my $last_subexpression_offsets = _last_subexpression_offsets($pattern);
637	0		0			0	while ((--$limit > 0) and (CORE::length($string) > 0)) {
638
639							# V
640	0	0				0	if ($string =~ s/\A((?:$q_char)+?)$pattern//m) {
641	0					0	local $@;
642	0					0	for (my $digit=1; $digit <= ($last_subexpression_offsets + 1); $digit++) {
643	0					0	push @split, eval('$' . $digit);
644							}
645							}
646							}
647							}
648							else {
649	0					0	my $last_subexpression_offsets = _last_subexpression_offsets($pattern);
650	0		0			0	while ((--$limit > 0) and (CORE::length($string) > 0)) {
651
652							# V
653	0	0				0	if ($string =~ s/\A((?:$q_char)*?)$pattern//m) {
654	0					0	local $@;
655	0					0	for (my $digit=1; $digit <= ($last_subexpression_offsets + 1); $digit++) {
656	0					0	push @split, eval('$' . $digit);
657							}
658							}
659							}
660							}
661							}
662
663	0	0				0	if (CORE::length($string) > 0) {
664	0					0	push @split, $string;
665							}
666
667							# if $_[2] (NOT "$limit") is omitted or zero, trailing null fields are stripped from the result
668	0	0	0			0	if ((not defined $_[2]) or ($_[2] == 0)) {
669	0		0			0	while ((scalar(@split) >= 1) and ($split[-1] eq '')) {
670	0					0	pop @split;
671							}
672							}
673
674							# resulting list value in list context
675	0	0				0	if (wantarray) {
676	0					0	return @split;
677							}
678
679							# count of substrings in scalar context
680							else {
681	0	0				0	carp "Use of implicit split to \@_ is deprecated" if $^W;
682	0					0	@_ = @split;
683	0					0	return scalar @_;
684							}
685							}
686
687							#
688							# get last subexpression offsets
689							#
690							sub _last_subexpression_offsets {
691	0			0		0	my $pattern = $_[0];
692
693							# remove comment
694	0					0	$pattern =~ s/$\?\# .*? $//oxmsg;
695
696	0					0	my $modifier = '';
697	0	0				0	if ($pattern =~ /\(\?\^? ([\-A-Za-z]+) :/oxms) {
698	0					0	$modifier = $1;
699	0					0	$modifier =~ s/-[A-Za-z]*//;
700							}
701
702							# with /x modifier
703	0					0	my @char = ();
704	0	0				0	if ($modifier =~ /x/oxms) {
705	0					0	@char = $pattern =~ /\G(
706							\\ (?:$q_char) \|
707							\# (?:$q_char)*? $ \|
708							\[ (?: \\\] \| (?:$q_char))+? \] \|
709							\(\? \|
710							(?:$q_char)
711							)/oxmsg;
712							}
713
714							# without /x modifier
715							else {
716	0					0	@char = $pattern =~ /\G(
717							\\ (?:$q_char) \|
718							\[ (?: \\\] \| (?:$q_char))+? \] \|
719							\(\? \|
720							(?:$q_char)
721							)/oxmsg;
722							}
723
724	0					0	return scalar grep { $_ eq '(' } @char;
	0					0
725							}
726
727							#
728							# Latin-6 transliteration (tr///)
729							#
730							sub Char::Elatin6::tr($$$$;$) {
731
732	0			0	0	0	my $bind_operator = $_[1];
733	0					0	my $searchlist = $_[2];
734	0					0	my $replacementlist = $_[3];
735	0		0			0	my $modifier = $_[4] \|\| '';
736
737	0	0				0	if ($modifier =~ /r/oxms) {
738	0	0				0	if ($bind_operator =~ / !~ /oxms) {
739	0					0	croak "Using !~ with tr///r doesn't make sense";
740							}
741							}
742
743	0					0	my @char = $_[0] =~ /\G ($q_char) /oxmsg;
744	0					0	my @searchlist = _charlist_tr($searchlist);
745	0					0	my @replacementlist = _charlist_tr($replacementlist);
746
747	0					0	my %tr = ();
748	0					0	for (my $i=0; $i <= $#searchlist; $i++) {
749	0	0				0	if (not exists $tr{$searchlist[$i]}) {
750	0	0	0			0	if (defined $replacementlist[$i] and ($replacementlist[$i] ne '')) {
		0	0
		0
751	0					0	$tr{$searchlist[$i]} = $replacementlist[$i];
752							}
753							elsif ($modifier =~ /d/oxms) {
754	0					0	$tr{$searchlist[$i]} = '';
755							}
756							elsif (defined $replacementlist[-1] and ($replacementlist[-1] ne '')) {
757	0					0	$tr{$searchlist[$i]} = $replacementlist[-1];
758							}
759							else {
760	0					0	$tr{$searchlist[$i]} = $searchlist[$i];
761							}
762							}
763							}
764
765	0					0	my $tr = 0;
766	0					0	my $replaced = '';
767	0	0				0	if ($modifier =~ /c/oxms) {
768	0					0	while (defined(my $char = shift @char)) {
769	0	0				0	if (not exists $tr{$char}) {
770	0	0				0	if (defined $replacementlist[0]) {
771	0					0	$replaced .= $replacementlist[0];
772							}
773	0					0	$tr++;
774	0	0				0	if ($modifier =~ /s/oxms) {
775	0		0			0	while (@char and (not exists $tr{$char[0]})) {
776	0					0	shift @char;
777	0					0	$tr++;
778							}
779							}
780							}
781							else {
782	0					0	$replaced .= $char;
783							}
784							}
785							}
786							else {
787	0					0	while (defined(my $char = shift @char)) {
788	0	0				0	if (exists $tr{$char}) {
789	0					0	$replaced .= $tr{$char};
790	0					0	$tr++;
791	0	0				0	if ($modifier =~ /s/oxms) {
792	0		0			0	while (@char and (exists $tr{$char[0]}) and ($tr{$char[0]} eq $tr{$char})) {
			0
793	0					0	shift @char;
794	0					0	$tr++;
795							}
796							}
797							}
798							else {
799	0					0	$replaced .= $char;
800							}
801							}
802							}
803
804	0	0				0	if ($modifier =~ /r/oxms) {
805	0					0	return $replaced;
806							}
807							else {
808	0					0	$_[0] = $replaced;
809	0	0				0	if ($bind_operator =~ / !~ /oxms) {
810	0					0	return not $tr;
811							}
812							else {
813	0					0	return $tr;
814							}
815							}
816							}
817
818							#
819							# Latin-6 chop
820							#
821							sub Char::Elatin6::chop(@) {
822
823	0			0	0	0	my $chop;
824	0	0				0	if (@_ == 0) {
825	0					0	my @char = /\G ($q_char) /oxmsg;
826	0					0	$chop = pop @char;
827	0					0	$_ = join '', @char;
828							}
829							else {
830	0					0	for (@_) {
831	0					0	my @char = /\G ($q_char) /oxmsg;
832	0					0	$chop = pop @char;
833	0					0	$_ = join '', @char;
834							}
835							}
836	0					0	return $chop;
837							}
838
839							#
840							# Latin-6 index by octet
841							#
842							sub Char::Elatin6::index($$;$) {
843
844	0			0	1	0	my($str,$substr,$position) = @_;
845	0		0			0	$position \|\|= 0;
846	0					0	my $pos = 0;
847
848	0					0	while ($pos < CORE::length($str)) {
849	0	0				0	if (CORE::substr($str,$pos,CORE::length($substr)) eq $substr) {
850	0	0				0	if ($pos >= $position) {
851	0					0	return $pos;
852							}
853							}
854	0	0				0	if (CORE::substr($str,$pos) =~ /\A ($q_char) /oxms) {
855	0					0	$pos += CORE::length($1);
856							}
857							else {
858	0					0	$pos += 1;
859							}
860							}
861	0					0	return -1;
862							}
863
864							#
865							# Latin-6 reverse index
866							#
867							sub Char::Elatin6::rindex($$;$) {
868
869	0			0	0	0	my($str,$substr,$position) = @_;
870	0		0			0	$position \|\|= CORE::length($str) - 1;
871	0					0	my $pos = 0;
872	0					0	my $rindex = -1;
873
874	0		0			0	while (($pos < CORE::length($str)) and ($pos <= $position)) {
875	0	0				0	if (CORE::substr($str,$pos,CORE::length($substr)) eq $substr) {
876	0					0	$rindex = $pos;
877							}
878	0	0				0	if (CORE::substr($str,$pos) =~ /\A ($q_char) /oxms) {
879	0					0	$pos += CORE::length($1);
880							}
881							else {
882	0					0	$pos += 1;
883							}
884							}
885	0					0	return $rindex;
886							}
887
888							#
889							# Latin-6 lower case first with parameter
890							#
891							sub Char::Elatin6::lcfirst(@) {
892	0	0		0	0	0	if (@_) {
893	0					0	my $s = shift @_;
894	0	0	0			0	if (@_ and wantarray) {
895	0					0	return Char::Elatin6::lc(CORE::substr($s,0,1)) . CORE::substr($s,1), @_;
896							}
897							else {
898	0					0	return Char::Elatin6::lc(CORE::substr($s,0,1)) . CORE::substr($s,1);
899							}
900							}
901							else {
902	0					0	return Char::Elatin6::lc(CORE::substr($_,0,1)) . CORE::substr($_,1);
903							}
904							}
905
906							#
907							# Latin-6 lower case first without parameter
908							#
909							sub Char::Elatin6::lcfirst_() {
910	0			0	0	0	return Char::Elatin6::lc(CORE::substr($_,0,1)) . CORE::substr($_,1);
911							}
912
913							#
914							# Latin-6 lower case with parameter
915							#
916							sub Char::Elatin6::lc(@) {
917	0	0		0	0	0	if (@_) {
918	0					0	my $s = shift @_;
919	0	0	0			0	if (@_ and wantarray) {
920	0	0				0	return join('', map {defined($lc{$_}) ? $lc{$_} : $_} ($s =~ /\G ($q_char) /oxmsg)), @_;
	0					0
921							}
922							else {
923	0	0				0	return join('', map {defined($lc{$_}) ? $lc{$_} : $_} ($s =~ /\G ($q_char) /oxmsg));
	0					0
924							}
925							}
926							else {
927	0					0	return Char::Elatin6::lc_();
928							}
929							}
930
931							#
932							# Latin-6 lower case without parameter
933							#
934							sub Char::Elatin6::lc_() {
935	0			0	0	0	my $s = $_;
936	0	0				0	return join '', map {defined($lc{$_}) ? $lc{$_} : $_} ($s =~ /\G ($q_char) /oxmsg);
	0					0
937							}
938
939							#
940							# Latin-6 upper case first with parameter
941							#
942							sub Char::Elatin6::ucfirst(@) {
943	0	0		0	0	0	if (@_) {
944	0					0	my $s = shift @_;
945	0	0	0			0	if (@_ and wantarray) {
