From: Vincent Pit Date: Mon, 18 Aug 2008 18:59:24 +0000 (+0200) Subject: POD beautifications X-Git-Tag: v1.01~3 X-Git-Url: http://git.vpit.fr/?p=perl%2Fmodules%2FRegexp-Wildcards.git;a=commitdiff_plain;h=81064d8ddc1dbde28e83cb4d1994f0759ce5dd10 POD beautifications --- diff --git a/lib/Regexp/Wildcards.pm b/lib/Regexp/Wildcards.pm index 08a09fc..756545f 100644 --- a/lib/Regexp/Wildcards.pm +++ b/lib/Regexp/Wildcards.pm @@ -31,7 +31,7 @@ BEGIN { $re = $rw->convert('a{b?,c}*'); # Do it Unix shell style. $re = $rw->convert('a?,b*', 'win32'); # Do it Windows shell style. $re = $rw->convert('*{x,y}?', 'jokers'); # Process the jokers and escape the rest. - $re = $rw->convert('%a_c%', 'sql'); # Turn SQL wildcards into regexps. + $re = $rw->convert('%a_c%', 'sql'); # Turn SQL wildcards into regexps. $rw = Regexp::Wildcards->new( do => [ qw/jokers brackets/ ], # Do jokers and brackets. @@ -208,25 +208,35 @@ They are classified into five classes : =over 4 -=item C<'jokers'> converts C to C<.> and C<*> to C<.*> ; +=item * + +C<'jokers'> converts C to C<.> and C<*> to C<.*> ; 'a**\\*b??\\?c' ==> 'a.*\\*b..\\?c' -=item C<'sql'> converts C<_> to C<.> and C<%> to C<.*> ; +=item * + +C<'sql'> converts C<_> to C<.> and C<%> to C<.*> ; 'a%%\\%b__\\_c' ==> 'a.*\\%b..\\_c' -=item C<'commas'> converts all C<,> to C<|> and puts the complete resulting regular expression inside C<(?: ... )> ; +=item * + +C<'commas'> converts all C<,> to C<|> and puts the complete resulting regular expression inside C<(?: ... )> ; 'a,b{c,d},e' ==> '(?:a|b\\{c|d\\}|e)' -=item C<'brackets'> converts all matching C<{ ... , ... }> brackets to C<(?: ... | ... )> alternations. If some brackets are unbalanced, it tries to substitute as many of them as possible, and then escape the remaining unmatched C<{> and C<}>. Commas outside of any bracket-delimited block are also escaped ; +=item * + +C<'brackets'> converts all matching C<{ ... , ... }> brackets to C<(?: ... | ... )> alternations. If some brackets are unbalanced, it tries to substitute as many of them as possible, and then escape the remaining unmatched C<{> and C<}>. Commas outside of any bracket-delimited block are also escaped ; 'a,b{c,d},e' ==> 'a\\,b(?:c|d)\\,e' '{a\\{b,c}d,e}' ==> '(?:a\\{b|c)d\\,e\\}' '{a{b,c\\}d,e}' ==> '\\{a\\{b\\,c\\}d\\,e\\}' -=item C<'groups'> keeps the parenthesis C<( ... )> of the original string without escaping them. Currently, no check is done to ensure that the parenthesis are matching. +=item * + +C<'groups'> keeps the parenthesis C<( ... )> of the original string without escaping them. Currently, no check is done to ensure that the parenthesis are matching. 'a(b(c))d\\(\\)' ==> (no change) @@ -236,11 +246,17 @@ Each C<$c> can be any of : =over 4 -=item A hash reference, with wanted metacharacter group names (described above) as keys and booleans as values ; +=item * + +A hash reference, with wanted metacharacter group names (described above) as keys and booleans as values ; -=item An array reference containing the list of wanted metacharacter classes ; +=item * -=item A plain scalar, when only one group is required. +An array reference containing the list of wanted metacharacter classes ; + +=item * + +A plain scalar, when only one group is required. =back @@ -269,22 +285,30 @@ This method works like L, except that the classes are different : =over 4 -=item C<'single'> will capture all unescaped I<"exactly one"> metacharacters, i.e. C for wildcards or C<_> for SQL ; +=item * + +C<'single'> will capture all unescaped I<"exactly one"> metacharacters, i.e. C for wildcards or C<_> for SQL ; 'a???b\\??' ==> 'a(.)(.)(.)b\\?(.)' 'a___b\\__' ==> 'a(.)(.)(.)b\\_(.)' -=item C<'any'> will capture all unescaped I<"any"> metacharacters, i.e. C<*> for wildcards or C<%> for SQL ; +=item * + +C<'any'> will capture all unescaped I<"any"> metacharacters, i.e. C<*> for wildcards or C<%> for SQL ; 'a***b\\**' ==> 'a(.*)b\\*(.*)' 'a%%%b\\%%' ==> 'a(.*)b\\%(.*)' -=item C<'greedy'>, when used in conjunction with C<'any'>, will make the C<'any'> captures greedy (by default they are not) ; +=item * + +C<'greedy'>, when used in conjunction with C<'any'>, will make the C<'any'> captures greedy (by default they are not) ; 'a***b\\**' ==> 'a(.*?)b\\*(.*?)' 'a%%%b\\%%' ==> 'a(.*?)b\\%(.*?)' -=item C<'brackets'> will capture matching C<{ ... , ... }> alternations. +=item * + +C<'brackets'> will capture matching C<{ ... , ... }> alternations. 'a{b\\},\\{c}' ==> 'a(b\\}|\\{c)'