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I stumbled upon this seemingly trivial question, and I'm stuck on it. I have a string, in which I want to match in one regex all uppercase words only if somewhere in the string there's at least a lowercase letter.

Basically, I want each of these lines (we can consider I'll apply the regex to each line separately, no need for some multiline handling) to output:

ab ABC          //matches or captures ABC
ab ABC 12 CD    //matches or captures ABC, CD
ABC DE          //matches or captures nothing (no lowercase)
ABC 23 DE EFG a //matches or captures ABC, DE, EFG
AB aF DE        //matches or captures AB, DE

I am using PCRE as regex flavor (I know some other flavors allow for variable length look-behind).

Update after comments

Obviously, there are lots of easy solutions if I use multiple regex or the program language I'm using to call the regex (e.g. first validate the string by looking for a lowercase letter then match all uppercase words with two different regex).

My goal here is to find a way to do it with one regex.

I have no technical imperative for this constraint. Take it as an exercise of style if you have to, or curiosity, or me trying to up my regex skills: the task seemed (at first) so simple that I'd like to know if one regex alone can achieve it. If it can't, I'd like to understand why.

Or if it can but regex aren't designed for these kind of tasks, I wish I'd know why - or at least what are "these kind of unsuited tasks", so that I can choose the right solution when I meet them.

So, is it doable in one regex?

share|improve this question
Why not doing something simple with the language you are using. PHP: if(preg_match('/[a-z]/', $string) { $string = strtoupper($string); } – Sam Feb 18 '14 at 1:24
I know it's a long question but please read the disclaimer part: many easy practical solutions if we do not limit to pure regex, I want to know if this is doable in one regex. – Robin Feb 18 '14 at 1:26
I don't think so. Regex essentially returns either "matches" or "not matches" and we have 2 kinds of matching statuses: whether the entire expr matches lowercase and where the uppercase words are. You need separate Regex to perform these separate matches. – La-comadreja Feb 18 '14 at 1:28
My bad! I was just skimming through quickly :) – Sam Feb 18 '14 at 1:29
up vote 1 down vote accepted

So \G initially is set to a matched condition at position 0.
Which means in multi-line mode, BOS has to be a special case.
Even though BOString is a BOLine, if the assertion (?= ^ .* [a-z] ) fails,
\G is initially set as matched (default?) and UC words are found without being validated.


Update 2 Posted for posterity.
After some discussion with @Robin, the above regex can be refactored to this:

 #  (?:(?=^.*[a-z])|(?!\A)\G).*?\b([A-Z]+)\b

      (?= ^ .* [a-z] )        # BOL, check if line has lower case letter
   |                        # or
      (?! \A )                # Not at BOS (beginning of string, where \G is in a matched state)
      \G                      # Start the match at the end of last match (if previous matched state)
 .*? \b 
 ( [A-Z]+ )              # (1), Found UC word

Perl test case:

$/ = undef;

$str = <DATA>;

@ary = $str =~ /(?:(?=^.*[a-z])|(?!\A)\G).*?\b([A-Z]+)\b/mg;

print "@ary", "\n-------------\n";

while ($str =~ /(?:(?=^.*[a-z])|(?!\A)\G).*?\b([A-Z]+)\b/mg)
   print "$1 ";

ab ABC
ab ABC 12 CD

Output >>

share|improve this answer
Thanks for the help! However, it seems to break if the string is only A BC: it shouldn't select anything but it does. As I'm not very comfortable around \G (and don't fully understand yet why your regex seems to work in other cases) I don't know if that's a hard-to-fix issue. BTW I guess for now the answer doesn't need to be multiline, we can take each line separately. Also I'm not sure if you really need the last non-capturing parenthesis. – Robin Feb 18 '14 at 2:52
@Robin - Posted an update, break it if you can. – sln Feb 18 '14 at 18:30
Yep, I think it holds! Thanks for the multiline solution. Few comments: 1.I believe the regex could, strictly speaking, be refactored as (?:(?=\A.*[a-z])|(?!\A)(?:(?=^.*[a-z])|(?!^)\G)).*?\b([A-Z]+)\b. 2.Regarding the default matching of \G, if think the check could be done as so: (?:(?=^.*[a-z])|(?!^)\G).*?\b([A-Z]+)\b, as a BOS is a BOL. Do you agree? – Robin Feb 18 '14 at 21:12
@Robin - Answer to 1 No reason to add (?!^), taking it out it could be refactored to (?:(?=\A.*[a-z])|(?!\A)(?:(?=^.*[a-z])|\G)).*?\b([A-Z]+)\b. Answer to 2 The only reason for this (?=^.*[a-z])|(?!^)\G) is to flip the nitial regex startup matched state of \G to unmatched. Thats it, nothing more. After that is done, this works (?:(?=^.*[a-z])|\G.*?\b([A-Z]+)\b) because \G naturally goes into an unmatched state. The (?!^)\G is just a shortcut for whats really happening, but not necessary after getting to first unmatched state. – sln Feb 18 '14 at 22:11
@Robin - So, just for reference, the docs say \G is used to chain multiple regex's on the same string starting from the end of the last match. By default then, on a new regex, \G is initially in the matched state. So there always has to be a way to thwart that condition because the engine will always try to consume something if it can. And you give it as a first option to consume nothing (ie: an assertion) or to consume something (\Gsomething) its gonna take the something every time. Bearing that in mind, you've just mastered the \G anchor. – sln Feb 18 '14 at 22:26

Silly questions deserve silly answers.