946	0					0	return Char::Elatin6::uc(CORE::substr($s,0,1)) . CORE::substr($s,1), @_;
947							}
948							else {
949	0					0	return Char::Elatin6::uc(CORE::substr($s,0,1)) . CORE::substr($s,1);
950							}
951							}
952							else {
953	0					0	return Char::Elatin6::uc(CORE::substr($_,0,1)) . CORE::substr($_,1);
954							}
955							}
956
957							#
958							# Latin-6 upper case first without parameter
959							#
960							sub Char::Elatin6::ucfirst_() {
961	0			0	0	0	return Char::Elatin6::uc(CORE::substr($_,0,1)) . CORE::substr($_,1);
962							}
963
964							#
965							# Latin-6 upper case with parameter
966							#
967							sub Char::Elatin6::uc(@) {
968	0	0		0	0	0	if (@_) {
969	0					0	my $s = shift @_;
970	0	0	0			0	if (@_ and wantarray) {
971	0	0				0	return join('', map {defined($uc{$_}) ? $uc{$_} : $_} ($s =~ /\G ($q_char) /oxmsg)), @_;
	0					0
972							}
973							else {
974	0	0				0	return join('', map {defined($uc{$_}) ? $uc{$_} : $_} ($s =~ /\G ($q_char) /oxmsg));
	0					0
975							}
976							}
977							else {
978	0					0	return Char::Elatin6::uc_();
979							}
980							}
981
982							#
983							# Latin-6 upper case without parameter
984							#
985							sub Char::Elatin6::uc_() {
986	0			0	0	0	my $s = $_;
987	0	0				0	return join '', map {defined($uc{$_}) ? $uc{$_} : $_} ($s =~ /\G ($q_char) /oxmsg);
	0					0
988							}
989
990							#
991							# Latin-6 fold case with parameter
992							#
993							sub Char::Elatin6::fc(@) {
994	0	0		0	0	0	if (@_) {
995	0					0	my $s = shift @_;
996	0	0	0			0	if (@_ and wantarray) {
997	0	0				0	return join('', map {defined($fc{$_}) ? $fc{$_} : $_} ($s =~ /\G ($q_char) /oxmsg)), @_;
	0					0
998							}
999							else {
1000	0	0				0	return join('', map {defined($fc{$_}) ? $fc{$_} : $_} ($s =~ /\G ($q_char) /oxmsg));
	0					0
1001							}
1002							}
1003							else {
1004	0					0	return Char::Elatin6::fc_();
1005							}
1006							}
1007
1008							#
1009							# Latin-6 fold case without parameter
1010							#
1011							sub Char::Elatin6::fc_() {
1012	0			0	0	0	my $s = $_;
1013	0	0				0	return join '', map {defined($fc{$_}) ? $fc{$_} : $_} ($s =~ /\G ($q_char) /oxmsg);
	0					0
1014							}
1015
1016							#
1017							# Latin-6 regexp capture
1018							#
1019							{
1020							sub Char::Elatin6::capture {
1021	0			0	1	0	return $_[0];
1022							}
1023							}
1024
1025							#
1026							# Latin-6 regexp ignore case modifier
1027							#
1028							sub Char::Elatin6::ignorecase {
1029
1030	0			0	0	0	my @string = @_;
1031	0					0	my $metachar = qr/[\@\\\|[\]{]/oxms;
1032
1033							# ignore case of $scalar or @array
1034	0					0	for my $string (@string) {
1035
1036							# split regexp
1037	0					0	my @char = $string =~ /\G(
1038							\[\^ \|
1039							\\? (?:$q_char)
1040							)/oxmsg;
1041
1042							# unescape character
1043	0					0	for (my $i=0; $i <= $#char; $i++) {
1044	0	0				0	next if not defined $char[$i];
1045
1046							# open character class [...]
1047	0	0				0	if ($char[$i] eq '[') {
		0
		0
		0
1048	0					0	my $left = $i;
1049
1050							# [] make die "unmatched [] in regexp ..."
1051
1052	0	0				0	if ($char[$i+1] eq ']') {
1053	0					0	$i++;
1054							}
1055
1056	0					0	while (1) {
1057	0	0				0	if (++$i > $#char) {
1058	0					0	croak "Unmatched [] in regexp";
1059							}
1060	0	0				0	if ($char[$i] eq ']') {
1061	0					0	my $right = $i;
1062	0					0	my @charlist = charlist_qr(@char[$left+1..$right-1], 'i');
1063
1064							# escape character
1065	0					0	for my $char (@charlist) {
1066	0	0				0	if (0) {
1067							}
1068
1069	0					0	elsif ($char =~ /\A [.\|)] \z/oxms) {
1070	0					0	$char = $1 . '\\' . $char;
1071							}
1072							}
1073
1074							# [...]
1075	0					0	splice @char, $left, $right-$left+1, '(?:' . join('\|', @charlist) . ')';
1076
1077	0					0	$i = $left;
1078	0					0	last;
1079							}
1080							}
1081							}
1082
1083							# open character class [^...]
1084							elsif ($char[$i] eq '[^') {
1085	0					0	my $left = $i;
1086
1087							# [^] make die "unmatched [] in regexp ..."
1088
1089	0	0				0	if ($char[$i+1] eq ']') {
1090	0					0	$i++;
1091							}
1092
1093	0					0	while (1) {
1094	0	0				0	if (++$i > $#char) {
1095	0					0	croak "Unmatched [] in regexp";
1096							}
1097	0	0				0	if ($char[$i] eq ']') {
1098	0					0	my $right = $i;
1099	0					0	my @charlist = charlist_not_qr(@char[$left+1..$right-1], 'i');
1100
1101							# escape character
1102	0					0	for my $char (@charlist) {
1103	0	0				0	if (0) {
1104							}
1105
1106	0					0	elsif ($char =~ /\A [.\|)] \z/oxms) {
1107	0					0	$char = '\\' . $char;
1108							}
1109							}
1110
1111							# [^...]
1112	0					0	splice @char, $left, $right-$left+1, '(?!' . join('\|', @charlist) . ")(?:$your_char)";
1113
1114	0					0	$i = $left;
1115	0					0	last;
1116							}
1117							}
1118							}
1119
1120							# rewrite classic character class or escape character
1121							elsif (my $char = classic_character_class($char[$i])) {
1122	0					0	$char[$i] = $char;
1123							}
1124
1125							# with /i modifier
1126							elsif ($char[$i] =~ /\A [\x00-\xFF] \z/oxms) {
1127	0					0	my $uc = Char::Elatin6::uc($char[$i]);
1128	0					0	my $fc = Char::Elatin6::fc($char[$i]);
1129	0	0				0	if ($uc ne $fc) {
1130	0	0				0	if (CORE::length($fc) == 1) {
1131	0					0	$char[$i] = '[' . $uc . $fc . ']';
1132							}
1133							else {
1134	0					0	$char[$i] = '(?:' . $uc . '\|' . $fc . ')';
1135							}
1136							}
1137							}
1138							}
1139
1140							# characterize
1141	0					0	for (my $i=0; $i <= $#char; $i++) {
1142	0	0				0	next if not defined $char[$i];
1143
1144	0	0				0	if (0) {
1145							}
1146
1147							# quote character before ? + * {
1148	0	0				0	elsif (($i >= 1) and ($char[$i] =~ /\A [\?\+\*\{] \z/oxms)) {
1149	0	0				0	if ($char[$i-1] !~ /\A [\x00-\xFF] \z/oxms) {
1150	0					0	$char[$i-1] = '(?:' . $char[$i-1] . ')';
1151							}
1152							}
1153							}
1154
1155	0					0	$string = join '', @char;
1156							}
1157
1158							# make regexp string
1159	0					0	return @string;
1160							}
1161
1162							#
1163							# classic character class ( \D \S \W \d \s \w \C \X \H \V \h \v \R \N \b \B )
1164							#
1165							sub Char::Elatin6::classic_character_class {
1166	0			0	0	0	my($char) = @_;
1167
1168							return {
1169	0		0			0	'\D' => '${Char::Elatin6::eD}',
1170							'\S' => '${Char::Elatin6::eS}',
1171							'\W' => '${Char::Elatin6::eW}',
1172							'\d' => '[0-9]',
1173
1174							# Before Perl 5.6, \s only matched the five whitespace characters
1175							# tab, newline, form-feed, carriage return, and the space character
1176							# itself, which, taken together, is the character class [\t\n\f\r ].
1177
1178							# Vertical tabs are now whitespace
1179							# \s in a regex now matches a vertical tab in all circumstances.
1180							# http://search.cpan.org/dist/perl-5.18.0/pod/perldelta.pod#Vertical_tabs_are_now_whitespace
1181							# \t \n \v \f \r space
1182							# '\s' => '[\x09\x0A \x0C\x0D\x20]',
1183							# '\s' => '[\x09\x0A\x0B\x0C\x0D\x20]',
1184							'\s' => '\s',
1185
1186							'\w' => '[0-9A-Z_a-z]',
1187							'\C' => '[\x00-\xFF]',
1188							'\X' => 'X',
1189
1190							# \h \v \H \V
1191
1192							# P.114 Character Class Shortcuts
1193							# in Chapter 7: In the World of Regular Expressions
1194							# of ISBN 978-0-596-52010-6 Learning Perl, Fifth Edition
1195
1196							# P.357 13.2.3 Whitespace
1197							# in Chapter 13: perlrecharclass: Perl Regular Expression Character Classes
1198							# of ISBN-13: 978-1-906966-02-7 The Perl Language Reference Manual (for Perl version 5.12.1)
1199							#
1200							# 0x00009 CHARACTER TABULATION h s
1201							# 0x0000a LINE FEED (LF) vs
1202							# 0x0000b LINE TABULATION v
1203							# 0x0000c FORM FEED (FF) vs
1204							# 0x0000d CARRIAGE RETURN (CR) vs
1205							# 0x00020 SPACE h s
1206
1207							# P.196 Table 5-9. Alphanumeric regex metasymbols
1208							# in Chapter 5. Pattern Matching
1209							# of ISBN 978-0-596-00492-7 Programming Perl 4th Edition.
1210
1211							# (and so on)
1212
1213							'\H' => '${Char::Elatin6::eH}',
1214							'\V' => '${Char::Elatin6::eV}',
1215							'\h' => '[\x09\x20]',
1216							'\v' => '[\x0A\x0B\x0C\x0D]',
1217							'\R' => '${Char::Elatin6::eR}',
1218
1219							# \N
1220							#
1221							# http://perldoc.perl.org/perlre.html
1222							# Character Classes and other Special Escapes
1223							# Any character but \n (experimental). Not affected by /s modifier
1224
1225							'\N' => '${Char::Elatin6::eN}',
1226
1227							# \b \B
1228
1229							# P.180 Boundaries: The \b and \B Assertions
1230							# in Chapter 5: Pattern Matching
1231							# of ISBN 0-596-00027-8 Programming Perl Third Edition.
1232
1233							# P.219 Boundaries: The \b and \B Assertions
1234							# in Chapter 5: Pattern Matching
1235							# of ISBN 978-0-596-00492-7 Programming Perl 4th Edition.
