Commit | Line | Data |
---|---|---|
3ed9f206 JH |
1 | package Switch; |
2 | ||
3 | use strict; | |
4 | use vars qw($VERSION); | |
5 | use Carp; | |
6 | ||
4f8a7904 | 7 | $VERSION = '2.13'; |
3ed9f206 JH |
8 | |
9 | ||
10 | # LOAD FILTERING MODULE... | |
11 | use Filter::Util::Call; | |
12 | ||
13 | sub __(); | |
14 | ||
15 | # CATCH ATTEMPTS TO CALL case OUTSIDE THE SCOPE OF ANY switch | |
16 | ||
74a6a946 | 17 | $::_S_W_I_T_C_H = sub { croak "case/when statement not in switch/given block" }; |
3ed9f206 JH |
18 | |
19 | my $offset; | |
20 | my $fallthrough; | |
74a6a946 | 21 | my ($Perl5, $Perl6) = (0,0); |
3ed9f206 JH |
22 | |
23 | sub import | |
24 | { | |
25 | $fallthrough = grep /\bfallthrough\b/, @_; | |
26 | $offset = (caller)[2]+1; | |
a1813bef | 27 | filter_add({}) unless @_>1 && $_[1] eq 'noimport'; |
3ed9f206 JH |
28 | my $pkg = caller; |
29 | no strict 'refs'; | |
30 | for ( qw( on_defined on_exists ) ) | |
31 | { | |
32 | *{"${pkg}::$_"} = \&$_; | |
33 | } | |
34 | *{"${pkg}::__"} = \&__ if grep /__/, @_; | |
74a6a946 JH |
35 | $Perl6 = 1 if grep(/Perl\s*6/i, @_); |
36 | $Perl5 = 1 if grep(/Perl\s*5/i, @_) || !grep(/Perl\s*6/i, @_); | |
3ed9f206 JH |
37 | 1; |
38 | } | |
39 | ||
40 | sub unimport | |
41 | { | |
42 | filter_del() | |
43 | } | |
44 | ||
45 | sub filter | |
46 | { | |
47 | my($self) = @_ ; | |
48 | local $Switch::file = (caller)[1]; | |
49 | ||
50 | my $status = 1; | |
b2486830 | 51 | $status = filter_read(1_000_000); |
3ed9f206 JH |
52 | return $status if $status<0; |
53 | $_ = filter_blocks($_,$offset); | |
54 | $_ = "# line $offset\n" . $_ if $offset; undef $offset; | |
3ed9f206 JH |
55 | return $status; |
56 | } | |
57 | ||
58 | use Text::Balanced ':ALL'; | |
59 | ||
60 | sub line | |
61 | { | |
62 | my ($pretext,$offset) = @_; | |
74a6a946 | 63 | ($pretext=~tr/\n/\n/)+($offset||0); |
3ed9f206 JH |
64 | } |
65 | ||
66 | sub is_block | |
67 | { | |
68 | local $SIG{__WARN__}=sub{die$@}; | |
69 | local $^W=1; | |
70 | my $ishash = defined eval 'my $hr='.$_[0]; | |
71 | undef $@; | |
72 | return !$ishash; | |
73 | } | |
74 | ||
d38ca171 | 75 | |
5588bb19 | 76 | my $EOP = qr/\n|\Z/; |
d38ca171 JH |
77 | my $CUT = qr/\n=cut.*$EOP/; |
78 | my $pod_or_DATA = qr/ ^=(?:head[1-4]|item) .*? $CUT | |
79 | | ^=pod .*? $CUT | |
80 | | ^=for .*? $EOP | |
81 | | ^=begin \s* (\S+) .*? \n=end \s* \1 .*? $EOP | |
82 | | ^__(DATA|END)__\n.* | |
83 | /smx; | |
84 | ||
3ed9f206 JH |
85 | my $casecounter = 1; |
86 | sub filter_blocks | |
87 | { | |
88 | my ($source, $line) = @_; | |
74a6a946 | 89 | return $source unless $Perl5 && $source =~ /case|switch/ |
b2486830 | 90 | || $Perl6 && $source =~ /when|given|default/; |
3ed9f206 JH |
91 | pos $source = 0; |
92 | my $text = ""; | |
93 | component: while (pos $source < length $source) | |
94 | { | |
3961318e | 95 | if ($source =~ m/(\G\s*use\s+Switch\b)/gc) |
3ed9f206 JH |
96 | { |
97 | $text .= q{use Switch 'noimport'}; | |
98 | next component; | |
99 | } | |
d38ca171 | 100 | my @pos = Text::Balanced::_match_quotelike(\$source,qr/\s*/,1,0); |
3ed9f206 JH |
101 | if (defined $pos[0]) |
102 | { | |
b2486830 | 103 | my $pre = substr($source,$pos[0],$pos[1]); # matched prefix |
4f8a7904 WL |
104 | my $iEol; |
105 | if( substr($source,$pos[4],$pos[5]) eq '/' && # 1st delimiter | |
106 | substr($source,$pos[2],$pos[3]) eq '' && # no op like 'm' | |
107 | index( substr($source,$pos[16],$pos[17]), 'x' ) == -1 && # no //x | |
108 | ($iEol = index( $source, "\n", $pos[4] )) > 0 && | |
109 | $iEol < $pos[8] ){ # embedded newlines | |
110 | # If this is a pattern, it isn't compatible with Switch. Backup past 1st '/'. | |
111 | pos( $source ) = $pos[6]; | |
112 | $text .= $pre . substr($source,$pos[2],$pos[6]-$pos[2]); | |
113 | } else { | |
114 | $text .= $pre . substr($source,$pos[2],$pos[18]-$pos[2]); | |
115 | } | |
3ed9f206 JH |
116 | next component; |
117 | } | |
d38ca171 JH |
118 | if ($source =~ m/\G\s*($pod_or_DATA)/gc) { |
119 | next component; | |
120 | } | |
3ed9f206 JH |
121 | @pos = Text::Balanced::_match_variable(\$source,qr/\s*/); |
122 | if (defined $pos[0]) | |
123 | { | |
52d8c818 RK |
124 | $text .= " " if $pos[0] < $pos[2]; |
125 | $text .= substr($source,$pos[0],$pos[4]-$pos[0]); | |
3ed9f206 JH |
126 | next component; |
127 | } | |
128 | ||
74a6a946 | 129 | if ($Perl5 && $source =~ m/\G(\n*)(\s*)(switch)\b(?=\s*[(])/gc |
6596d39b JH |
