I analyzed these two regexes using regex101. I think the backtrack of /\S+:/ is right. But I can't understand that difference. Am I wrong?


  • I'm actually curious how you got this to happen step-by-step so you could analyze it! – Mehrdad Nov 14 '15 at 7:41
  • 5
    @Mehrdad: On regex101.com, enter a regex and use the regex debugger on the left side of the page. – OnlineCop Nov 14 '15 at 8:06

While this appears to be implementation specific (RegexBuddy doesn't show this behavior), it can be explained as follows:

\w can't match :, but \S can. Therefore, \S+: needs to check more variations of the input string before making sure that get can't match it.

More optimized regex engines will exclude impossible matches faster (e. g., when the regex contains a literal character that isn't present in the current part of the match), but apparently the engine that regex101 is using isn't doing that.

  • I'm curious which regex engines are more optimized, and if there are any obvious distinguishing traits (besides the behavior you mentioned) - thanks! – l'L'l Nov 14 '15 at 7:46
  • I don't really know. I'm pretty sure that .NET, Perl and JGSoft's engines are very clever, but I don't know if there is a comparison available. – Tim Pietzcker Nov 14 '15 at 7:49
  • In any case, even clever engines, will fall into catastrophic backtracking in some circumstances, although they might avoid some instances that create problems for "naive" implementations. – Bakuriu Nov 14 '15 at 9:20

This is a optimization called auto-possessification.

From http://pcre.org/pcre.txt:

PCRE's "auto-possessification" optimization usually applies to character repeats at the end of a pattern (as well as internally). For example, the pattern "a\d+" is compiled as if it were "a\d++" because there is no point even considering the possibility of backtracking into the repeated digits.


This is an optimization that, for example, turns a+b into a++b in order to avoid backtracks into a+ that can never be successful.

Since : is not included in \w, your pattern is interpretted as \w++: (the second + prevents backtracking, see possessive quantifiers). The extra backtracking states are avoided because there isn't another state where it could possibly match.

On the other hand, : is included in \S, so this optimization does not apply for the second case.


You can see the difference using pcretest (there's a Windows version you can download here).

The pattern /\w+:/ takes 11 steps and outputs:

--->get accept:
 +0 ^               \w+
 +3 ^  ^            :
 +0  ^              \w+
 +3  ^ ^            :
 +0   ^             \w+
 +3   ^^            :
 +0    ^            \w+
 +0     ^           \w+
 +3     ^     ^     :
 +4     ^      ^    .*
 +6     ^      ^    
 0: accept:

However, if we use the control verb (*NO_AUTO_POSSESS), which disables this optimization, the pattern /(*NO_AUTO_POSSESS)\w+:/ takes 14 steps and outputs:

--->get accept:
+18 ^               \w+
+21 ^  ^            :
+21 ^ ^             :
+21 ^^              :
+18  ^              \w+
+21  ^ ^            :
+21  ^^             :
+18   ^             \w+
+21   ^^            :
+18    ^            \w+
+18     ^           \w+
+21     ^     ^     :
+22     ^      ^    .*
+24     ^      ^    
 0: accept:

- It takes 1 step less than \S+, as expected, because \w+ does not match :.

Unfortunately regex101 does not support this verb.

Update: regex101 now supports this verb, here's the link to the 3 cases to compare:

  1. /\S+:/ (14 steps) - https://regex101.com/r/cw7hGh/1/debugger

  2. /\w+:/ (10 steps) - https://regex101.com/r/cw7hGh/2/debugger

  3. /(*NO_AUTO_POSSESS)\w+:/ (13 steps) - https://regex101.com/r/cw7hGh/3/debugger

regex101 debugger:

regex101.com debugger

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