1236
1237							# '\b' => '(?:(?<=\A\|\W)(?=\w)\|(?<=\w)(?=\W\|\z))',
1238							'\b' => '${Char::Elatin6::eb}',
1239
1240							# '\B' => '(?:(?<=\w)(?=\w)\|(?<=\W)(?=\W))',
1241							'\B' => '${Char::Elatin6::eB}',
1242
1243							}->{$char} \|\| '';
1244							}
1245
1246							#
1247							# prepare Latin-6 characters per length
1248							#
1249
1250							# 1 octet characters
1251							my @chars1 = ();
1252							sub chars1 {
1253	0	0		0	0	0	if (@chars1) {
1254	0					0	return @chars1;
1255							}
1256	0	0				0	if (exists $range_tr{1}) {
1257	0					0	my @ranges = @{ $range_tr{1} };
	0					0
1258	0					0	while (my @range = splice(@ranges,0,1)) {
1259	0					0	for my $oct0 (@{$range[0]}) {
	0					0
1260	0					0	push @chars1, pack 'C', $oct0;
1261							}
1262							}
1263							}
1264	0					0	return @chars1;
1265							}
1266
1267							# 2 octets characters
1268							my @chars2 = ();
1269							sub chars2 {
1270	0	0		0	0	0	if (@chars2) {
1271	0					0	return @chars2;
1272							}
1273	0	0				0	if (exists $range_tr{2}) {
1274	0					0	my @ranges = @{ $range_tr{2} };
	0					0
1275	0					0	while (my @range = splice(@ranges,0,2)) {
1276	0					0	for my $oct0 (@{$range[0]}) {
	0					0
1277	0					0	for my $oct1 (@{$range[1]}) {
	0					0
1278	0					0	push @chars2, pack 'CC', $oct0,$oct1;
1279							}
1280							}
1281							}
1282							}
1283	0					0	return @chars2;
1284							}
1285
1286							# 3 octets characters
1287							my @chars3 = ();
1288							sub chars3 {
1289	0	0		0	0	0	if (@chars3) {
1290	0					0	return @chars3;
1291							}
1292	0	0				0	if (exists $range_tr{3}) {
1293	0					0	my @ranges = @{ $range_tr{3} };
	0					0
1294	0					0	while (my @range = splice(@ranges,0,3)) {
1295	0					0	for my $oct0 (@{$range[0]}) {
	0					0
1296	0					0	for my $oct1 (@{$range[1]}) {
	0					0
1297	0					0	for my $oct2 (@{$range[2]}) {
	0					0
1298	0					0	push @chars3, pack 'CCC', $oct0,$oct1,$oct2;
1299							}
1300							}
1301							}
1302							}
1303							}
1304	0					0	return @chars3;
1305							}
1306
1307							# 4 octets characters
1308							my @chars4 = ();
1309							sub chars4 {
1310	0	0		0	0	0	if (@chars4) {
1311	0					0	return @chars4;
1312							}
1313	0	0				0	if (exists $range_tr{4}) {
1314	0					0	my @ranges = @{ $range_tr{4} };
	0					0
1315	0					0	while (my @range = splice(@ranges,0,4)) {
1316	0					0	for my $oct0 (@{$range[0]}) {
	0					0
1317	0					0	for my $oct1 (@{$range[1]}) {
	0					0
1318	0					0	for my $oct2 (@{$range[2]}) {
	0					0
1319	0					0	for my $oct3 (@{$range[3]}) {
	0					0
1320	0					0	push @chars4, pack 'CCCC', $oct0,$oct1,$oct2,$oct3;
1321							}
1322							}
1323							}
1324							}
1325							}
1326							}
1327	0					0	return @chars4;
1328							}
1329
1330							#
1331							# Latin-6 open character list for tr
1332							#
1333							sub _charlist_tr {
1334
1335	0			0		0	local $_ = shift @_;
1336
1337							# unescape character
1338	0					0	my @char = ();
1339	0					0	while (not /\G \z/oxmsgc) {
1340	0	0				0	if (/\G (\\0?55\|\\x2[Dd]\|\\-) /oxmsgc) {
		0
		0
		0
		0
		0
		0
1341	0					0	push @char, '\-';
1342							}
1343							elsif (/\G \\ ([0-7]{2,3}) /oxmsgc) {
1344	0					0	push @char, CORE::chr(oct $1);
1345							}
1346							elsif (/\G \\x ([0-9A-Fa-f]{1,2}) /oxmsgc) {
1347	0					0	push @char, CORE::chr(hex $1);
1348							}
1349							elsif (/\G \\c ([\x40-\x5F]) /oxmsgc) {
1350	0					0	push @char, CORE::chr(CORE::ord($1) & 0x1F);
1351							}
1352							elsif (/\G (\\ [0nrtfbae]) /oxmsgc) {
1353	0					0	push @char, {
1354							'\0' => "\0",
1355							'\n' => "\n",
1356							'\r' => "\r",
1357							'\t' => "\t",
1358							'\f' => "\f",
1359							'\b' => "\x08", # \b means backspace in character class
1360							'\a' => "\a",
1361							'\e' => "\e",
1362							}->{$1};
1363							}
1364							elsif (/\G \\ ($q_char) /oxmsgc) {
1365	0					0	push @char, $1;
1366							}
1367							elsif (/\G ($q_char) /oxmsgc) {
1368	0					0	push @char, $1;
1369							}
1370							}
1371
1372							# join separated multiple-octet
1373	0					0	@char = join('',@char) =~ /\G (\\-\|$q_char) /oxmsg;
1374
1375							# unescape '-'
1376	0					0	my @i = ();
1377	0					0	for my $i (0 .. $#char) {
1378	0	0				0	if ($char[$i] eq '\-') {
		0
1379	0					0	$char[$i] = '-';
1380							}
1381							elsif ($char[$i] eq '-') {
1382	0	0	0			0	if ((0 < $i) and ($i < $#char)) {
1383	0					0	push @i, $i;
1384							}
1385							}
1386							}
1387
1388							# open character list (reverse for splice)
1389	0					0	for my $i (CORE::reverse @i) {
1390	0					0	my @range = ();
1391
1392							# range error
1393	0	0	0			0	if ((CORE::length($char[$i-1]) > CORE::length($char[$i+1])) or ($char[$i-1] gt $char[$i+1])) {
1394	0					0	croak "Invalid tr/// range \"\\x" . unpack('H',$char[$i-1]) . '-\x' . unpack('H',$char[$i+1]) . '"';
1395							}
1396
1397							# range of multiple-octet code
1398	0	0				0	if (CORE::length($char[$i-1]) == 1) {
		0
		0
		0
1399	0	0				0	if (CORE::length($char[$i+1]) == 1) {
		0
		0
		0
1400	0	0				0	push @range, grep {($char[$i-1] le $_) and ($_ le $char[$i+1])} chars1();
	0					0
1401							}
1402							elsif (CORE::length($char[$i+1]) == 2) {
1403	0					0	push @range, grep {$char[$i-1] le $_} chars1();
	0					0
1404	0					0	push @range, grep {$_ le $char[$i+1]} chars2();
	0					0
1405							}
1406							elsif (CORE::length($char[$i+1]) == 3) {
1407	0					0	push @range, grep {$char[$i-1] le $_} chars1();
	0					0
1408	0					0	push @range, chars2();
1409	0					0	push @range, grep {$_ le $char[$i+1]} chars3();
	0					0
1410							}
1411							elsif (CORE::length($char[$i+1]) == 4) {
1412	0					0	push @range, grep {$char[$i-1] le $_} chars1();
	0					0
1413	0					0	push @range, chars2();
1414	0					0	push @range, chars3();
1415	0					0	push @range, grep {$_ le $char[$i+1]} chars4();
	0					0
1416							}
1417							else {
1418	0					0	croak "Invalid tr/// range (over 4octets) \"\\x" . unpack('H',$char[$i-1]) . '-\x' . unpack('H',$char[$i+1]) . '"';
1419							}
1420							}
1421							elsif (CORE::length($char[$i-1]) == 2) {
1422	0	0				0	if (CORE::length($char[$i+1]) == 2) {
		0
		0
1423	0	0				0	push @range, grep {($char[$i-1] le $_) and ($_ le $char[$i+1])} chars2();
	0					0
1424							}
1425							elsif (CORE::length($char[$i+1]) == 3) {
1426	0					0	push @range, grep {$char[$i-1] le $_} chars2();
	0					0
1427	0					0	push @range, grep {$_ le $char[$i+1]} chars3();
	0					0
1428							}
1429							elsif (CORE::length($char[$i+1]) == 4) {
1430	0					0	push @range, grep {$char[$i-1] le $_} chars2();
	0					0
1431	0					0	push @range, chars3();
1432	0					0	push @range, grep {$_ le $char[$i+1]} chars4();
	0					0
1433							}
1434							else {
1435	0					0	croak "Invalid tr/// range (over 4octets) \"\\x" . unpack('H',$char[$i-1]) . '-\x' . unpack('H',$char[$i+1]) . '"';
1436							}
1437							}
1438							elsif (CORE::length($char[$i-1]) == 3) {
1439	0	0				0	if (CORE::length($char[$i+1]) == 3) {
		0
1440	0	0				0	push @range, grep {($char[$i-1] le $_) and ($_ le $char[$i+1])} chars3();
	0					0
1441							}
1442							elsif (CORE::length($char[$i+1]) == 4) {
1443	0					0	push @range, grep {$char[$i-1] le $_} chars3();
	0					0
1444	0					0	push @range, grep {$_ le $char[$i+1]} chars4();
	0					0
1445							}
1446							else {
1447	0					0	croak "Invalid tr/// range (over 4octets) \"\\x" . unpack('H',$char[$i-1]) . '-\x' . unpack('H',$char[$i+1]) . '"';
1448							}
1449							}
1450							elsif (CORE::length($char[$i-1]) == 4) {
1451	0	0				0	if (CORE::length($char[$i+1]) == 4) {
1452	0	0				0	push @range, grep {($char[$i-1] le $_) and ($_ le $char[$i+1])} chars4();
	0					0
1453							}
1454							else {
1455	0					0	croak "Invalid tr/// range (over 4octets) \"\\x" . unpack('H',$char[$i-1]) . '-\x' . unpack('H',$char[$i+1]) . '"';
1456							}
1457							}
1458							else {
1459	0					0	croak "Invalid tr/// range (over 4octets) \"\\x" . unpack('H',$char[$i-1]) . '-\x' . unpack('H',$char[$i+1]) . '"';
1460							}
1461
1462	0					0	splice @char, $i-1, 3, @range;
1463							}
1464
1465	0					0	return @char;
1466							}
1467
1468							#
1469							# Latin-6 open character class
1470							#
1471							sub _cc {
1472	0	0		0		0	if (scalar(@_) == 0) {
		0
		0
1473	0					0	die __FILE__, ": subroutine cc got no parameter.";
1474							}
1475							elsif (scalar(@_) == 1) {
1476	0					0	return sprintf('\x%02X',$_[0]);
1477							}
1478							elsif (scalar(@_) == 2) {
1479	0	0				0	if ($_[0] > $_[1]) {
		0
		0
1480	0					0	die __FILE__, ": subroutine cc got \$_[0] > \$_[1] parameters).";
1481							}
1482							elsif ($_[0] == $_[1]) {
