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I am trying to create a regular expression that determines if a string (of any length) matches a regex pattern such that the number of 0s in the string is even, and the number of 1s in the string is even. Can anyone help me determine a regex statement that I could try and use to check the string for this pattern?

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  • 1
    What have you tried?
    – Bart Kiers
    Apr 18, 2012 at 7:16
  • is there any limit as to how long that string (containing the binary) might be? how many bits? Apr 18, 2012 at 7:21
  • There is no limit (except for whatever the string character limit is obviously). :-(
    – canton
    Apr 18, 2012 at 7:25
  • @BartKiers Sorry i missed your initial post. I have tried breaking the options down to repeatable 2,4,8 character sections but have failed to find something that is capable of capturing all available options.
    – canton
    Apr 18, 2012 at 7:34
  • 1
    @pst, does the pumping lemma work? You just take p = 4, and y to be the first occurrence of 11 or 00 (or if that doesn't occur in the first 4 characters: 1010 or 0101), then it satisfies the condition of the pumping lemma (as far as I understand), and the proof by contradiction fails.
    – huon
    Apr 18, 2012 at 7:44

8 Answers 8

8

So completely reformulated my answer to reflect all the changes:

This regex would match all strings with only zeros and ones and only equal amounts of those

^(?=1*(?:01*01*)*$)(?=0*(?:10*10*)*$).*$

See it here on Regexr

I am working here with positive lookahead assertions. The big advantage here of a lookahead assertion is, that it checks the complete string, but without matching it, so both lookaheads start to check the string from the start, but for different assertions.

  1. (?=1*(?:01*01*)*$) does check for an equal amount of 0 (including 0)

  2. (?=0*(?:10*10*)*$) does check for an equal amount of 1 (including 0)

  3. .* does then actually match the string

Those lookaheads checks:

(?=
    1*    # match 0 or more 1
    (?:   # open a non capturing group
        0     # match one 0
        1*    # match 0 or more 1
        0     # match one 0
        1*    # match 0 or more 1
    )
    *     # repeat this pattern at least once
    $     # till the end of the string
)
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  • It works; though it doesn't recognize 11, or 1111, but it works... Well done! ;-) Apr 18, 2012 at 7:43
  • So I'm just a tad bit confused. That's pretty incredible. But how does that not accept the pattern 00000? Because we've matched 0 with each of your 3 separate [0^\s]* checks and additionally a 0 with each 0 check.
    – canton
    Apr 18, 2012 at 7:53
  • @Dr.Kameleon added workaround to allow the completely absence of a digit.
    – stema
    Apr 18, 2012 at 7:54
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    @dbaupp I thought again over my solution and of course there is a solution without alternation. I updated my answer.
    – stema
    Apr 18, 2012 at 8:48
  • 2
    If you're only going to allow 0 and 1 anyway (via the part of the regex that actually consumes the matching characters, namely the ^[01]*$ part, then you don't need all those [^0\s]* and [^1\s]* - 1* and 0* will work just as well. Apr 18, 2012 at 8:50
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So, I have come up with a solution to the problem:

(11+00+(10+01)(11+00)\*(10+01))\*
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  • 1
    +1. Clever solution. It would be written as ^(11|00|(10|01)(11|00)*(10|01))*$ in common regex flavors. The trick here is to realize that the question is in fact equivalent to "even number of As in a string of As and Bs", where A is matched by 10|01 and B is matched by 11|00.
    – Qtax
    Jul 2, 2012 at 11:49
3

For even sets of 0s, you can use the following regex to ensure that the number of 0s is even.

^(1*01*01*)*$

However, I believe that the question is to have both an even number of 0s and also an even number of 1s. Since it is possible to construct a non-deterministic finite automaton (NFA) for this problem, the solution is regular and can be represented using a regex expression. The NFA is represented via the machine below, S1 is the start/exit state.