130 | || $Perl6 && $source =~ m/\G(\n*)(\s*)(given)\b(?=\s*[(])/gc |
131 | || $Perl6 && $source =~ m/\G(\n*)(\s*)(given)\b(.*)(?=\{)/gc) | |
3ed9f206 | 132 | { |
74a6a946 | 133 | my $keyword = $3; |
6596d39b | 134 | my $arg = $4; |
3ed9f206 | 135 | $text .= $1.$2.'S_W_I_T_C_H: while (1) '; |
6596d39b JH |
136 | unless ($arg) { |
137 | @pos = Text::Balanced::_match_codeblock(\$source,qr/\s*/,qr/\(/,qr/\)/,qr/[[{(<]/,qr/[]})>]/,undef) | |
138 | or do { | |
139 | die "Bad $keyword statement (problem in the parentheses?) near $Switch::file line ", line(substr($source,0,pos $source),$line), "\n"; | |
140 | }; | |
141 | $arg = filter_blocks(substr($source,$pos[0],$pos[4]-$pos[0]),line(substr($source,0,$pos[0]),$line)); | |
142 | } | |
3ed9f206 JH |
143 | $arg =~ s {^\s*[(]\s*%} { ( \\\%} || |
144 | $arg =~ s {^\s*[(]\s*m\b} { ( qr} || | |
145 | $arg =~ s {^\s*[(]\s*/} { ( qr/} || | |
146 | $arg =~ s {^\s*[(]\s*qw} { ( \\qw}; | |
147 | @pos = Text::Balanced::_match_codeblock(\$source,qr/\s*/,qr/\{/,qr/\}/,qr/\{/,qr/\}/,undef) | |
148 | or do { | |
74a6a946 | 149 | die "Bad $keyword statement (problem in the code block?) near $Switch::file line ", line(substr($source,0, pos $source), $line), "\n"; |
3ed9f206 JH |
150 | }; |
151 | my $code = filter_blocks(substr($source,$pos[0],$pos[4]-$pos[0]),line(substr($source,0,$pos[0]),$line)); | |
152 | $code =~ s/{/{ local \$::_S_W_I_T_C_H; Switch::switch $arg;/; | |
153 | $text .= $code . 'continue {last}'; | |
154 | next component; | |
155 | } | |
74a6a946 | 156 | elsif ($Perl5 && $source =~ m/\G(\s*)(case\b)(?!\s*=>)/gc |
b2486830 RGS |
157 | || $Perl6 && $source =~ m/\G(\s*)(when\b)(?!\s*=>)/gc |
158 | || $Perl6 && $source =~ m/\G(\s*)(default\b)(?=\s*\{)/gc) | |
3ed9f206 | 159 | { |
74a6a946 | 160 | my $keyword = $2; |
b2486830 RGS |
161 | $text .= $1 . ($keyword eq "default" |
162 | ? "if (1)" | |
163 | : "if (Switch::case"); | |
164 | ||
165 | if ($keyword eq "default") { | |
166 | # Nothing to do | |
167 | } | |
168 | elsif (@pos = Text::Balanced::_match_codeblock(\$source,qr/\s*/,qr/\{/,qr/\}/,qr/\{/,qr/\}/,undef)) { | |
3ed9f206 | 169 | my $code = substr($source,$pos[0],$pos[4]-$pos[0]); |
52d8c818 RK |
170 | $text .= " " if $pos[0] < $pos[2]; |
171 | $text .= "sub " if is_block $code; | |
172 | $text .= filter_blocks($code,line(substr($source,0,$pos[0]),$line)) . ")"; | |
3ed9f206 JH |
173 | } |
174 | elsif (@pos = Text::Balanced::_match_codeblock(\$source,qr/\s*/,qr/[[(]/,qr/[])]/,qr/[[({]/,qr/[])}]/,undef)) { | |
175 | my $code = filter_blocks(substr($source,$pos[0],$pos[4]-$pos[0]),line(substr($source,0,$pos[0]),$line)); | |
176 | $code =~ s {^\s*[(]\s*%} { ( \\\%} || | |
177 | $code =~ s {^\s*[(]\s*m\b} { ( qr} || | |
178 | $code =~ s {^\s*[(]\s*/} { ( qr/} || | |
179 | $code =~ s {^\s*[(]\s*qw} { ( \\qw}; | |
52d8c818 RK |
180 | $text .= " " if $pos[0] < $pos[2]; |
181 | $text .= "$code)"; | |
3ed9f206 | 182 | } |
74a6a946 JH |
183 | elsif ($Perl6 && do{@pos = Text::Balanced::_match_variable(\$source,qr/\s*/)}) { |
184 | my $code = filter_blocks(substr($source,$pos[0],$pos[4]-$pos[0]),line(substr($source,0,$pos[0]),$line)); | |
185 | $code =~ s {^\s*%} { \%} || | |
186 | $code =~ s {^\s*@} { \@}; | |
52d8c818 RK |
187 | $text .= " " if $pos[0] < $pos[2]; |
188 | $text .= "$code)"; | |
74a6a946 | 189 | } |
d38ca171 | 190 | elsif ( @pos = Text::Balanced::_match_quotelike(\$source,qr/\s*/,1,0)) { |
3ed9f206 JH |
191 | my $code = substr($source,$pos[2],$pos[18]-$pos[2]); |
192 | $code = filter_blocks($code,line(substr($source,0,$pos[2]),$line)); | |
193 | $code =~ s {^\s*m} { qr} || | |
194 | $code =~ s {^\s*/} { qr/} || | |
195 | $code =~ s {^\s*qw} { \\qw}; | |
52d8c818 RK |
196 | $text .= " " if $pos[0] < $pos[2]; |
197 | $text .= "$code)"; | |
3ed9f206 | 198 | } |
74a6a946 | 199 | elsif ($Perl5 && $source =~ m/\G\s*(([^\$\@{])[^\$\@{]*)(?=\s*{)/gc |
6596d39b | 200 | || $Perl6 && $source =~ m/\G\s*([^;{]*)()/gc) { |
3ed9f206 JH |
201 | my $code = filter_blocks($1,line(substr($source,0,pos $source),$line)); |
202 | $text .= ' \\' if $2 eq '%'; | |
203 | $text .= " $code)"; | |
204 | } | |
205 | else { | |
74a6a946 | 206 | die "Bad $keyword statement (invalid $keyword value?) near $Switch::file line ", line(substr($source,0,pos $source), $line), "\n"; |
3ed9f206 JH |
207 | } |
208 | ||
6596d39b JH |
209 | die "Missing opening brace or semi-colon after 'when' value near $Switch::file line ", line(substr($source,0,pos $source), $line), "\n" |
