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Is there a regexp which would find longest common prefix of two strings? And if this is not solvable by one regexp, what would be the most elegant piece of code or oneliner using regexp (perl, ruby, python, anything).

PS: I can do this easily programatically, I am asking rather for curiosity, because it seems to me that this could be solveable by regexp.

PPS: Extra bonus for O(n) solution using regexps. Come on, it should exist!

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I do not think it's possible. With REs, you see if a piece of data (string) matches an expression (the RE: a program if you will). You now have to pieces of data - neither is a (proper) RE. To find the longest common prefix, you need "something" that takes both as inputs... but REs don't do that: some glue is needed. – Alien Life Form Feb 2 '12 at 15:01
I am happy with a glue solution - maybe convert one of the strings to regexp and than use it on the second one ... – gorn Feb 2 '12 at 15:12
Are the two strings random input or one of them has privileges? In the second case (for example the string is reused multiple times for the same matching) some optimisation would be worth to do. – dolmen Feb 2 '12 at 17:05
See also:… (PHP; not sure if it applies to Python too) – NikiC Feb 7 '12 at 17:29
My solution below addresses the issue that Alien Life Form raises. You have two inputs and an output. Perl-style pseudo-regular expressions don't allow this. But a more general approach is possible. Another issue that has oddly gone unmentioned, is that lcp is most commonly used in the context of suffix arrays, and in this context there are linear time algorithms for finding the complete lcp table. The most well known is by Ko et al. – Dale Gerdemann Feb 23 '12 at 7:12

13 Answers 13

up vote 28 down vote accepted

If there's some character that neither string contains —, say, \0 — you could write

"$first\0$second" =~ m/^(.*).*\0\1/s;

and the longest common prefix would be saved as $1.

Edited to add: This is obviously very inefficient. I think that if efficiency is a concern, then this simply isn't the approach we should be using; but we can at least improve it by changing .* to [^\0]* to prevent useless greediness that will just have to be backtracked again, and wrapping the second [^\0]* in (?>…) to prevent backtracking that can't help. This:

"$first\0$second" =~ m/^([^\0]*)(?>[^\0]*)\0\1/s;

This will yield the same result, but much more efficiently. (But still not nearly as efficiently as a straightforward non–regex-based approach. If the strings both have length n, I'd expect its worst case to take at least O(n2) time, whereas the straightforward non–regex-based approach would take O(n) time in its worst case.)

share|improve this answer
wow, great idea - it's so simple, i did not thought about joining them. I do not fully understand why it would match the longest part, but I am going to think about it :-) – gorn Feb 2 '12 at 15:20
+1: Clever but expensive. An RE is not the way to solve the problem, even though this achieves the result - subject to the regexes accepting the null embedded in the string. (That's not a fatal objection; you can use any character sequence that doesn't appear in either string as the separator.) – Jonathan Leffler Feb 2 '12 at 15:21
expensive - agree, but that is fine. I asked for elegant, not fast. – gorn Feb 2 '12 at 15:22
BTW - how expensive that REALLY is? the separator helps the backtracking engine work quite efficiently so is not it just O(string lentgth)? – gorn Feb 2 '12 at 15:39
For rubyist: (/^(.*).*\0\1/s).match(first+"\0"+second).to_a[1] – gorn Feb 2 '12 at 15:50

Could be useful in some remote cases so here it goes:

RegEx only solution in 3 steps (couldn't create a RegEx in one go):

String A: abcdef
String B: abcxef

  • 1st pass: create RegEx from String A (part 1):
    Match: /(.)/g
    Replace: \1(
    Result: a(b(c(d(e(f(
    Explained demo:

  • 2nd pass: create RegEx from 1st pass result
    Match: /^(.\()(?=(.*)$)|\G.\(/g
    Replace: \1\2)?+
    Result: a(b(c(d(e(f()?+)?+)?+)?+)?+)?+
    Explained demo:

  • 3rd pass: test String B against RegEx created in 2nd pass
    Match: /a(b(c(d(e(f()?+)?+)?+)?+)?+)?+/
    Result: abc (explained demo)

And here's the glorified one-liner in PHP:


Code live at:

share|improve this answer
I must admit that althought it is little bit "bruteforce", it has some kind of elegancy at the same time. Thanks for this, especially I like the second step with positive lookahead regexp. – gorn Apr 19 '13 at 11:56