1483	0					0	return sprintf('\x%02X',$_[0]);
1484							}
1485							elsif (($_[0]+1) == $_[1]) {
1486	0					0	return sprintf('[\\x%02X\\x%02X]',$_[0],$_[1]);
1487							}
1488							else {
1489	0					0	return sprintf('[\\x%02X-\\x%02X]',$_[0],$_[1]);
1490							}
1491							}
1492							else {
1493	0					0	die __FILE__, ": subroutine cc got 3 or more parameters (@{[scalar(@_)]} parameters).";
	0					0
1494							}
1495							}
1496
1497							#
1498							# Latin-6 octet range
1499							#
1500							sub _octets {
1501	0			0		0	my $length = shift @_;
1502
1503	0	0				0	if ($length == 1) {
1504	0					0	my($a1) = unpack 'C', $_[0];
1505	0					0	my($z1) = unpack 'C', $_[1];
1506
1507	0	0				0	if ($a1 > $z1) {
1508	0					0	croak 'Invalid [] range in regexp (CORE::ord(A) > CORE::ord(B)) ' . '\x' . unpack('H',$a1) . '-\x' . unpack('H',$z1);
1509							}
1510
1511	0	0				0	if ($a1 == $z1) {
		0
1512	0					0	return sprintf('\x%02X',$a1);
1513							}
1514							elsif (($a1+1) == $z1) {
1515	0					0	return sprintf('\x%02X\x%02X',$a1,$z1);
1516							}
1517							else {
1518	0					0	return sprintf('\x%02X-\x%02X',$a1,$z1);
1519							}
1520							}
1521							else {
1522	0					0	die __FILE__, ": subroutine _octets got invalid length ($length).";
1523							}
1524							}
1525
1526							#
1527							# Latin-6 range regexp
1528							#
1529							sub _range_regexp {
1530	0			0		0	my($length,$first,$last) = @_;
1531
1532	0					0	my @range_regexp = ();
1533	0	0				0	if (not exists $range_tr{$length}) {
1534	0					0	return @range_regexp;
1535							}
1536
1537	0					0	my @ranges = @{ $range_tr{$length} };
	0					0
1538	0					0	while (my @range = splice(@ranges,0,$length)) {
1539	0					0	my $min = '';
1540	0					0	my $max = '';
1541	0					0	for (my $i=0; $i < $length; $i++) {
1542	0					0	$min .= pack 'C', $range[$i][0];
1543	0					0	$max .= pack 'C', $range[$i][-1];
1544							}
1545
1546							# min___max
1547							# FIRST_____________LAST
1548							# (nothing)
1549
1550	0	0	0			0	if ($max lt $first) {
		0	0
		0	0
		0	0
		0	0
		0	0
		0	0
1551							}
1552
1553							# **********
1554							# min_________max
1555							# FIRST_____________LAST
1556							# **********
1557
1558							elsif (($min le $first) and ($first le $max) and ($max le $last)) {
1559	0					0	push @range_regexp, _octets($length,$first,$max,$min,$max);
1560							}
1561
1562							# **********************
1563							# min________________max
1564							# FIRST_____________LAST
1565							# **********************
1566
1567							elsif (($min eq $first) and ($max eq $last)) {
1568	0					0	push @range_regexp, _octets($length,$first,$last,$min,$max);
1569							}
1570
1571							# *********
1572							# min___max
1573							# FIRST_____________LAST
1574							# *********
1575
1576							elsif (($first le $min) and ($max le $last)) {
1577	0					0	push @range_regexp, _octets($length,$min,$max,$min,$max);
1578							}
1579
1580							# **********************
1581							# min__________________________max
1582							# FIRST_____________LAST
1583							# **********************
1584
1585							elsif (($min le $first) and ($last le $max)) {
1586	0					0	push @range_regexp, _octets($length,$first,$last,$min,$max);
1587							}
1588
1589							# *********
1590							# min________max
1591							# FIRST_____________LAST
1592							# *********
1593
1594							elsif (($first le $min) and ($min le $last) and ($last le $max)) {
1595	0					0	push @range_regexp, _octets($length,$min,$last,$min,$max);
1596							}
1597
1598							# min___max
1599							# FIRST_____________LAST
1600							# (nothing)
1601
1602							elsif ($last lt $min) {
1603							}
1604
1605							else {
1606	0					0	die __FILE__, ": subroutine _range_regexp panic.";
1607							}
1608							}
1609
1610	0					0	return @range_regexp;
1611							}
1612
1613							#
1614							# Latin-6 open character list for qr and not qr
1615							#
1616							sub _charlist {
1617
1618	0			0		0	my $modifier = pop @_;
1619	0					0	my @char = @_;
1620
1621	0	0				0	my $ignorecase = ($modifier =~ /i/oxms) ? 1 : 0;
1622
1623							# unescape character
1624	0					0	for (my $i=0; $i <= $#char; $i++) {
1625
1626							# escape - to ...
1627	0	0	0			0	if ($char[$i] eq '-') {
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
		0
1628	0	0	0			0	if ((0 < $i) and ($i < $#char)) {
1629	0					0	$char[$i] = '...';
1630							}
1631							}
1632
1633							# octal escape sequence
1634							elsif ($char[$i] =~ /\A \\o \{ ([0-7]+) \} \z/oxms) {
1635	0					0	$char[$i] = octchr($1);
1636							}
1637
1638							# hexadecimal escape sequence
1639							elsif ($char[$i] =~ /\A \\x \{ ([0-9A-Fa-f]+) \} \z/oxms) {
1640	0					0	$char[$i] = hexchr($1);
1641							}
1642
1643							# \N{CHARNAME} --> N\{CHARNAME}
1644							elsif ($char[$i] =~ /\A \\ (N) ( \{ ([^0-9\}][^\}]*) \} ) \z/oxms) {
1645	0					0	$char[$i] = $1 . '\\' . $2;
1646							}
1647
1648							# \p{PROPERTY} --> p\{PROPERTY}
1649							elsif ($char[$i] =~ /\A \\ (p) ( \{ ([^0-9\}][^\}]*) \} ) \z/oxms) {
1650	0					0	$char[$i] = $1 . '\\' . $2;
1651							}
1652
1653							# \P{PROPERTY} --> P\{PROPERTY}
1654							elsif ($char[$i] =~ /\A \\ (P) ( \{ ([^0-9\}][^\}]*) \} ) \z/oxms) {
1655	0					0	$char[$i] = $1 . '\\' . $2;
1656							}
1657
1658							# \p, \P, \X --> p, P, X
1659							elsif ($char[$i] =~ /\A \\ ( [pPX] ) \z/oxms) {
1660	0					0	$char[$i] = $1;
1661							}
1662
1663							elsif ($char[$i] =~ /\A \\ ([0-7]{2,3}) \z/oxms) {
1664	0					0	$char[$i] = CORE::chr oct $1;
1665							}
1666							elsif ($char[$i] =~ /\A \\x ([0-9A-Fa-f]{1,2}) \z/oxms) {
1667	0					0	$char[$i] = CORE::chr hex $1;
1668							}
1669							elsif ($char[$i] =~ /\A \\c ([\x40-\x5F]) \z/oxms) {
1670	0					0	$char[$i] = CORE::chr(CORE::ord($1) & 0x1F);
1671							}
1672							elsif ($char[$i] =~ /\A (\\ [0nrtfbaedswDSWHVhvR]) \z/oxms) {
1673	0					0	$char[$i] = {
1674							'\0' => "\0",
1675							'\n' => "\n",
1676							'\r' => "\r",
1677							'\t' => "\t",
1678							'\f' => "\f",
1679							'\b' => "\x08", # \b means backspace in character class
1680							'\a' => "\a",
1681							'\e' => "\e",
1682							'\d' => '[0-9]',
1683
1684							# Vertical tabs are now whitespace
1685							# \s in a regex now matches a vertical tab in all circumstances.
1686							# http://search.cpan.org/dist/perl-5.18.0/pod/perldelta.pod#Vertical_tabs_are_now_whitespace
1687							# \t \n \v \f \r space
1688							# '\s' => '[\x09\x0A \x0C\x0D\x20]',
1689							# '\s' => '[\x09\x0A\x0B\x0C\x0D\x20]',
1690							'\s' => '\s',
1691
1692							'\w' => '[0-9A-Z_a-z]',
1693							'\D' => '${Char::Elatin6::eD}',
1694							'\S' => '${Char::Elatin6::eS}',
1695							'\W' => '${Char::Elatin6::eW}',
1696
1697							'\H' => '${Char::Elatin6::eH}',
1698							'\V' => '${Char::Elatin6::eV}',
1699							'\h' => '[\x09\x20]',
1700							'\v' => '[\x0A\x0B\x0C\x0D]',
1701							'\R' => '${Char::Elatin6::eR}',
1702
1703							}->{$1};
1704							}
1705
1706							# POSIX-style character classes
1707							elsif ($ignorecase and ($char[$i] =~ /\A ( \[\: \^? (?:lower\|upper) :\] ) \z/oxms)) {
1708	0					0	$char[$i] = {
1709
1710							'[:lower:]' => '[\x41-\x5A\x61-\x7A]',
1711							'[:upper:]' => '[\x41-\x5A\x61-\x7A]',
1712							'[:^lower:]' => '${Char::Elatin6::not_lower_i}',
1713							'[:^upper:]' => '${Char::Elatin6::not_upper_i}',
1714
1715							}->{$1};
1716							}
1717							elsif ($char[$i] =~ /\A ( \[\: \^? (?:alnum\|alpha\|ascii\|blank\|cntrl\|digit\|graph\|lower\|print\|punct\|space\|upper\|word\|xdigit) :\] ) \z/oxms) {
1718	0					0	$char[$i] = {
1719
1720							'[:alnum:]' => '[\x30-\x39\x41-\x5A\x61-\x7A]',
1721							'[:alpha:]' => '[\x41-\x5A\x61-\x7A]',
1722							'[:ascii:]' => '[\x00-\x7F]',
1723							'[:blank:]' => '[\x09\x20]',
1724							'[:cntrl:]' => '[\x00-\x1F\x7F]',
1725							'[:digit:]' => '[\x30-\x39]',
1726							'[:graph:]' => '[\x21-\x7F]',
1727							'[:lower:]' => '[\x61-\x7A]',
1728							'[:print:]' => '[\x20-\x7F]',
1729							'[:punct:]' => '[\x21-\x2F\x3A-\x3F\x40\x5B-\x5F\x60\x7B-\x7E]',
1730
1731							# P.174 POSIX-Style Character Classes
1732							# in Chapter 5: Pattern Matching
1733							# of ISBN 0-596-00027-8 Programming Perl Third Edition.
1734
1735							# P.311 11.2.4 Character Classes and other Special Escapes
1736							# in Chapter 11: perlre: Perl regular expressions
1737							# of ISBN-13: 978-1-906966-02-7 The Perl Language Reference Manual (for Perl version 5.12.1)
1738
1739							# P.210 POSIX-Style Character Classes
1740							# in Chapter 5: Pattern Matching
1741							# of ISBN 978-0-596-00492-7 Programming Perl 4th Edition.