/(?{ @matches = m{\b\p{Lu}+\b}g if m{\p{Ll}} })/;


use strict;
use warnings;
use feature qw( say );

while (<DATA>) {

   local our @matches;
   /(?{ @matches = m{\p{Lu}+}g if m{\p{Ll}} })/;

   say "$_: ", join ', ', @matches;

ab ABC
ab ABC 12 CD

And now for the silly answer I promised:

my @matches = /
   (?: (?! ^ )
   |   (?= .* \p{Ll} )
   .*? ( \b \p{Lu}+ \b )

which condenses to

my @matches = /\G(?:(?!^)|(?=.*\p{Ll})).*?(\b\p{Lu}+\b)/sg;

At the start of the string, it looks ahead for a lower-case. Anywhere else, there's no need to check since we already checked.

share|improve this answer
Thank you ! I am more interested in the "silly answer" indeed. Just two comments: 1. I am interested in each line separatly, not multiline, so I believe the s flag isn't necessary. 2. This will currently break on AB aC BD, selecting the C while I only want full uppercase words. But I believe /\G(?:(?!^)|(?=.*\p{Ll})).*?\b(\p{Lu}+)\b/g solves it all. Thanks ! – Robin Feb 18 '14 at 10:30
Don't take out the ^; add /m. Don't replace \P{Lu}* which much fragile .*?. .*? is something you very much want to avoid. – ikegami Feb 18 '14 at 12:20
Thanks for the follow up. 1. The ^ hasn't changed as far as I can tell, there is just no multiline in my question: I'd like a solution for one line (let's say I apply the regex to each line of the example snippet separately) 2. I don't feel so good about .*?, either. But your current solution, when given AB aC AD will output AB, C, AD (or just AB if I add word boundaries) instead of AB, AD. Any idea how to fix that? edit: maybe this wasn't clear so I updated the question to reflect this comment. – Robin Feb 18 '14 at 13:13
Re: "just no multiline in my question", then why would you want to check for newlines? Keep the /s. – ikegami Feb 18 '14 at 13:52
ug, The fact that .*? makes it so much simpler is another sign that this is a completely incorrect approach. – ikegami Feb 18 '14 at 13:54

I'm not sure if that can be done, but here is some background information, explaining the "Why?" part a bit.

Regexes were designed to match regular languages, and originally, that's all they could do. In fact, regular grammars are among the simplest that aren't completely trivial; most modern computer languages use non-regular grammars, for instance. (See, especially, this section.)

So, there is a limit to what kind of languages a regex can describe, and it is far more limited that what you can describe with some simple English sentences, for example.

The Chomsky hierarchy is a way to classify languages into different levels of expressiveness. Note that regular grammars are all the way at the bottom, and most useful (programming) languages are either Type 3, or borderline Type-3 (i.e. with a few Type-3 parts added in). This is due to a simple fact: our brains are quite capable of processing context-sensitive (Type-3) grammars, even complex ones (so we want programming languages to be powerful). However, computer parsers for context sensitive grammars are quite a bit slower than those for Type-2 (so, we want programming languages to be limited in power!

For regexes, which are expected to match very quickly, it's even more important to limit their overall expressiveness. But, by writing two or more regexes with some control-structure added, you are effectively expanding them to be more powerful than a regular expression parser.

share|improve this answer
Thank you for that clear explanation, especially of why two regex can be inherently more powerful than one. One detail: in the wiki article, I believe Types are ordered the other way around (T3: regular, T0: Turing complete). In my case though, an answer does seem to exist (currently discussing /(?:(?=^.*[a-z])|(?!^)\G).*?\b([A-Z]+)\b/gm with @sln) – Robin Feb 19 '14 at 2:27

Maybe we're over thinking things:

#! /usr/bin/env perl
use strict;
use feature qw(say);
use autodie;
use warnings;
use Data::Dumper;

while ( my $string = <DATA> ) {
    chomp $string;
    my @array;
    say qq(String: "$string");
    if ( @array = $string =~ /(\b[A-Z]+\b)/g ) {
        say qq(String groups: ) . join( ", ", @array ) . "\n";

ab ABC
ab ABC 12 CD

The output:

String: "ab ABC"
String groups: ABC

String: "ab ABC 12 CD"
String groups: ABC, CD

String: "ABC DE"
String groups: ABC, DE

String: "ABC 23 DE EFG a"
String groups: ABC, DE, EFG

String: "AB aF DE"
String groups: AB, DE

String: "ADSD asd ADSD"
String groups: ADSD, ADSD

String: "asd ADSDSD"
String groups: ADSDSD

String: "SDSD SDD SD"
String groups: SDSD, SDD, SD

String: "SSDD SDS asds"
String is groups: SSDD, SDS

Did I miss something?

share|improve this answer
Hey, thanks for your input. I am looking for a way to match these words in one regex (non-negotiable constraint). You're not the only one who took my question that way, so I believe it wasn't well formed and I've updated it. I hope it is clearer. – Robin Feb 19 '14 at 0:11
Um, but I'm using a single regex: /(\b[A-Z]+\b)/g. You're not trying to match all of the lines at once. Are you? – David W. Feb 19 '14 at 0:30
Woops, my turn to read too fast :/ I need to match uppercase words only on lines that have at least one lowercase letter, so AB EF shouldn't match anything, but AB cD EF should match AB and EF. – Robin Feb 19 '14 at 0:45
Dang. So close... – David W. Feb 19 '14 at 1:49

One regex:

@words = split (/[a-z]+/, $_);
share|improve this answer
Huuum... How would that select uppercase words on lines containing a lowercase? – Robin Feb 19 '14 at 2:11

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