I don't fully understand, why the results are different here. Does :ov apply only to <left>, so having found the longest match it wouldn't do anything else?

my regex left {
    a  | ab
my regex right {
    bc | c

"abc" ~~ m:ex/<left><right> 
   {put $<left>, '|', $<right>}/; # 'ab|c' and 'a|bc'
say '---';

"abc" ~~ m:ov/<left><right> 
   {put $<left>, '|', $<right>}/; # only 'ab|c'
up vote 6 down vote accepted

Types of adverbs

It's important to understand that there are two different types of regex adverbs:

  1. Those that fine-tune how your regex code is compiled (e.g. :sigspace/:s, :ignorecase/:i, ...). These can also be written inside the regex, and only apply to the rest of their lexical scope within the regex.
  2. Those that control how regex matches are found and returned (e.g. :exhaustive/:ex, :overlap/:ov, :global/:g). These apply to a given regex matching operation as a whole, and have to be written outside the regex, as an adverb of the m// operator or .match method.

Match adverbs

Here is what the relevant adverbs of the second type do:

  • m:ex/.../ finds every possible match at every possible starting position.
  • m:ov/.../ finds the first possible match at every possible starting position.
  • m:g/.../ finds the first possible match at every possible starting position that comes after the end of the previous match (i.e., non-overlapping).
  • m/.../ finds the first possible match at the first possible starting position.

(In each case, the regex engine moves on as soon as it has found what it was meant to find at any given position, that's why you don't see additional output even by putting print statements inside the regexes.)

Your example

In your case, there are only two possible matches: ab|c and a|bc.
Both start at the same position in the input string, namely at position 0.
So only m:ex/.../ will find both of them – all the other variants will only find one of them and then move on.

  • What I don't understand is: if :ex applies only to the whole match, what makes it find both ab|c and a|bc. They both match the same (part of the) string, so it's basically the same match. Or :ex somehow feels it necessary to find all matching combinations of the pattern's part? Or the reason is that after having found the first match it would try to match in any other way? – Eugene Barsky Oct 24 '17 at 16:46
  • 2
    As far as :ex is concerned, they're not the same match - they're two matches that happen to have the same start and end point... :) And indeed they have different captures in this case. – smls Oct 24 '17 at 19:27
  • Great! As soon as I first time saw :ex, I fell in love with it. :) And still I wonder, whether it's possible to make a grammar produce all possible matches? So to say, make TOP match with :ex adverb. – Eugene Barsky Oct 24 '17 at 19:43

:ex will find all possible combinations of overlapping matches.

:ov acts like :ex except that it limits the search algorithm by constraining it to find only a single match for a given starting position, causing it to produce a single match for a given length. :ex is allowed to start from the very beginning of the string to find a new unique match, and so it may find several matches of length 3; :ov will only ever find exactly one match of length 3.



To find all possible matches of a regex – including overlapping ones – and several ones that start at the same position, use the :exhaustive (short :ex) adverb


To get several matches, including overlapping matches, but only one (the longest) from each starting position, specify the :overlap (short :ov) adverb:

  • Yes, of course, that's for the whole pattern. But how does it work with the parts of the pattern (here — named)? – Eugene Barsky Oct 24 '17 at 15:57
  • @evb - You have to give us an example pattern if you want that question answered. – antiduh Oct 24 '17 at 17:38
  • So do I understand correctly, that :ex will check all possible combinations of the parts of regex and produce as many matches as it can, while :ov finds one and since it cannot shift the beginning of the match, it immediately stops? – Eugene Barsky Oct 24 '17 at 19:34
  • 1
    Tying up a loose end... @EugeneBarsky "So do I understand correctly...?" Would you say you now do? – raiph Nov 7 '17 at 16:12
  • Yes, now it's clear, thanks! – Eugene Barsky Nov 7 '17 at 16:47

Your Answer

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.