210 | unless !$Perl6 || $source =~ m/\G(\s*)(?=;|\{)/gc; | |
74a6a946 JH |
211 | |
212 | do{@pos = Text::Balanced::_match_codeblock(\$source,qr/\s*/,qr/\{/,qr/\}/,qr/\{/,qr/\}/,undef)} | |
3ed9f206 JH |
213 | or do { |
214 | if ($source =~ m/\G\s*(?=([};]|\Z))/gc) { | |
215 | $casecounter++; | |
216 | next component; | |
217 | } | |
74a6a946 | 218 | die "Bad $keyword statement (problem in the code block?) near $Switch::file line ", line(substr($source,0,pos $source),$line), "\n"; |
3ed9f206 JH |
219 | }; |
220 | my $code = filter_blocks(substr($source,$pos[0],$pos[4]-$pos[0]),line(substr($source,0,$pos[0]),$line)); | |
221 | $code =~ s/}(?=\s*\Z)/;last S_W_I_T_C_H }/ | |
222 | unless $fallthrough; | |
223 | $text .= "{ while (1) $code continue { goto C_A_S_E_$casecounter } last S_W_I_T_C_H; C_A_S_E_$casecounter: }"; | |
224 | $casecounter++; | |
225 | next component; | |
226 | } | |
227 | ||
d38ca171 | 228 | $source =~ m/\G(\s*(-[sm]\s+|\w+|#.*\n|\W))/gc; |
3ed9f206 JH |
229 | $text .= $1; |
230 | } | |
231 | $text; | |
232 | } | |
233 | ||
234 | ||
235 | ||
236 | sub in | |
237 | { | |
238 | my ($x,$y) = @_; | |
239 | my @numy; | |
240 | for my $nextx ( @$x ) | |
241 | { | |
a1813bef | 242 | my $numx = ref($nextx) || defined $nextx && (~$nextx&$nextx) eq 0; |
3ed9f206 JH |
243 | for my $j ( 0..$#$y ) |
244 | { | |
245 | my $nexty = $y->[$j]; | |
a1813bef | 246 | push @numy, ref($nexty) || defined $nexty && (~$nexty&$nexty) eq 0 |
3ed9f206 JH |
247 | if @numy <= $j; |
248 | return 1 if $numx && $numy[$j] && $nextx==$nexty | |
249 | || $nextx eq $nexty; | |
250 | ||
251 | } | |
252 | } | |
253 | return ""; | |
254 | } | |
255 | ||
256 | sub on_exists | |
257 | { | |
258 | my $ref = @_==1 && ref($_[0]) eq 'HASH' ? $_[0] : { @_ }; | |
259 | [ keys %$ref ] | |
260 | } | |
261 | ||
262 | sub on_defined | |
263 | { | |
264 | my $ref = @_==1 && ref($_[0]) eq 'HASH' ? $_[0] : { @_ }; | |
265 | [ grep { defined $ref->{$_} } keys %$ref ] | |
266 | } | |
267 | ||
268 | sub switch(;$) | |
269 | { | |
270 | my ($s_val) = @_ ? $_[0] : $_; | |
271 | my $s_ref = ref $s_val; | |
272 | ||
273 | if ($s_ref eq 'CODE') | |
274 | { | |
275 | $::_S_W_I_T_C_H = | |
276 | sub { my $c_val = $_[0]; | |
277 | return $s_val == $c_val if ref $c_val eq 'CODE'; | |
278 | return $s_val->(@$c_val) if ref $c_val eq 'ARRAY'; | |
279 | return $s_val->($c_val); | |
280 | }; | |
281 | } | |
a1813bef | 282 | elsif ($s_ref eq "" && defined $s_val && (~$s_val&$s_val) eq 0) # NUMERIC SCALAR |
3ed9f206 JH |
283 | { |
284 | $::_S_W_I_T_C_H = | |
285 | sub { my $c_val = $_[0]; | |
286 | my $c_ref = ref $c_val; | |
287 | return $s_val == $c_val if $c_ref eq "" | |
a1813bef | 288 | && defined $c_val |
3ed9f206 JH |
289 | && (~$c_val&$c_val) eq 0; |
290 | return $s_val eq $c_val if $c_ref eq ""; | |
291 | return in([$s_val],$c_val) if $c_ref eq 'ARRAY'; | |
292 | return $c_val->($s_val) if $c_ref eq 'CODE'; | |
293 | return $c_val->call($s_val) if $c_ref eq 'Switch'; | |
294 | return scalar $s_val=~/$c_val/ | |
295 | if $c_ref eq 'Regexp'; | |
296 | return scalar $c_val->{$s_val} | |
297 | if $c_ref eq 'HASH'; | |
298 | return; | |
299 | }; | |
300 | } | |
301 | elsif ($s_ref eq "") # STRING SCALAR | |
302 | { | |
303 | $::_S_W_I_T_C_H = | |
304 | sub { my $c_val = $_[0]; | |
305 | my $c_ref = ref $c_val; | |
306 | return $s_val eq $c_val if $c_ref eq ""; | |
307 | return in([$s_val],$c_val) if $c_ref eq 'ARRAY'; | |
308 | return $c_val->($s_val) if $c_ref eq 'CODE'; | |
309 | return $c_val->call($s_val) if $c_ref eq 'Switch'; | |
310 | return scalar $s_val=~/$c_val/ | |
311 | if $c_ref eq 'Regexp'; | |
312 | return scalar $c_val->{$s_val} | |
313 | if $c_ref eq 'HASH'; | |
314 | return; | |
315 | }; | |
316 | } | |
317 | elsif ($s_ref eq 'ARRAY') | |
318 | { | |
319 | $::_S_W_I_T_C_H = | |
320 | sub { my $c_val = $_[0]; | |
321 | my $c_ref = ref $c_val; | |
322 | return in($s_val,[$c_val]) if $c_ref eq ""; | |
323 | return in($s_val,$c_val) if $c_ref eq 'ARRAY'; | |
324 | return $c_val->(@$s_val) if $c_ref eq 'CODE'; | |
325 | return $c_val->call(@$s_val) | |
326 | if $c_ref eq 'Switch'; | |
327 | return scalar grep {$_=~/$c_val/} @$s_val | |
328 | if $c_ref eq 'Regexp'; | |
329 | return scalar grep {$c_val->{$_}} @$s_val | |
330 | if $c_ref eq 'HASH'; | |
331 | return; | |
332 | }; | |
333 | } | |
334 | elsif ($s_ref eq 'Regexp') | |