1742
1743							'[:space:]' => '[\s\x0B]', # "\s" plus vertical tab ("\cK")
1744
1745							'[:upper:]' => '[\x41-\x5A]',
1746							'[:word:]' => '[\x30-\x39\x41-\x5A\x5F\x61-\x7A]',
1747							'[:xdigit:]' => '[\x30-\x39\x41-\x46\x61-\x66]',
1748							'[:^alnum:]' => '${Char::Elatin6::not_alnum}',
1749							'[:^alpha:]' => '${Char::Elatin6::not_alpha}',
1750							'[:^ascii:]' => '${Char::Elatin6::not_ascii}',
1751							'[:^blank:]' => '${Char::Elatin6::not_blank}',
1752							'[:^cntrl:]' => '${Char::Elatin6::not_cntrl}',
1753							'[:^digit:]' => '${Char::Elatin6::not_digit}',
1754							'[:^graph:]' => '${Char::Elatin6::not_graph}',
1755							'[:^lower:]' => '${Char::Elatin6::not_lower}',
1756							'[:^print:]' => '${Char::Elatin6::not_print}',
1757							'[:^punct:]' => '${Char::Elatin6::not_punct}',
1758							'[:^space:]' => '${Char::Elatin6::not_space}',
1759							'[:^upper:]' => '${Char::Elatin6::not_upper}',
1760							'[:^word:]' => '${Char::Elatin6::not_word}',
1761							'[:^xdigit:]' => '${Char::Elatin6::not_xdigit}',
1762
1763							}->{$1};
1764							}
1765							elsif ($char[$i] =~ /\A \\ ($q_char) \z/oxms) {
1766	0					0	$char[$i] = $1;
1767							}
1768							}
1769
1770							# open character list
1771	0					0	my @singleoctet = ();
1772	0					0	my @multipleoctet = ();
1773	0					0	for (my $i=0; $i <= $#char; ) {
1774
1775							# escaped -
1776	0	0	0			0	if (defined($char[$i+1]) and ($char[$i+1] eq '...')) {
		0
		0
		0
		0
		0
1777	0					0	$i += 1;
1778	0					0	next;
1779							}
1780
1781							# make range regexp
1782							elsif ($char[$i] eq '...') {
1783
1784							# range error
1785	0	0				0	if (CORE::length($char[$i-1]) > CORE::length($char[$i+1])) {
		0
1786	0					0	croak 'Invalid [] range in regexp (length(A) > length(B)) ' . '\x' . unpack('H',$char[$i-1]) . '-\x' . unpack('H',$char[$i+1]);
1787							}
1788							elsif (CORE::length($char[$i-1]) == CORE::length($char[$i+1])) {
1789	0	0				0	if ($char[$i-1] gt $char[$i+1]) {
1790	0					0	croak 'Invalid [] range in regexp (CORE::ord(A) > CORE::ord(B)) ' . '\x' . unpack('H',$char[$i-1]) . '-\x' . unpack('H',$char[$i+1]);
1791							}
1792							}
1793
1794							# make range regexp per length
1795	0					0	for my $length (CORE::length($char[$i-1]) .. CORE::length($char[$i+1])) {
1796	0					0	my @regexp = ();
1797
1798							# is first and last
1799	0	0	0			0	if (($length == CORE::length($char[$i-1])) and ($length == CORE::length($char[$i+1]))) {
		0	0
		0
		0
1800	0					0	push @regexp, _range_regexp($length, $char[$i-1], $char[$i+1]);
1801							}
1802
1803							# is first
1804							elsif ($length == CORE::length($char[$i-1])) {
1805	0					0	push @regexp, _range_regexp($length, $char[$i-1], "\xFF" x $length);
1806							}
1807
1808							# is inside in first and last
1809							elsif ((CORE::length($char[$i-1]) < $length) and ($length < CORE::length($char[$i+1]))) {
1810	0					0	push @regexp, _range_regexp($length, "\x00" x $length, "\xFF" x $length);
1811							}
1812
1813							# is last
1814							elsif ($length == CORE::length($char[$i+1])) {
1815	0					0	push @regexp, _range_regexp($length, "\x00" x $length, $char[$i+1]);
1816							}
1817
1818							else {
1819	0					0	die __FILE__, ": subroutine make_regexp panic.";
1820							}
1821
1822	0	0				0	if ($length == 1) {
1823	0					0	push @singleoctet, @regexp;
1824							}
1825							else {
1826	0					0	push @multipleoctet, @regexp;
1827							}
1828							}
1829
1830	0					0	$i += 2;
1831							}
1832
1833							# with /i modifier
1834							elsif ($char[$i] =~ /\A [\x00-\xFF] \z/oxms) {
1835	0	0				0	if ($modifier =~ /i/oxms) {
1836	0					0	my $uc = Char::Elatin6::uc($char[$i]);
1837	0					0	my $fc = Char::Elatin6::fc($char[$i]);
1838	0	0				0	if ($uc ne $fc) {
1839	0	0				0	if (CORE::length($fc) == 1) {
1840	0					0	push @singleoctet, $uc, $fc;
1841							}
1842							else {
1843	0					0	push @singleoctet, $uc;
1844	0					0	push @multipleoctet, $fc;
1845							}
1846							}
1847							else {
1848	0					0	push @singleoctet, $char[$i];
1849							}
1850							}
1851							else {
1852	0					0	push @singleoctet, $char[$i];
1853							}
1854	0					0	$i += 1;
1855							}
1856
1857							# single character of single octet code
1858							elsif ($char[$i] =~ /\A (?: \\h ) \z/oxms) {
1859	0					0	push @singleoctet, "\t", "\x20";
1860	0					0	$i += 1;
1861							}
1862							elsif ($char[$i] =~ /\A (?: \\v ) \z/oxms) {
1863	0					0	push @singleoctet, "\x0A", "\x0B", "\x0C", "\x0D";
1864	0					0	$i += 1;
1865							}
1866							elsif ($char[$i] =~ /\A (?: \\d \| \\s \| \\w ) \z/oxms) {
1867	0					0	push @singleoctet, $char[$i];
1868	0					0	$i += 1;
1869							}
1870
1871							# single character of multiple-octet code
1872							else {
1873	0					0	push @multipleoctet, $char[$i];
1874	0					0	$i += 1;
1875							}
1876							}
1877
1878							# quote metachar
1879	0					0	for (@singleoctet) {
1880	0	0				0	if ($_ eq '...') {
		0
		0
		0
		0
1881	0					0	$_ = '-';
1882							}
1883							elsif (/\A \n \z/oxms) {
1884	0					0	$_ = '\n';
1885							}
1886							elsif (/\A \r \z/oxms) {
1887	0					0	$_ = '\r';
1888							}
1889							elsif (/\A ([\x00-\x20\x7F-\xFF]) \z/oxms) {
1890	0					0	$_ = sprintf('\x%02X', CORE::ord $1);
1891							}
1892							elsif (/\A [\x00-\xFF] \z/oxms) {
1893	0					0	$_ = quotemeta $_;
1894							}
1895							}
1896
1897							# return character list
1898	0					0	return \@singleoctet, \@multipleoctet;
1899							}
1900
1901							#
1902							# Latin-6 octal escape sequence
1903							#
1904							sub octchr {
1905	0			0	0	0	my($octdigit) = @_;
1906
1907	0					0	my @binary = ();
1908	0					0	for my $octal (split(//,$octdigit)) {
1909	0					0	push @binary, {
1910							'0' => '000',
1911							'1' => '001',
1912							'2' => '010',
1913							'3' => '011',
1914							'4' => '100',
1915							'5' => '101',
1916							'6' => '110',
1917							'7' => '111',
1918							}->{$octal};
1919							}
1920	0					0	my $binary = join '', @binary;
1921
1922	0					0	my $octchr = {
1923							# 1234567
1924							1 => pack('B*', "0000000$binary"),
1925							2 => pack('B*', "000000$binary"),
1926							3 => pack('B*', "00000$binary"),
1927							4 => pack('B*', "0000$binary"),
1928							5 => pack('B*', "000$binary"),
1929							6 => pack('B*', "00$binary"),
1930							7 => pack('B*', "0$binary"),
1931							0 => pack('B*', "$binary"),
1932
1933							}->{CORE::length($binary) % 8};
1934
1935	0					0	return $octchr;
1936							}
1937
1938							#
1939							# Latin-6 hexadecimal escape sequence
1940							#
1941							sub hexchr {
1942	0			0	0	0	my($hexdigit) = @_;
1943
1944	0					0	my $hexchr = {
1945							1 => pack('H*', "0$hexdigit"),
1946							0 => pack('H*', "$hexdigit"),
1947
1948							}->{CORE::length($_[0]) % 2};
1949
1950	0					0	return $hexchr;
1951							}
1952
1953							#
1954							# Latin-6 open character list for qr
1955							#
1956							sub charlist_qr {
1957
1958	0			0	0	0	my $modifier = pop @_;
1959	0					0	my @char = @_;
1960
1961	0					0	my($singleoctet, $multipleoctet) = _charlist(@char, $modifier);
1962	0					0	my @singleoctet = @$singleoctet;
1963	0					0	my @multipleoctet = @$multipleoctet;
1964
1965							# return character list
1966	0	0				0	if (scalar(@singleoctet) >= 1) {
1967
1968							# with /i modifier
1969	0	0				0	if ($modifier =~ m/i/oxms) {
1970	0					0	my %singleoctet_ignorecase = ();
1971	0					0	for (@singleoctet) {
1972	0		0			0	while (s/ \A \\x(..) - \\x(..) //oxms or s/ \A \\x((..)) //oxms) {
1973	0					0	for my $ord (hex($1) .. hex($2)) {
1974	0					0	my $char = CORE::chr($ord);
1975	0					0	my $uc = Char::Elatin6::uc($char);
1976	0					0	my $fc = Char::Elatin6::fc($char);
1977	0	0				0	if ($uc eq $fc) {
1978	0					0	$singleoctet_ignorecase{unpack 'C*', $char} = 1;
1979							}
1980							else {
1981	0	0				0	if (CORE::length($fc) == 1) {
1982	0					0	$singleoctet_ignorecase{unpack 'C*', $uc} = 1;
1983	0					0	$singleoctet_ignorecase{unpack 'C*', $fc} = 1;
1984							}
1985							else {
1986	0					0	$singleoctet_ignorecase{unpack 'C*', $uc} = 1;
1987	0					0	push @multipleoctet, join '', map {sprintf('\x%02X',$_)} unpack 'C*', $fc;
	0					0
1988							}
1989							}
1990							}
1991							}
1992	0	0				0	if ($_ ne '') {
1993	0					0	$singleoctet_ignorecase{unpack 'C*', $_} = 1;
1994							}
1995							}
1996	0					0	my $i = 0;
1997	0					0	my @singleoctet_ignorecase = ();
1998	0					0	for my $ord (0 .. 255) {
1999	0	0				0	if (exists $singleoctet_ignorecase{$ord}) {
2000	0					0	push @{$singleoctet_ignorecase[$i]}, $ord;
	0					0
2001							}
2002							else {
2003	0					0	$i++;
2004							}
2005							}
2006	0					0	@singleoctet = ();
2007	0					0	for my $range (@singleoctet_ignorecase) {
2008	0	0				0	if (ref $range) {
2009	0	0				0	if (scalar(@{$range}) == 1) {
	0	0				0
	0					0
2010	0					0	push @singleoctet, sprintf('\x%02X', @{$range}[0]);
	0					0
2011							}
2012							elsif (scalar(@{$range}) == 2) {
2013	0					0	push @singleoctet, sprintf('\x%02X\x%02X', @{$range}[0], @{$range}[-1]);
	0					0
	0					0
2014							}
2015							else {
2016	0					0	push @singleoctet, sprintf('\x%02X-\x%02X', @{$range}[0], @{$range}[-1]);
	0					0
	0					0
2017							}
2018							}
2019							}
2020							}
2021
2022	0					0	my $not_anchor = '';
2023
2024	0					0	push @multipleoctet, join('', $not_anchor, '[', @singleoctet, ']' );
2025							}
2026	0	0				0	if (scalar(@multipleoctet) >= 2) {
2027	0					0	return '(?:' . join('\|', @multipleoctet) . ')';
2028							}
2029							else {
2030	0					0	return $multipleoctet[0];
2031							}
2032							}
2033
2034							#
2035							# Latin-6 open character list for not qr
2036							#
2037							sub charlist_not_qr {
2038
2039	0			0	0	0	my $modifier = pop @_;
2040	0					0	my @char = @_;
2041