S1 ---1----->S2
|^ <--1----- |^
||           ||
00           00
||           ||
v|           v|
S3----1----->S4
  <---1------

From there, there's a way to convert NFAs to regex expressions but it's been a while since my computation course. There's some notes below that seem to be helpful in explaining the steps required to convert a NFA to a regex.

http://www.cs.uiuc.edu/class/sp09/cs373/lectures/lect_08.pdf

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  • 1
    Based on this, I think ^((1|0(11)*10)(00|0110)*(1|01(11)*0)|0(11)*0)*$ works. (It can possibly be factorised smaller). regexr.com?30m8j
    – huon
    Apr 18, 2012 at 8:25
  • I've been working on the solution as well but that looks right to me. I'm not sure what the tradeoffs are between using the lookaheads. However, I'm guessing this is a homework problem (otherwise there are far easier ways of tackling this solution).
    – David Z.
    Apr 18, 2012 at 8:40
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    Nope, I was wrong. That one doesn't match 10111101, but this does: ^((1|0(11)*10)(0(11)*0)*(1|01(11)*0)|0(11)*0)*$
    – huon
    Apr 18, 2012 at 8:50
2

RE-UPDATED


Try this : [ check out this demo : http://regexr.com?30m7c ]

^(00|11|0011|0110|1100|1001)+$

Hint :

Even numbers are divisible by 2, thus - in binary - they always end in zero (0)

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  • This is for even binary numbers ... does not mean that count(0) is even and count(1) is even ...
    – user166390
    Apr 18, 2012 at 7:19
  • @pst Looks like you've got a point here; I misread the question... Let me think about it a bit... Apr 18, 2012 at 7:20
  • Yes, @pst is correct. I'm not looking at the binary value; I'm only concerned with the numbers of 1s and 0s. Thank you.
    – canton
    Apr 18, 2012 at 7:24
  • @Dr.Kameleon wouldn't that allow the string 0111? that would only assert that the total number of characters is even, I believe.
    – canton
    Apr 18, 2012 at 7:30
  • @canton I just re-re-updated. Check out. Baaah! I'm close; I can feel it! :-) Apr 18, 2012 at 7:33
1

Not a regular expression (which is likely to be impossible, although I can't prove it: the proof by contradiction via the pumping lemma fails), but the "correct" solution is avoiding a complicated and inefficient regular expression all together and using something like (in Python):

def even01(string):
     return string.count("1") % 2 == 0 and string.count("0") % 2 == 0

Or if the string has to consist only of 1s and 0s:

import re
def even01(string):
     return not re.search("[^01]",string) and \
            string.count("1") % 2 == 0 and string.count("0") % 2 == 0
1
^(0((1(00)*1)*0|1(11|00)*01)|1((0(11)*0)*1|0(11|00)*10))*$

If I haven't overlooked anything, this matches any bit string where the number of 0s is even and the number of 1s is even, using only rudimentary regex operators (*, ^, $). It's slightly easier to see how it works if written like this:

^(0((1(00)*1)*0
   |1(11|00)*01)
 |1((0(11)*0)*1
   |0(11|00)*10))*$

The following test code should illustrate the correctness - we compare the result of the pattern match against a function that tells us if a string has an even number of 0s and 1s. All bit strings of length 16 are tested.

import re

balanced = lambda s: s.count('0') % 2 == 0 and s.count('1') % 2 == 0

pat = re.compile('^(0((1(00)*1)*0|1(11|00)*01)|1((0(11)*0)*1|0(11|00)*10))*$')

size = 16
num = 2**size
for i in xrange(num):
    binstr = bin(i)[2:].zfill(size)
    b, m = balanced(binstr), bool(pat.match(binstr))
    if b != m:
        print "balanced('%s') = %d, pat.match('%s') = %d" % (binstr, b, binstr, m)
        break
    elif i != 0 and i % (num / 10) == 0:
        # Python 2's `/` operator performs integer division
        print "%d percent done..." % (100 * i / num + 1)
0

If you try to solve within the same sentence (starting with ^ and ending with $), you are in deep trouble. :-)

You can make sure that you have an even number of 0s (with ^(1*01*01*)*$, as stated by @david-z) OR you can make sure that you have an even number of 1s:

^(1*01*01*)*$|^(0*10*10*)*$

It works for strings with small lengths as well, such as "00" or "101", both valid strings.

0

I have also been working on lookaheads and lookbacks in my spare time, and using lookahead the problem can be solved while taking also account for the single 1s and/or the single 0s. So, the expression should also work for 11,1111,111111,... and also for 00,0000,000000,....

^(((?=(?:1*01*01*)*$)(?=(?:0*10*10*)*$).*)|([1]{2})*|([0]{2})*)$

Works for all cases. So, if the string consists of only 1s or only 0s:

([1]{2})*|([0]{2})*

If it contains a mix of 0s and 1s, the positive lookahead will take care of that.

((?=(?:1*01*01*)*$)(?=(?:0*10*10*)*$).*

Combining both of them, it takes into account all string with even number of 0s and 1s.

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