335 | { | |
336 | $::_S_W_I_T_C_H = | |
337 | sub { my $c_val = $_[0]; | |
338 | my $c_ref = ref $c_val; | |
339 | return $c_val=~/s_val/ if $c_ref eq ""; | |
340 | return scalar grep {$_=~/s_val/} @$c_val | |
341 | if $c_ref eq 'ARRAY'; | |
342 | return $c_val->($s_val) if $c_ref eq 'CODE'; | |
343 | return $c_val->call($s_val) if $c_ref eq 'Switch'; | |
344 | return $s_val eq $c_val if $c_ref eq 'Regexp'; | |
345 | return grep {$_=~/$s_val/ && $c_val->{$_}} keys %$c_val | |
346 | if $c_ref eq 'HASH'; | |
347 | return; | |
348 | }; | |
349 | } | |
350 | elsif ($s_ref eq 'HASH') | |
351 | { | |
352 | $::_S_W_I_T_C_H = | |
353 | sub { my $c_val = $_[0]; | |
354 | my $c_ref = ref $c_val; | |
355 | return $s_val->{$c_val} if $c_ref eq ""; | |
356 | return scalar grep {$s_val->{$_}} @$c_val | |
357 | if $c_ref eq 'ARRAY'; | |
358 | return $c_val->($s_val) if $c_ref eq 'CODE'; | |
359 | return $c_val->call($s_val) if $c_ref eq 'Switch'; | |
360 | return grep {$_=~/$c_val/ && $s_val->{"$_"}} keys %$s_val | |
361 | if $c_ref eq 'Regexp'; | |
362 | return $s_val==$c_val if $c_ref eq 'HASH'; | |
363 | return; | |
364 | }; | |
365 | } | |
366 | elsif ($s_ref eq 'Switch') | |
367 | { | |
368 | $::_S_W_I_T_C_H = | |
369 | sub { my $c_val = $_[0]; | |
370 | return $s_val == $c_val if ref $c_val eq 'Switch'; | |
371 | return $s_val->call(@$c_val) | |
372 | if ref $c_val eq 'ARRAY'; | |
373 | return $s_val->call($c_val); | |
374 | }; | |
375 | } | |
376 | else | |
377 | { | |
378 | croak "Cannot switch on $s_ref"; | |
379 | } | |
380 | return 1; | |
381 | } | |
382 | ||
d38ca171 JH |
383 | sub case($) { local $SIG{__WARN__} = \&carp; |
384 | $::_S_W_I_T_C_H->(@_); } | |
3ed9f206 JH |
385 | |
386 | # IMPLEMENT __ | |
387 | ||
388 | my $placeholder = bless { arity=>1, impl=>sub{$_[1+$_[0]]} }; | |
389 | ||
390 | sub __() { $placeholder } | |
391 | ||
392 | sub __arg($) | |
393 | { | |
394 | my $index = $_[0]+1; | |
395 | bless { arity=>0, impl=>sub{$_[$index]} }; | |
396 | } | |
397 | ||
398 | sub hosub(&@) | |
399 | { | |
400 | # WRITE THIS | |
401 | } | |
402 | ||
403 | sub call | |
404 | { | |
405 | my ($self,@args) = @_; | |
406 | return $self->{impl}->(0,@args); | |
407 | } | |
408 | ||
409 | sub meta_bop(&) | |
410 | { | |
411 | my ($op) = @_; | |
412 | sub | |
413 | { | |
414 | my ($left, $right, $reversed) = @_; | |
415 | ($right,$left) = @_ if $reversed; | |
416 | ||
417 | my $rop = ref $right eq 'Switch' | |
418 | ? $right | |
419 | : bless { arity=>0, impl=>sub{$right} }; | |
420 | ||
421 | my $lop = ref $left eq 'Switch' | |
422 | ? $left | |
423 | : bless { arity=>0, impl=>sub{$left} }; | |
424 | ||
425 | my $arity = $lop->{arity} + $rop->{arity}; | |
426 | ||
427 | return bless { | |
428 | arity => $arity, | |
429 | impl => sub { my $start = shift; | |
430 | return $op->($lop->{impl}->($start,@_), | |
431 | $rop->{impl}->($start+$lop->{arity},@_)); | |
432 | } | |
433 | }; | |
434 | }; | |
435 | } | |
436 | ||
437 | sub meta_uop(&) | |
438 | { | |
439 | my ($op) = @_; | |
440 | sub | |
441 | { | |
442 | my ($left) = @_; | |
443 | ||
444 | my $lop = ref $left eq 'Switch' | |
445 | ? $left | |
446 | : bless { arity=>0, impl=>sub{$left} }; | |
447 | ||
448 | my $arity = $lop->{arity}; | |
449 | ||
450 | return bless { | |
451 | arity => $arity, | |
452 | impl => sub { $op->($lop->{impl}->(@_)) } | |
453 | }; | |
454 | }; | |
455 | } | |
456 | ||
457 | ||
458 | use overload | |
459 | "+" => meta_bop {$_[0] + $_[1]}, | |
460 | "-" => meta_bop {$_[0] - $_[1]}, | |
461 | "*" => meta_bop {$_[0] * $_[1]}, | |
462 | "/" => meta_bop {$_[0] / $_[1]}, | |
463 | "%" => meta_bop {$_[0] % $_[1]}, | |
464 | "**" => meta_bop {$_[0] ** $_[1]}, | |
465 | "<<" => meta_bop {$_[0] << $_[1]}, | |
466 | ">>" => meta_bop {$_[0] >> $_[1]}, | |
467 | "x" => meta_bop {$_[0] x $_[1]}, | |
468 | "." => meta_bop {$_[0] . $_[1]}, | |
469 | "<" => meta_bop {$_[0] < $_[1]}, | |
470 | "<=" => meta_bop {$_[0] <= $_[1]}, | |
471 | ">" => meta_bop {$_[0] > $_[1]}, | |
472 | ">=" => meta_bop {$_[0] >= $_[1]}, | |
473 | "==" => meta_bop {$_[0] == $_[1]}, | |
474 | "!=" => meta_bop {$_[0] != $_[1]}, | |
475 | "<=>" => meta_bop {$_[0] <=> $_[1]}, | |
476 | "lt" => meta_bop {$_[0] lt $_[1]}, | |
477 | "le" => meta_bop {$_[0] le $_[1]}, | |
478 | "gt" => meta_bop {$_[0] gt $_[1]}, | |
479 | "ge" => meta_bop {$_[0] ge $_[1]}, | |
480 | "eq" => meta_bop {$_[0] eq $_[1]}, | |