2042	0					0	my($singleoctet, $multipleoctet) = _charlist(@char, $modifier);
2043	0					0	my @singleoctet = @$singleoctet;
2044	0					0	my @multipleoctet = @$multipleoctet;
2045
2046							# with /i modifier
2047	0	0				0	if ($modifier =~ m/i/oxms) {
2048	0					0	my %singleoctet_ignorecase = ();
2049	0					0	for (@singleoctet) {
2050	0		0			0	while (s/ \A \\x(..) - \\x(..) //oxms or s/ \A \\x((..)) //oxms) {
2051	0					0	for my $ord (hex($1) .. hex($2)) {
2052	0					0	my $char = CORE::chr($ord);
2053	0					0	my $uc = Char::Elatin6::uc($char);
2054	0					0	my $fc = Char::Elatin6::fc($char);
2055	0	0				0	if ($uc eq $fc) {
2056	0					0	$singleoctet_ignorecase{unpack 'C*', $char} = 1;
2057							}
2058							else {
2059	0	0				0	if (CORE::length($fc) == 1) {
2060	0					0	$singleoctet_ignorecase{unpack 'C*', $uc} = 1;
2061	0					0	$singleoctet_ignorecase{unpack 'C*', $fc} = 1;
2062							}
2063							else {
2064	0					0	$singleoctet_ignorecase{unpack 'C*', $uc} = 1;
2065	0					0	push @multipleoctet, join '', map {sprintf('\x%02X',$_)} unpack 'C*', $fc;
	0					0
2066							}
2067							}
2068							}
2069							}
2070	0	0				0	if ($_ ne '') {
2071	0					0	$singleoctet_ignorecase{unpack 'C*', $_} = 1;
2072							}
2073							}
2074	0					0	my $i = 0;
2075	0					0	my @singleoctet_ignorecase = ();
2076	0					0	for my $ord (0 .. 255) {
2077	0	0				0	if (exists $singleoctet_ignorecase{$ord}) {
2078	0					0	push @{$singleoctet_ignorecase[$i]}, $ord;
	0					0
2079							}
2080							else {
2081	0					0	$i++;
2082							}
2083							}
2084	0					0	@singleoctet = ();
2085	0					0	for my $range (@singleoctet_ignorecase) {
2086	0	0				0	if (ref $range) {
2087	0	0				0	if (scalar(@{$range}) == 1) {
	0	0				0
	0					0
2088	0					0	push @singleoctet, sprintf('\x%02X', @{$range}[0]);
	0					0
2089							}
2090							elsif (scalar(@{$range}) == 2) {
2091	0					0	push @singleoctet, sprintf('\x%02X\x%02X', @{$range}[0], @{$range}[-1]);
	0					0
	0					0
2092							}
2093							else {
2094	0					0	push @singleoctet, sprintf('\x%02X-\x%02X', @{$range}[0], @{$range}[-1]);
	0					0
	0					0
2095							}
2096							}
2097							}
2098							}
2099
2100							# return character list
2101	0	0				0	if (scalar(@multipleoctet) >= 1) {
2102	0	0				0	if (scalar(@singleoctet) >= 1) {
2103
2104							# any character other than multiple-octet and single octet character class
2105	0					0	return '(?!' . join('\|', @multipleoctet) . ')(?:[^' . join('', @singleoctet) . '])';
2106							}
2107							else {
2108
2109							# any character other than multiple-octet character class
2110	0					0	return '(?!' . join('\|', @multipleoctet) . ")(?:$your_char)";
2111							}
2112							}
2113							else {
2114	0	0				0	if (scalar(@singleoctet) >= 1) {
2115
2116							# any character other than single octet character class
2117	0					0	return '(?:[^' . join('', @singleoctet) . '])';
2118							}
2119							else {
2120
2121							# any character
2122	0					0	return "(?:$your_char)";
2123							}
2124							}
2125							}
2126
2127							#
2128							# open file in read mode
2129							#
2130							sub _open_r {
2131	177			177		695	my(undef,$file) = @_;
2132	177					837	$file =~ s#\A (\s) #./$1#oxms;
2133	177		33			17867	return eval(q{open($_[0],'<',$_[1])}) \|\|
2134							open($_[0],"< $file\0");
2135							}
2136
2137							#
2138							# open file in write mode
2139							#
2140							sub _open_w {
2141	0			0		0	my(undef,$file) = @_;
2142	0					0	$file =~ s#\A (\s) #./$1#oxms;
2143	0		0			0	return eval(q{open($_[0],'>',$_[1])}) \|\|
2144							open($_[0],"> $file\0");
2145							}
2146
2147							#
2148							# open file in append mode
2149							#
2150							sub _open_a {
2151	0			0		0	my(undef,$file) = @_;
2152	0					0	$file =~ s#\A (\s) #./$1#oxms;
2153	0		0			0	return eval(q{open($_[0],'>>',$_[1])}) \|\|
2154							open($_[0],">> $file\0");
2155							}
2156
2157							#
2158							# safe system
2159							#
2160							sub _systemx {
2161
2162							# P.707 29.2.33. exec
2163							# in Chapter 29: Functions
2164							# of ISBN 0-596-00027-8 Programming Perl Third Edition.
2165							#
2166							# Be aware that in older releases of Perl, exec (and system) did not flush
2167							# your output buffer, so you needed to enable command buffering by setting $\|
2168							# on one or more filehandles to avoid lost output in the case of exec, or
2169							# misordererd output in the case of system. This situation was largely remedied
2170							# in the 5.6 release of Perl. (So, 5.005 release not yet.)
2171
2172							# P.855 exec
2173							# in Chapter 27: Functions
2174							# of ISBN 978-0-596-00492-7 Programming Perl 4th Edition.
2175							#
2176							# In very old release of Perl (before v5.6), exec (and system) did not flush
2177							# your output buffer, so you needed to enable command buffering by setting $\|
2178							# on one or more filehandles to avoid lost output with exec or misordered
2179							# output with system.
2180
2181	177			177		746	$\| = 1;
2182
2183							# P.565 23.1.2. Cleaning Up Your Environment
2184							# in Chapter 23: Security
2185							# of ISBN 0-596-00027-8 Programming Perl Third Edition.
2186
2187							# P.656 Cleaning Up Your Environment
2188							# in Chapter 20: Security
2189							# of ISBN 978-0-596-00492-7 Programming Perl 4th Edition.
2190
2191							# local $ENV{'PATH'} = '.';
2192	177					2109	local @ENV{qw(IFS CDPATH ENV BASH_ENV)}; # Make %ENV safer
2193
2194							# P.707 29.2.33. exec
2195							# in Chapter 29: Functions
2196							# of ISBN 0-596-00027-8 Programming Perl Third Edition.
2197							#
2198							# As we mentioned earlier, exec treats a discrete list of arguments as an
2199							# indication that it should bypass shell processing. However, there is one
2200							# place where you might still get tripped up. The exec call (and system, too)
2201							# will not distinguish between a single scalar argument and an array containing
2202							# only one element.
2203							#
2204							# @args = ("echo surprise"); # just one element in list
2205							# exec @args # still subject to shell escapes
2206							# or die "exec: $!"; # because @args == 1
2207							#
2208							# To avoid this, you can use the PATHNAME syntax, explicitly duplicating the
2209							# first argument as the pathname, which forces the rest of the arguments to be
2210							# interpreted as a list, even if there is only one of them:
2211							#
2212							# exec { $args[0] } @args # safe even with one-argument list
2213							# or die "can't exec @args: $!";
2214
2215							# P.855 exec
2216							# in Chapter 27: Functions
2217							# of ISBN 978-0-596-00492-7 Programming Perl 4th Edition.
2218							#
2219							# As we mentioned earlier, exec treats a discrete list of arguments as a
2220							# directive to bypass shell processing. However, there is one place where
2221							# you might still get tripped up. The exec call (and system, too) cannot
2222							# distinguish between a single scalar argument and an array containing
2223							# only one element.
2224							#
2225							# @args = ("echo surprise"); # just one element in list
2226							# exec @args # still subject to shell escapes
2227							# \|\| die "exec: $!"; # because @args == 1
2228							#
2229							# To avoid this, use the PATHNAME syntax, explicitly duplicating the first
2230							# argument as the pathname, which forces the rest of the arguments to be
2231							# interpreted as a list, even if there is only one of them:
2232							#
2233							# exec { $args[0] } @args # safe even with one-argument list
2234							# \|\| die "can't exec @args: $!";
2235
2236	177					492	return CORE::system { $_[0] } @_; # safe even with one-argument list
	177					14322408
2237							}
2238
2239							#
2240							# Latin-6 order to character (with parameter)
2241							#
2242							sub Char::Elatin6::chr(;$) {
2243
2244	0	0		0	0		my $c = @_ ? $_[0] : $_;
2245
2246	0	0					if ($c == 0x00) {
2247	0						return "\x00";
2248							}
2249							else {
2250	0						my @chr = ();
2251	0						while ($c > 0) {
2252	0						unshift @chr, ($c % 0x100);
2253	0						$c = int($c / 0x100);
2254							}
2255	0						return pack 'C*', @chr;
2256							}
2257							}
2258
2259							#
2260							# Latin-6 order to character (without parameter)
2261							#
2262							sub Char::Elatin6::chr_() {
2263
2264	0			0	0		my $c = $_;
2265
2266	0	0					if ($c == 0x00) {
2267	0						return "\x00";
2268							}
2269							else {
2270	0						my @chr = ();
2271	0						while ($c > 0) {
2272	0						unshift @chr, ($c % 0x100);
2273	0						$c = int($c / 0x100);
2274							}
2275	0						return pack 'C*', @chr;
2276							}
2277							}
2278
2279							#
2280							# Latin-6 path globbing (with parameter)
2281							#
2282							sub Char::Elatin6::glob($) {
2283
2284	0	0		0	0		if (wantarray) {
2285	0						my @glob = _DOS_like_glob(@_);
2286	0						for my $glob (@glob) {
2287	0						$glob =~ s{ \A (?:\./)+ }{}oxms;
2288							}
2289	0						return @glob;
2290							}
2291							else {
2292	0						my $glob = _DOS_like_glob(@_);
2293	0						$glob =~ s{ \A (?:\./)+ }{}oxms;
2294	0						return $glob;
2295							}
2296							}
2297
2298							#
2299							# Latin-6 path globbing (without parameter)
2300							#
2301							sub Char::Elatin6::glob_() {
2302
2303	0	0		0	0		if (wantarray) {
2304	0						my @glob = _DOS_like_glob();
2305	0						for my $glob (@glob) {
2306	0						$glob =~ s{ \A (?:\./)+ }{}oxms;
2307							}
2308	0						return @glob;
2309							}
2310							else {
2311	0						my $glob = _DOS_like_glob();
2312	0						$glob =~ s{ \A (?:\./)+ }{}oxms;
2313	0						return $glob;
2314							}
2315							}
2316
2317							#
2318							# Latin-6 path globbing via File::DosGlob 1.10
2319							#
2320							# Often I confuse "_dosglob" and "_doglob".