Here's an O(N) solution with Foma-like pseudocode regular expressions over triples (for lcp, you have two inputs and an output). To keep it simple, I assume a binary alphabet {a,b}:

def match {a:a:a, b:b:b};
def mismatch {a:b:ε, b:a:ε};
def lcp match* ∪ (match* mismatch (Σ:Σ:ε)*)

Now you just need a language that implements multi-tape transducers.

share|improve this answer
+1 for an answer in a language with no implementation! – Tom Feb 6 '12 at 23:14
Thanks Tom. Essentially this is what the question calls for, and I believe that most of the other answers are trying to hack a 3-tape transducer without giving the device a name. Once you have a name, it's possible to find various implementations in various languages. And you can find papers on closure and decidability properties, etc – Dale Gerdemann Feb 23 '12 at 6:54

Using extended regular expressions as in Foma or Xfst.

def range(x) x.l;
def longest(L) L - range(range(L ∘ [[Σ:ε]+ [Σ:a]*]) ∘ [a:Σ]*); 
def prefix(W) range(W ∘ [Σ* Σ*:ε]);
def lcp(A,B) longest(prefix(A) ∩ prefix(B));

The hardest part here is to define "longest". Generally speaking, to optimize, you construct the set of non–optimal strings (worsening) and then remove these (filtering).

This is really a purist approach, which avoids non-regular operations such a capturing.

share|improve this answer

Another attempt for O(n) solution:

$x=length($first); $_="$first\0$second"; s/((.)(?!.{$x}\2)).*//s;

it depends whether .{n} is considered O(1) or O(n), I do not know how efficiently this is implemented.

Notes: 1. \0 should not be in either string it is used as delimiter 2. result is in $_

share|improve this answer
it can be optimized, but this is the main idea inobscured – gorn Feb 3 '12 at 0:40
+1, clever! Though, a tiny point: you need to add /s (both for correctness and for it to even be conceivable that .{n} is O(1) -- without the /s, .{n} would at least have to scan for newlines, unless the regex engine does some sort of pre-check to make sure there aren't any anyway). And you can drop the /g, though I suppose it's not harmful. – ruakh Feb 3 '12 at 0:49
yes, sorry, there should have been s instead of g, corrected. All in all it seems that it have lots of interesting solutions :-) ... One of my really crazy ideas was to invert one of the strings, and than eat doubled characters from the middle :-) – gorn Feb 3 '12 at 1:24

Here's one fairly efficient way which uses a regexp. The code is in Perl, but the principle should be adaptable to other languages:

my $xor = "$first" ^ "$second";    # quotes force string xor even for numbers
$xor =~ /^\0*/;                    # match leading null characters
my $common_prefix_length = $+[0];  # get length of match

(A subtlety worth noting is that Perl's string XOR operator (^) in effect pads the shorter string with nulls to match the length of the longer one. Thus, if the strings might contain null characters, and if the shorter string happens to be a prefix of the longer one, the common prefix length calculated with this code might exceed the length of the shorter string.)

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Very nice trick! I did not find short elegant way to do string xor in ruby thought. – gorn Feb 3 '12 at 0:31
sub LCP { my $match = shift; for (@_) { ($match ^ $_) =~ /^\0*/; substr($match, $+[0]) = ''; } $match; } – timkay Aug 9 '12 at 23:51

Inspired by ruakh's answer, here is the O(n) regexp solution:

"$first \0$second" =~ m/^(.*?)(.).*\0\1(?!\2)/s;

Notes: 1. neither string contains \0 2. longest common prefix would be saved as $1 3. the space is important!

Edit: well it is not correct as rukach metions, but the idea is correct, but we should push regexp machine not to check the beginning letters repeatedly. The basic idea can be also rewritten in this perl oneliner.

perl -e ' $_="$first\0$second\n"; while(s/^(.)(.*?)\0\1/\2\0/gs) {print $1;}; '

I wonder if it can be incorporated back into regexp solution.