481 | "ne" => meta_bop {$_[0] ne $_[1]}, | |
482 | "cmp" => meta_bop {$_[0] cmp $_[1]}, | |
483 | "\&" => meta_bop {$_[0] & $_[1]}, | |
484 | "^" => meta_bop {$_[0] ^ $_[1]}, | |
485 | "|" => meta_bop {$_[0] | $_[1]}, | |
486 | "atan2" => meta_bop {atan2 $_[0], $_[1]}, | |
487 | ||
488 | "neg" => meta_uop {-$_[0]}, | |
489 | "!" => meta_uop {!$_[0]}, | |
490 | "~" => meta_uop {~$_[0]}, | |
491 | "cos" => meta_uop {cos $_[0]}, | |
492 | "sin" => meta_uop {sin $_[0]}, | |
493 | "exp" => meta_uop {exp $_[0]}, | |
494 | "abs" => meta_uop {abs $_[0]}, | |
495 | "log" => meta_uop {log $_[0]}, | |
496 | "sqrt" => meta_uop {sqrt $_[0]}, | |
497 | "bool" => sub { croak "Can't use && or || in expression containing __" }, | |
498 | ||
499 | # "&()" => sub { $_[0]->{impl} }, | |
500 | ||
501 | # "||" => meta_bop {$_[0] || $_[1]}, | |
502 | # "&&" => meta_bop {$_[0] && $_[1]}, | |
503 | # fallback => 1, | |
504 | ; | |
505 | 1; | |
506 | ||
507 | __END__ | |
508 | ||
509 | ||
510 | =head1 NAME | |
511 | ||
512 | Switch - A switch statement for Perl | |
513 | ||
514 | =head1 VERSION | |
515 | ||
a8700562 RGS |
516 | This document describes version 2.11 of Switch, |
517 | released Nov 22, 2006. | |
3ed9f206 JH |
518 | |
519 | =head1 SYNOPSIS | |
520 | ||
a8700562 RGS |
521 | use Switch; |
522 | ||
523 | switch ($val) { | |
524 | case 1 { print "number 1" } | |
525 | case "a" { print "string a" } | |
526 | case [1..10,42] { print "number in list" } | |
527 | case (@array) { print "number in list" } | |
528 | case /\w+/ { print "pattern" } | |
529 | case qr/\w+/ { print "pattern" } | |
530 | case (%hash) { print "entry in hash" } | |
531 | case (\%hash) { print "entry in hash" } | |
532 | case (\&sub) { print "arg to subroutine" } | |
533 | else { print "previous case not true" } | |
534 | } | |
3ed9f206 JH |
535 | |
536 | =head1 BACKGROUND | |
537 | ||
538 | [Skip ahead to L<"DESCRIPTION"> if you don't care about the whys | |
539 | and wherefores of this control structure] | |
540 | ||
541 | In seeking to devise a "Swiss Army" case mechanism suitable for Perl, | |
542 | it is useful to generalize this notion of distributed conditional | |
543 | testing as far as possible. Specifically, the concept of "matching" | |
544 | between the switch value and the various case values need not be | |
545 | restricted to numeric (or string or referential) equality, as it is in other | |
546 | languages. Indeed, as Table 1 illustrates, Perl | |
547 | offers at least eighteen different ways in which two values could | |
548 | generate a match. | |
549 | ||
550 | Table 1: Matching a switch value ($s) with a case value ($c) | |
551 | ||
552 | Switch Case Type of Match Implied Matching Code | |
553 | Value Value | |
554 | ====== ===== ===================== ============= | |
555 | ||
556 | number same numeric or referential match if $s == $c; | |
557 | or ref equality | |
558 | ||
559 | object method result of method call match if $s->$c(); | |
560 | ref name match if defined $s->$c(); | |
561 | or ref | |
562 | ||
563 | other other string equality match if $s eq $c; | |
564 | non-ref non-ref | |
565 | scalar scalar | |
566 | ||
567 | string regexp pattern match match if $s =~ /$c/; | |
568 | ||
569 | array scalar array entry existence match if 0<=$c && $c<@$s; | |
570 | ref array entry definition match if defined $s->[$c]; | |
571 | array entry truth match if $s->[$c]; | |
572 | ||
573 | array array array intersection match if intersects(@$s, @$c); | |
574 | ref ref (apply this table to | |
575 | all pairs of elements | |
576 | $s->[$i] and | |
577 | $c->[$j]) | |
578 | ||
579 | array regexp array grep match if grep /$c/, @$s; | |
580 | ref | |
581 | ||
582 | hash scalar hash entry existence match if exists $s->{$c}; | |
583 | ref hash entry definition match if defined $s->{$c}; | |
584 | hash entry truth match if $s->{$c}; | |
585 | ||
586 | hash regexp hash grep match if grep /$c/, keys %$s; | |
587 | ref | |
588 | ||
589 | sub scalar return value defn match if defined $s->($c); | |
590 | ref return value truth match if $s->($c); | |
591 | ||
592 | sub array return value defn match if defined $s->(@$c); | |
593 | ref ref return value truth match if $s->(@$c); | |
594 | ||
595 | ||
596 | In reality, Table 1 covers 31 alternatives, because only the equality and | |
597 | intersection tests are commutative; in all other cases, the roles of | |