2321							# So, I renamed "_dosglob" to "_DOS_like_glob".
2322							#
2323							my %iter;
2324							my %entries;
2325							sub _DOS_like_glob {
2326
2327							# context (keyed by second cxix argument provided by core)
2328	0			0			my($expr,$cxix) = @_;
2329
2330							# glob without args defaults to $_
2331	0	0					$expr = $_ if not defined $expr;
2332
2333							# represents the current user's home directory
2334							#
2335							# 7.3. Expanding Tildes in Filenames
2336							# in Chapter 7. File Access
2337							# of ISBN 0-596-00313-7 Perl Cookbook, 2nd Edition.
2338							#
2339							# and File::HomeDir, File::HomeDir::Windows module
2340
2341							# DOS-like system
2342	0	0					if ($^O =~ /\A (?: MSWin32 \| NetWare \| symbian \| dos ) \z/oxms) {
2343	0						$expr =~ s{ \A ~ (?= [^/\\] ) }
2344	0						{ my_home_MSWin32() }oxmse;
2345							}
2346
2347							# UNIX-like system
2348							else {
2349	0						$expr =~ s{ \A ~ ( (?:[^/])* ) }
2350	0	0	0				{ $1 ? (eval(q{(getpwnam($1))[7]})\|\|my_home()) : my_home() }oxmse;
2351							}
2352
2353							# assume global context if not provided one
2354	0	0					$cxix = '_G_' if not defined $cxix;
2355	0	0					$iter{$cxix} = 0 if not exists $iter{$cxix};
2356
2357							# if we're just beginning, do it all first
2358	0	0					if ($iter{$cxix} == 0) {
2359	0						$entries{$cxix} = [ _do_glob(1, _parse_line($expr)) ];
2360							}
2361
2362							# chuck it all out, quick or slow
2363	0	0					if (wantarray) {
2364	0						delete $iter{$cxix};
2365	0						return @{delete $entries{$cxix}};
	0
2366							}
2367							else {
2368	0	0					if ($iter{$cxix} = scalar @{$entries{$cxix}}) {
	0
2369	0						return shift @{$entries{$cxix}};
	0
2370							}
2371							else {
2372							# return undef for EOL
2373	0						delete $iter{$cxix};
2374	0						delete $entries{$cxix};
2375	0						return undef;
2376							}
2377							}
2378							}
2379
2380							#
2381							# Latin-6 path globbing subroutine
2382							#
2383							sub _do_glob {
2384
2385	0			0			my($cond,@expr) = @_;
2386	0						my @glob = ();
2387	0						my $fix_drive_relative_paths = 0;
2388
2389							OUTER:
2390	0						for my $expr (@expr) {
2391	0	0					next OUTER if not defined $expr;
2392	0	0					next OUTER if $expr eq '';
2393
2394	0						my @matched = ();
2395	0						my @globdir = ();
2396	0						my $head = '.';
2397	0						my $pathsep = '/';
2398	0						my $tail;
2399
2400							# if argument is within quotes strip em and do no globbing
2401	0	0					if ($expr =~ /\A " ((?:$q_char)*) " \z/oxms) {
2402	0						$expr = $1;
2403	0	0					if ($cond eq 'd') {
2404	0	0					if (-d $expr) {
2405	0						push @glob, $expr;
2406							}
2407							}
2408							else {
2409	0	0					if (-e $expr) {
2410	0						push @glob, $expr;
2411							}
2412							}
2413	0						next OUTER;
2414							}
2415
2416							# wildcards with a drive prefix such as h:*.pm must be changed
2417							# to h:./*.pm to expand correctly
2418	0	0					if ($^O =~ /\A (?: MSWin32 \| NetWare \| symbian \| dos ) \z/oxms) {
2419	0	0					if ($expr =~ s# \A ((?:[A-Za-z]:)?) ([^/\\]) #$1./$2#oxms) {
2420	0						$fix_drive_relative_paths = 1;
2421							}
2422							}
2423
2424	0	0					if (($head, $tail) = _parse_path($expr,$pathsep)) {
2425	0	0					if ($tail eq '') {
2426	0						push @glob, $expr;
2427	0						next OUTER;
2428							}
2429	0	0					if ($head =~ / \A (?:$q_char)? [?] /oxms) {
2430	0	0					if (@globdir = _do_glob('d', $head)) {
2431	0						push @glob, _do_glob($cond, map {"$_$pathsep$tail"} @globdir);
	0
2432	0						next OUTER;
2433							}
2434							}
2435	0	0	0				if ($head eq '' or $head =~ /\A [A-Za-z]: \z/oxms) {
2436	0						$head .= $pathsep;
2437							}
2438	0						$expr = $tail;
2439							}
2440
2441							# If file component has no wildcards, we can avoid opendir
2442	0	0					if ($expr !~ / \A (?:$q_char)? [?] /oxms) {
2443	0	0					if ($head eq '.') {
2444	0						$head = '';
2445							}
2446	0	0	0				if ($head ne '' and ($head =~ / \G ($q_char) /oxmsg)[-1] ne $pathsep) {
2447	0						$head .= $pathsep;
2448							}
2449	0						$head .= $expr;
2450	0	0					if ($cond eq 'd') {
2451	0	0					if (-d $head) {
2452	0						push @glob, $head;
2453							}
2454							}
2455							else {
2456	0	0					if (-e $head) {
2457	0						push @glob, $head;
2458							}
2459							}
2460	0						next OUTER;
2461							}
2462	0	0					opendir(*DIR, $head) or next OUTER;
2463	0						my @leaf = readdir DIR;
2464	0						closedir DIR;
2465
2466	0	0					if ($head eq '.') {
2467	0						$head = '';
2468							}
2469	0	0	0				if ($head ne '' and ($head =~ / \G ($q_char) /oxmsg)[-1] ne $pathsep) {
2470	0						$head .= $pathsep;
2471							}
2472
2473	0						my $pattern = '';
2474	0						while ($expr =~ / \G ($q_char) /oxgc) {
2475	0						my $char = $1;
2476
2477							# 6.9. Matching Shell Globs as Regular Expressions
2478							# in Chapter 6. Pattern Matching
2479							# of ISBN 0-596-00313-7 Perl Cookbook, 2nd Edition.
2480							# (and so on)
2481
2482	0	0					if ($char eq '*') {
		0
		0
2483	0						$pattern .= "(?:$your_char)*",
2484							}
2485							elsif ($char eq '?') {
2486	0						$pattern .= "(?:$your_char)?", # DOS style
2487							# $pattern .= "(?:$your_char)", # UNIX style
2488							}
2489							elsif ((my $fc = Char::Elatin6::fc($char)) ne $char) {
2490	0						$pattern .= $fc;
2491							}
2492							else {
2493	0						$pattern .= quotemeta $char;
2494							}
2495							}
2496	0			0			my $matchsub = sub { Char::Elatin6::fc($_[0]) =~ /\A $pattern \z/xms };
	0
2497
2498							# if ($@) {
2499							# print STDERR "$0: $@\n";
2500							# next OUTER;
2501							# }
2502
2503							INNER:
2504	0						for my $leaf (@leaf) {
2505	0	0	0				if ($leaf eq '.' or $leaf eq '..') {
2506	0						next INNER;
2507							}
2508	0	0	0				if ($cond eq 'd' and not -d "$head$leaf") {
2509	0						next INNER;
2510							}
2511
2512	0	0					if (&$matchsub($leaf)) {
2513	0						push @matched, "$head$leaf";
2514	0						next INNER;
2515							}
2516
2517							# [DOS compatibility special case]
2518							# Failed, add a trailing dot and try again, but only...
2519
2520	0	0	0				if (Char::Elatin6::index($leaf,'.') == -1 and # if name does not have a dot in it and
			0
2521							CORE::length($leaf) <= 8 and # name is shorter than or equal to 8 chars and
2522							Char::Elatin6::index($pattern,'\\.') != -1 # pattern has a dot.
2523							) {
2524	0	0					if (&$matchsub("$leaf.")) {
2525	0						push @matched, "$head$leaf";
2526	0						next INNER;
2527							}
2528							}
2529							}
2530	0	0					if (@matched) {
2531	0						push @glob, @matched;
2532							}
2533							}
2534	0	0					if ($fix_drive_relative_paths) {
2535	0						for my $glob (@glob) {
2536	0						$glob =~ s# \A ([A-Za-z]:) \./ #$1#oxms;
2537							}
2538							}
2539	0						return @glob;
2540							}
2541
2542							#
2543							# Latin-6 parse line
2544							#
2545							sub _parse_line {
2546
2547	0			0			my($line) = @_;
2548
2549	0						$line .= ' ';
2550	0						my @piece = ();
2551	0						while ($line =~ /
2552							" ( (?: [^"] )* ) " \s+ \|
2553							( (?: [^"\s] )* ) \s+
2554							/oxmsg
2555							) {
2556	0	0					push @piece, defined($1) ? $1 : $2;
2557							}
2558	0						return @piece;
2559							}
2560
2561							#
2562							# Latin-6 parse path
2563							#
2564							sub _parse_path {
2565
2566	0			0			my($path,$pathsep) = @_;
2567
2568	0						$path .= '/';
2569	0						my @subpath = ();
2570	0						while ($path =~ /
2571							((?: [^\/\\] )+?) [\/\\]
2572							/oxmsg
2573							) {
2574	0						push @subpath, $1;
2575							}
2576
2577	0						my $tail = pop @subpath;
2578	0						my $head = join $pathsep, @subpath;
2579	0						return $head, $tail;
2580							}
2581
2582							#
2583							# via File::HomeDir::Windows 1.00
2584							#
2585							sub my_home_MSWin32 {
2586
2587							# A lot of unix people and unix-derived tools rely on
2588							# the ability to overload HOME. We will support it too
2589							# so that they can replace raw HOME calls with File::HomeDir.
2590	0	0	0	0	0		if (exists $ENV{'HOME'} and $ENV{'HOME'}) {
		0	0
		0	0
			0
			0
2591	0						return $ENV{'HOME'};
2592							}
2593
2594							# Do we have a user profile?
2595							elsif (exists $ENV{'USERPROFILE'} and $ENV{'USERPROFILE'}) {
2596	0						return $ENV{'USERPROFILE'};
2597							}
2598
2599							# Some Windows use something like $ENV{'HOME'}
2600							elsif (exists $ENV{'HOMEDRIVE'} and exists $ENV{'HOMEPATH'} and $ENV{'HOMEDRIVE'} and $ENV{'HOMEPATH'}) {
2601	0						return join '', $ENV{'HOMEDRIVE'}, $ENV{'HOMEPATH'};
2602							}
2603
2604	0						return undef;
2605							}
2606
2607							#
2608							# via File::HomeDir::Unix 1.00
2609							#
2610							sub my_home {
2611	0			0	0		my $home;
2612
2613	0	0	0				if (exists $ENV{'HOME'} and defined $ENV{'HOME'}) {
		0	0
2614	0						$home = $ENV{'HOME'};
2615							}
2616
2617							# This is from the original code, but I'm guessing
2618							# it means "login directory" and exists on some Unixes.