share|improve this answer
That's still at least O(n²). The worst-case time occurs when $first and $second are identical: the engine then needs to test every single prefix of $first. If a prefix has length m, then testing for it is at least O(m), so the worst-case time is at least O(0+1+2+...+n), which is O(n²). – ruakh Feb 2 '12 at 19:41
(Also, that would misbehave slightly if $second starts with $first followed by a space, since then \2 would always match, so (?!\2) would never succeed. But that's remediable either by using \0 again instead of a space -- since, by assumption, $second doesn't contain \0 -- or else by saying that the longest common prefix is $1 // $first rather than simply $1.) – ruakh Feb 2 '12 at 19:44
It is true that i did not count with the fact, that the prefix as it gets longer gets rechecked everytime from beginning. But it should not be necessary - it can just check the letters which it is adding, but I do not know how to put it in one regexp. – gorn Feb 2 '12 at 19:58
(No, you are not right, and Yes the cornercase is annoying :-) The double \0's, did not work when I tried it fast, so i introduced the space, which works I believe. If the $second starts with $first and space, than if would not match, because if \2 eats \0 and the \0 can not match. ) – gorn Feb 2 '12 at 20:05
(Yeah, with \0\0 you need to tweak it a bit further, because otherwise the (.*?) can have length zero, and the \0\1(?!\2) will then match the first \0, because (?=\0) implies (?!\2). I think that changing \0\1(?!\2) to \0(?!\0)\1(?!\2) would suffice.) – ruakh Feb 2 '12 at 20:33

I second ruakh's answer for the regexp (with my suggested optimization in the comments). Simple to write, but not simple and efficient to run if the first string is long.

Here is an efficient, non-regexp, readable, one-line answer:

$ perl -E '($n,$l)=(0,length $ARGV[0]); while ($n < $l) { $s = substr($ARGV[0], $n, 1); last if $s ne substr($ARGV[1], $n, 1); $n++ } say substr($ARGV[0], 0, $n)' abce abcdef
share|improve this answer

simple and efficient

def common_prefix(a,b):
  i = 0
  for i, (x, y) in enumerate(zip(a,b)):
    if x!=y: break
  return a[:i]
share|improve this answer
Unless a and b are big enough so that a+b does not fit into the memory ;-) itertools.izip is a better alternative here. – Dawid Fatyga Sep 19 '12 at 19:41

I have the idea this is most inefficient. No err checking, etc.

use strict;
use warnings;

#find the shortest string put it into s1, if you will.

my $n=0;
my $reg;

foreach my $c (split(//,$s1)) { $reg .="($c"; $n++;}

$reg .= ")?" x $n;

$s2 =~ /$reg/; 

print $&,"\n";
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1) the OP specifically asked for a regexp based solution. 2) see the first comment in my code, I could not be bothered to write the code to do that; 3) reading TFQ seldom hurts. – Alien Life Form Feb 2 '12 at 16:46

The problem you're going to have is that a regular expression matches against one string at a time so isn't intended for comparing two strings.

If there's a character that you can be sure isn't in either string you can use it separate them in a single string and then search using back references to groups.

So in the example below I'm using whitespace as the separator

>>> import re
>>> pattern = re.compile("(?P<prefix>\S*)\S*\s+(?P=prefix)")
>>> pattern.match("stack stable").group('prefix')
>>> pattern.match("123456 12345").group('prefix')
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Yes this is nice answer. I have already accepted another one with the same base idea, but thanks. – gorn Feb 2 '12 at 15:55

Non regexp, non duplicating string at each iteration solution:

def common_prefix(a, b):
   #sort strings so that we loop on the shorter one
   a, b = sorted((a,b), key=len)
   for index, letter in a:
      if letter != b[index]:
          return a[:index - 1]
   return a
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Thanks for nice clean code. However, I was rather looking for regexp solution purely for menthal exercise, in this case the kind of solution you are suggesting is probably more pracctical. However some of the answers are very creative ... – gorn Apr 19 '13 at 12:00

Here's a Python one-liner:

>>> a = 'stackoverflow'
>>> b = 'stackofpancakes'
>>> a[:[x[0]==x[1] for x in zip(a,b)].index(0)]
0: 'stacko'
>>> a = 'nothing in'
>>> b = 'common'
>>> a[:[x[0]==x[1] for x in zip(a,b)].index(0)]
1: ''
share|improve this answer
Cute. What's the 0: and 1: in the interpreter results? Are you using some kind of enhanced Python shell that numbers the outputs or something? – John Y Feb 2 '12 at 20:30
Stack-O: A stunt programmer. Likes to practice extreme programming. – Ben Lee Feb 7 '12 at 20:55
Unfortunately it does not handle the case, where a is a prefix of b like: a, b = 'test', 'testing'. It will throw a ValueError because 0 will not be inside a list. – Dawid Fatyga Sep 19 '12 at 19:39
@DawidFatyga: yeah, but that's easily fixed: a[:([x[0]==x[1] for x in zip(a,b)]+[0]).index(0)] – Dave Abrahams Apr 21 '13 at 21:27
itertools.izip will work better for larger strings. – Nikolay Vyahhi May 24 '13 at 0:13

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