598 | the C<$s> and C<$c> variables could be reversed to produce a | |
599 | different test. For example, instead of testing a single hash for | |
600 | the existence of a series of keys (C<match if exists $s-E<gt>{$c}>), | |
601 | one could test for the existence of a single key in a series of hashes | |
602 | (C<match if exists $c-E<gt>{$s}>). | |
603 | ||
3ed9f206 JH |
604 | =head1 DESCRIPTION |
605 | ||
606 | The Switch.pm module implements a generalized case mechanism that covers | |
a8700562 RGS |
607 | most (but not all) of the numerous possible combinations of switch and case |
608 | values described above. | |
3ed9f206 JH |
609 | |
610 | The module augments the standard Perl syntax with two new control | |
611 | statements: C<switch> and C<case>. The C<switch> statement takes a | |
612 | single scalar argument of any type, specified in parentheses. | |
613 | C<switch> stores this value as the | |
614 | current switch value in a (localized) control variable. | |
615 | The value is followed by a block which may contain one or more | |
616 | Perl statements (including the C<case> statement described below). | |
617 | The block is unconditionally executed once the switch value has | |
618 | been cached. | |
619 | ||
620 | A C<case> statement takes a single scalar argument (in mandatory | |
621 | parentheses if it's a variable; otherwise the parens are optional) and | |
622 | selects the appropriate type of matching between that argument and the | |
623 | current switch value. The type of matching used is determined by the | |
624 | respective types of the switch value and the C<case> argument, as | |
625 | specified in Table 1. If the match is successful, the mandatory | |
626 | block associated with the C<case> statement is executed. | |
627 | ||
628 | In most other respects, the C<case> statement is semantically identical | |
629 | to an C<if> statement. For example, it can be followed by an C<else> | |
630 | clause, and can be used as a postfix statement qualifier. | |
631 | ||
632 | However, when a C<case> block has been executed control is automatically | |
633 | transferred to the statement after the immediately enclosing C<switch> | |
634 | block, rather than to the next statement within the block. In other | |
635 | words, the success of any C<case> statement prevents other cases in the | |
636 | same scope from executing. But see L<"Allowing fall-through"> below. | |
637 | ||
638 | Together these two new statements provide a fully generalized case | |
639 | mechanism: | |
640 | ||
641 | use Switch; | |
642 | ||
643 | # AND LATER... | |
644 | ||
645 | %special = ( woohoo => 1, d'oh => 1 ); | |
646 | ||
647 | while (<>) { | |
6bd77ab2 | 648 | chomp; |
3ed9f206 | 649 | switch ($_) { |
74a6a946 | 650 | case (%special) { print "homer\n"; } # if $special{$_} |
6bd77ab2 | 651 | case /[a-z]/i { print "alpha\n"; } # if $_ =~ /a-z/i |
74a6a946 | 652 | case [1..9] { print "small num\n"; } # if $_ in [1..9] |
6bd77ab2 | 653 | case { $_[0] >= 10 } { print "big num\n"; } # if $_ >= 10 |
3ed9f206 | 654 | print "must be punctuation\n" case /\W/; # if $_ ~= /\W/ |
6bd77ab2 | 655 | } |
3ed9f206 JH |
656 | } |
657 | ||
658 | Note that C<switch>es can be nested within C<case> (or any other) blocks, | |
659 | and a series of C<case> statements can try different types of matches | |
660 | -- hash membership, pattern match, array intersection, simple equality, | |
661 | etc. -- against the same switch value. | |
662 | ||
663 | The use of intersection tests against an array reference is particularly | |
664 | useful for aggregating integral cases: | |
665 | ||
666 | sub classify_digit | |
667 | { | |
668 | switch ($_[0]) { case 0 { return 'zero' } | |
669 | case [2,4,6,8] { return 'even' } | |
6bd77ab2 | 670 | case [1,3,5,7,9] { return 'odd' } |
3ed9f206 JH |
671 | case /[A-F]/i { return 'hex' } |
672 | } | |
673 | } | |
674 | ||
675 | ||
676 | =head2 Allowing fall-through | |
677 | ||
678 | Fall-though (trying another case after one has already succeeded) | |
679 | is usually a Bad Idea in a switch statement. However, this | |
680 | is Perl, not a police state, so there I<is> a way to do it, if you must. | |
681 | ||
3c4b39be | 682 | If a C<case> block executes an untargeted C<next>, control is |
3ed9f206 JH |
683 | immediately transferred to the statement I<after> the C<case> statement |