2619							elsif (exists $ENV{'LOGDIR'} and $ENV{'LOGDIR'}) {
2620	0						$home = $ENV{'LOGDIR'};
2621							}
2622
2623							### More-desperate methods
2624
2625							# Light desperation on any (Unixish) platform
2626							else {
2627	0						$home = eval q{ (getpwuid($<))[7] };
2628							}
2629
2630							# On Unix in general, a non-existant home means "no home"
2631							# For example, "nobody"-like users might use /nonexistant
2632	0	0	0				if (defined $home and ! -d($home)) {
2633	0						$home = undef;
2634							}
2635	0						return $home;
2636							}
2637
2638							#
2639							# ${^PREMATCH}, $PREMATCH, $` the string preceding what was matched
2640							#
2641							sub Char::Elatin6::PREMATCH {
2642	0			0	0		return $`;
2643							}
2644
2645							#
2646							# ${^MATCH}, $MATCH, $& the string that matched
2647							#
2648							sub Char::Elatin6::MATCH {
2649	0			0	0		return $&;
2650							}
2651
2652							#
2653							# ${^POSTMATCH}, $POSTMATCH, $' the string following what was matched
2654							#
2655							sub Char::Elatin6::POSTMATCH {
2656	0			0	0		return $';
2657							}
2658
2659							#
2660							# Latin-6 character to order (with parameter)
2661							#
2662							sub Char::Latin6::ord(;$) {
2663
2664	0	0		0	1		local $_ = shift if @_;
2665
2666	0	0					if (/\A ($q_char) /oxms) {
2667	0						my @ord = unpack 'C*', $1;
2668	0						my $ord = 0;
2669	0						while (my $o = shift @ord) {
2670	0						$ord = $ord * 0x100 + $o;
2671							}
2672	0						return $ord;
2673							}
2674							else {
2675	0						return CORE::ord $_;
2676							}
2677							}
2678
2679							#
2680							# Latin-6 character to order (without parameter)
2681							#
2682							sub Char::Latin6::ord_() {
2683
2684	0	0		0	0		if (/\A ($q_char) /oxms) {
2685	0						my @ord = unpack 'C*', $1;
2686	0						my $ord = 0;
2687	0						while (my $o = shift @ord) {
2688	0						$ord = $ord * 0x100 + $o;
2689							}
2690	0						return $ord;
2691							}
2692							else {
2693	0						return CORE::ord $_;
2694							}
2695							}
2696
2697							#
2698							# Latin-6 reverse
2699							#
2700							sub Char::Latin6::reverse(@) {
2701
2702	0	0		0	0		if (wantarray) {
2703	0						return CORE::reverse @_;
2704							}
2705							else {
2706
2707							# One of us once cornered Larry in an elevator and asked him what
2708							# problem he was solving with this, but he looked as far off into
2709							# the distance as he could in an elevator and said, "It seemed like
2710							# a good idea at the time."
2711
2712	0						return join '', CORE::reverse(join('',@_) =~ /\G ($q_char) /oxmsg);
2713							}
2714							}
2715
2716							#
2717							# Latin-6 getc (with parameter, without parameter)
2718							#
2719							sub Char::Latin6::getc(;*@) {
2720
2721	0			0	0		my($package) = caller;
2722	0	0					my $fh = @_ ? qualify_to_ref(shift,$package) : \*STDIN;
2723	0	0	0				croak 'Too many arguments for Char::Latin6::getc' if @_ and not wantarray;
2724
2725	0						my @length = sort { $a <=> $b } keys %range_tr;
	0
2726	0						my $getc = '';
2727	0						for my $length ($length[0] .. $length[-1]) {
2728	0						$getc .= CORE::getc($fh);
2729	0	0					if (exists $range_tr{CORE::length($getc)}) {
2730	0	0					if ($getc =~ /\A ${Char::Elatin6::dot_s} \z/oxms) {
2731	0	0					return wantarray ? ($getc,@_) : $getc;
2732							}
2733							}
2734							}
2735	0	0					return wantarray ? ($getc,@_) : $getc;
2736							}
2737
2738							#
2739							# Latin-6 length by character
2740							#
2741							sub Char::Latin6::length(;$) {
2742
2743	0	0		0	1		local $_ = shift if @_;
2744
2745	0						local @_ = /\G ($q_char) /oxmsg;
2746	0						return scalar @_;
2747							}
2748
2749							#
2750							# Latin-6 substr by character
2751							#
2752							BEGIN {
2753
2754							# P.232 The lvalue Attribute
2755							# in Chapter 6: Subroutines
2756							# of ISBN 0-596-00027-8 Programming Perl Third Edition.
2757
2758							# P.336 The lvalue Attribute
2759							# in Chapter 7: Subroutines
2760							# of ISBN 978-0-596-00492-7 Programming Perl 4th Edition.
2761
2762							# P.144 8.4 Lvalue subroutines
2763							# in Chapter 8: perlsub: Perl subroutines
2764							# of ISBN-13: 978-1-906966-02-7 The Perl Language Reference Manual (for Perl version 5.12.1)
2765
2766	177	50	0	177	1	377785	eval sprintf(<<'END', ($] >= 5.014000) ? ':lvalue' : '');
	0	0		0
	0	0
	0	0
	0	0
	0	0
	0	0
	0	0
	0	0
	0	0
	0
	0
	0
	0
	0
	0
	0
	0
	0
	0
	0
	0
	0
	0
	0
	0
	0
	0
2767							# vv----------------*******
2768							sub Char::Latin6::substr($$;$$) %s {
2769
2770							my @char = $_[0] =~ /\G ($q_char) /oxmsg;
2771
2772							# If the substring is beyond either end of the string, substr() returns the undefined
2773							# value and produces a warning. When used as an lvalue, specifying a substring that
2774							# is entirely outside the string raises an exception.
2775							# http://perldoc.perl.org/functions/substr.html
2776
2777							# A return with no argument returns the scalar value undef in scalar context,
2778							# an empty list () in list context, and (naturally) nothing at all in void
2779							# context.
2780
2781							my $offset = $_[1];
2782							if (($offset > scalar(@char)) or ($offset < (-1 * scalar(@char)))) {
2783							return;
2784							}
2785
2786							# substr($string,$offset,$length,$replacement)
2787							if (@_ == 4) {
2788							my(undef,undef,$length,$replacement) = @_;
2789							my $substr = join '', splice(@char, $offset, $length, $replacement);
2790							$_[0] = join '', @char;
2791
2792							# return $substr; this doesn't work, don't say "return"
2793							$substr;
2794							}
2795
2796							# substr($string,$offset,$length)
2797							elsif (@_ == 3) {
2798							my(undef,undef,$length) = @_;
2799							my $octet_offset = 0;
2800							my $octet_length = 0;
2801							if ($offset == 0) {
2802							$octet_offset = 0;
2803							}
2804							elsif ($offset > 0) {
2805							$octet_offset = CORE::length(join '', @char[0..$offset-1]);
2806							}
2807							else {
2808							$octet_offset = -1 * CORE::length(join '', @char[$#char+$offset+1..$#char]);
2809							}
2810							if ($length == 0) {
2811							$octet_length = 0;
2812							}
2813							elsif ($length > 0) {
2814							$octet_length = CORE::length(join '', @char[$offset..$offset+$length-1]);
2815							}
2816							else {
2817							$octet_length = -1 * CORE::length(join '', @char[$#char+$length+1..$#char]);
2818							}
2819							CORE::substr($_[0], $octet_offset, $octet_length);
2820							}
2821
2822							# substr($string,$offset)
2823							else {
2824							my $octet_offset = 0;
2825							if ($offset == 0) {
2826							$octet_offset = 0;
2827							}
2828							elsif ($offset > 0) {
2829							$octet_offset = CORE::length(join '', @char[0..$offset-1]);
2830							}
2831							else {
2832							$octet_offset = -1 * CORE::length(join '', @char[$#char+$offset+1..$#char]);
2833							}
2834							CORE::substr($_[0], $octet_offset);
2835							}
2836							}
2837							END
2838							}
2839
2840							#
2841							# Latin-6 index by character
2842							#
2843							sub Char::Latin6::index($$;$) {
2844
2845	0			0	1		my $index;
2846	0	0					if (@_ == 3) {
2847	0						$index = Char::Elatin6::index($_[0], $_[1], CORE::length(Char::Latin6::substr($_[0], 0, $_[2])));
2848							}
2849							else {
2850	0						$index = Char::Elatin6::index($_[0], $_[1]);
2851							}
2852
2853	0	0					if ($index == -1) {
2854	0						return -1;
2855							}
2856							else {
2857	0						return Char::Latin6::length(CORE::substr $_[0], 0, $index);
2858							}
2859							}
2860
2861							#
2862							# Latin-6 rindex by character
2863							#
2864							sub Char::Latin6::rindex($$;$) {
2865
2866	0			0	1		my $rindex;
2867	0	0					if (@_ == 3) {
2868	0						$rindex = Char::Elatin6::rindex($_[0], $_[1], CORE::length(Char::Latin6::substr($_[0], 0, $_[2])));
2869							}
2870							else {
2871	0						$rindex = Char::Elatin6::rindex($_[0], $_[1]);
2872							}
2873
2874	0	0					if ($rindex == -1) {
2875	0						return -1;
2876							}
2877							else {
2878	0						return Char::Latin6::length(CORE::substr $_[0], 0, $rindex);
2879							}
2880							}
2881
2882							#
2883							# instead of Carp::carp
2884							#
2885							sub carp {
2886	0			0	0		my($package,$filename,$line) = caller(1);
2887	0						print STDERR "@_ at $filename line $line.\n";
2888							}
2889
2890							#
2891							# instead of Carp::croak
2892							#
2893							sub croak {
2894	0			0	0		my($package,$filename,$line) = caller(1);
2895	0						print STDERR "@_ at $filename line $line.\n";
2896	0						die "\n";
2897							}
2898
2899							#
2900							# instead of Carp::cluck
2901							#
2902							sub cluck {
2903	0			0	0		my $i = 0;
2904	0						my @cluck = ();
2905	0						while (my($package,$filename,$line,$subroutine) = caller($i)) {
2906	0						push @cluck, "[$i] $filename($line) $package::$subroutine\n";
2907	0						$i++;
2908							}
2909	0						print STDERR CORE::reverse @cluck;
2910	0						print STDERR "\n";
2911	0						carp @_;
2912							}
2913
2914							#
2915							# instead of Carp::confess
2916							#
2917							sub confess {
2918	0			0	0		my $i = 0;
2919	0						my @confess = ();
2920	0						while (my($package,$filename,$line,$subroutine) = caller($i)) {
2921	0						push @confess, "[$i] $filename($line) $package::$subroutine\n";
2922	0						$i++;
2923							}
2924	0						print STDERR CORE::reverse @confess;
2925	0						print STDERR "\n";
2926	0						croak @_;
2927							}
2928
2929							1;
2930
2931							__END__