684 | (i.e. usually another case), rather than out of the surrounding | |
685 | C<switch> block. | |
686 | ||
687 | For example: | |
688 | ||
689 | switch ($val) { | |
690 | case 1 { handle_num_1(); next } # and try next case... | |
691 | case "1" { handle_str_1(); next } # and try next case... | |
692 | case [0..9] { handle_num_any(); } # and we're done | |
693 | case /\d/ { handle_dig_any(); next } # and try next case... | |
694 | case /.*/ { handle_str_any(); next } # and try next case... | |
695 | } | |
696 | ||
697 | If $val held the number C<1>, the above C<switch> block would call the | |
698 | first three C<handle_...> subroutines, jumping to the next case test | |
6bd77ab2 | 699 | each time it encountered a C<next>. After the third C<case> block |
3ed9f206 JH |
700 | was executed, control would jump to the end of the enclosing |
701 | C<switch> block. | |
702 | ||
703 | On the other hand, if $val held C<10>, then only the last two C<handle_...> | |
704 | subroutines would be called. | |
705 | ||
706 | Note that this mechanism allows the notion of I<conditional fall-through>. | |
707 | For example: | |
708 | ||
709 | switch ($val) { | |
710 | case [0..9] { handle_num_any(); next if $val < 7; } | |
711 | case /\d/ { handle_dig_any(); } | |
712 | } | |
713 | ||
3c4b39be | 714 | If an untargeted C<last> statement is executed in a case block, this |
3ed9f206 JH |
715 | immediately transfers control out of the enclosing C<switch> block |
716 | (in other words, there is an implicit C<last> at the end of each | |
717 | normal C<case> block). Thus the previous example could also have been | |
718 | written: | |
719 | ||
720 | switch ($val) { | |
721 | case [0..9] { handle_num_any(); last if $val >= 7; next; } | |
722 | case /\d/ { handle_dig_any(); } | |
723 | } | |
724 | ||
725 | ||
726 | =head2 Automating fall-through | |
727 | ||
728 | In situations where case fall-through should be the norm, rather than an | |
729 | exception, an endless succession of terminal C<next>s is tedious and ugly. | |
730 | Hence, it is possible to reverse the default behaviour by specifying | |
731 | the string "fallthrough" when importing the module. For example, the | |
732 | following code is equivalent to the first example in L<"Allowing fall-through">: | |
733 | ||
734 | use Switch 'fallthrough'; | |
735 | ||
736 | switch ($val) { | |
737 | case 1 { handle_num_1(); } | |
738 | case "1" { handle_str_1(); } | |
739 | case [0..9] { handle_num_any(); last } | |
740 | case /\d/ { handle_dig_any(); } | |
741 | case /.*/ { handle_str_any(); } | |
742 | } | |
743 | ||
744 | Note the explicit use of a C<last> to preserve the non-fall-through | |
745 | behaviour of the third case. | |
746 | ||
747 | ||
748 | ||
74a6a946 JH |
749 | =head2 Alternative syntax |
750 | ||
751 | Perl 6 will provide a built-in switch statement with essentially the | |
752 | same semantics as those offered by Switch.pm, but with a different | |
693b9afd | 753 | pair of keywords. In Perl 6 C<switch> will be spelled C<given>, and |
74a6a946 | 754 | C<case> will be pronounced C<when>. In addition, the C<when> statement |
6596d39b | 755 | will not require switch or case values to be parenthesized. |
74a6a946 | 756 | |
6596d39b | 757 | This future syntax is also (largely) available via the Switch.pm module, by |
74a6a946 JH |
758 | importing it with the argument C<"Perl6">. For example: |
759 | ||
760 | use Switch 'Perl6'; | |
761 | ||
762 | given ($val) { | |
6596d39b JH |
763 | when 1 { handle_num_1(); } |
764 | when ($str1) { handle_str_1(); } | |
765 | when [0..9] { handle_num_any(); last } | |
766 | when /\d/ { handle_dig_any(); } | |
767 | when /.*/ { handle_str_any(); } | |
b2486830 | 768 | default { handle anything else; } |
74a6a946 JH |
769 | } |
770 | ||
6596d39b JH |
771 | Note that scalars still need to be parenthesized, since they would be |
772 | ambiguous in Perl 5. | |
773 | ||
774 | Note too that you can mix and match both syntaxes by importing the module | |
74a6a946 JH |
775 | with: |
776 | ||
777 | use Switch 'Perl5', 'Perl6'; | |
778 | ||
779 | ||
3ed9f206 JH |
780 | =head2 Higher-order Operations |
781 | ||
782 | One situation in which C<switch> and C<case> do not provide a good | |
783 | substitute for a cascaded C<if>, is where a switch value needs to | |
784 | be tested against a series of conditions. For example: | |
785 | ||
786 | sub beverage { | |
787 | switch (shift) { | |
6bd77ab2 RGS |
788 | case { $_[0] < 10 } { return 'milk' } |
789 | case { $_[0] < 20 } { return 'coke' } | |
790 | case { $_[0] < 30 } { return 'beer' } | |
791 | case { $_[0] < 40 } { return 'wine' } | |
792 | case { $_[0] < 50 } { return 'malt' } | |
793 | case { $_[0] < 60 } { return 'Moet' } | |
794 | else { return 'milk' } | |
3ed9f206 JH |
795 | } |
796 | } | |
797 | ||
6bd77ab2 RGS |
798 | (This is equivalent to writing C<case (sub { $_[0] < 10 })>, etc.; C<$_[0]> |
799 | is the argument to the anonymous subroutine.) | |
800 | ||
3ed9f206 JH |
801 | The need to specify each condition as a subroutine block is tiresome. To |
802 | overcome this, when importing Switch.pm, a special "placeholder" | |
803 | subroutine named C<__> [sic] may also be imported. This subroutine | |
804 | converts (almost) any expression in which it appears to a reference to a | |
805 | higher-order function. That is, the expression: | |
806 | ||
807 | use Switch '__'; | |
808 | ||
6bd77ab2 | 809 | __ < 2 |
3ed9f206 JH |
810 | |
811 | is equivalent to: | |
812 | ||
6bd77ab2 | 813 | sub { $_[0] < 2 } |
3ed9f206 JH |
814 | |
815 | With C<__>, the previous ugly case statements can be rewritten: | |
816 | ||
817 | case __ < 10 { return 'milk' } | |
818 | case __ < 20 { return 'coke' } | |
819 | case __ < 30 { return 'beer' } | |
820 | case __ < 40 { return 'wine' } | |
821 | case __ < 50 { return 'malt' } | |
822 | case __ < 60 { return 'Moet' } | |
823 | else { return 'milk' } | |
824 | ||
825 | The C<__> subroutine makes extensive use of operator overloading to | |
826 | perform its magic. All operations involving __ are overloaded to | |
827 | produce an anonymous subroutine that implements a lazy version | |
828 | of the original operation. | |
829 | ||
830 | The only problem is that operator overloading does not allow the | |
831 | boolean operators C<&&> and C<||> to be overloaded. So a case statement | |
832 | like this: | |
833 | ||
834 | case 0 <= __ && __ < 10 { return 'digit' } | |
835 | ||
836 | doesn't act as expected, because when it is | |
837 | executed, it constructs two higher order subroutines | |
838 | and then treats the two resulting references as arguments to C<&&>: | |
839 | ||
840 | sub { 0 <= $_[0] } && sub { $_[0] < 10 } | |
841 | ||
842 | This boolean expression is inevitably true, since both references are | |
843 | non-false. Fortunately, the overloaded C<'bool'> operator catches this | |
844 | situation and flags it as a error. | |
845 | ||
846 | =head1 DEPENDENCIES | |
847 | ||
848 | The module is implemented using Filter::Util::Call and Text::Balanced | |
849 | and requires both these modules to be installed. | |
850 | ||
851 | =head1 AUTHOR | |
852 | ||
e9a641f9 | 853 | Damian Conway (damian@conway.org). The maintainer of this module is now Rafael |
a8700562 | 854 | Garcia-Suarez (rgarciasuarez@gmail.com). |
3ed9f206 JH |
855 | |
856 | =head1 BUGS | |
857 | ||
858 | There are undoubtedly serious bugs lurking somewhere in code this funky :-) | |
859 | Bug reports and other feedback are most welcome. | |
860 | ||
b2486830 | 861 | =head1 LIMITATIONS |
d38ca171 | 862 | |
4f8a7904 WL |
863 | Due to the heuristic nature of Switch.pm's source parsing, the presence of |
864 | regexes with embedded newlines that are specified with raw C</.../> | |
865 | delimiters and don't have a modifier C<//x> are indistinguishable from | |
866 | code chunks beginning with the division operator C</>. As a workaround | |
867 | you must use C<m/.../> or C<m?...?> for such patterns. Also, the presence | |
d38ca171 JH |
868 | of regexes specified with raw C<?...?> delimiters may cause mysterious |
869 | errors. The workaround is to use C<m?...?> instead. | |
870 | ||
b2486830 RGS |
871 | Due to the way source filters work in Perl, you can't use Switch inside |
872 | an string C<eval>. | |
873 | ||
874 | If your source file is longer then 1 million characters and you have a | |
875 | switch statement that crosses the 1 million (or 2 million, etc.) | |
876 | character boundary you will get mysterious errors. The workaround is to | |
877 | use smaller source files. | |
878 | ||
3ed9f206 JH |
879 | =head1 COPYRIGHT |
880 | ||
6bd77ab2 | 881 | Copyright (c) 1997-2006, Damian Conway. All Rights Reserved. |
55a1c97c JH |
882 | This module is free software. It may be used, redistributed |
883 | and/or modified under the same terms as Perl itself. |