# Standard Regex vs python regex discrepancy

I am reading a book and they provide an example of how to match a given string with regular expressions. Here is their example:

b*(abb*)*(a|∊) - Strings of a's and b's with no consecutive a's.


Now I've tried converting it to python like so:

>> p = re.compile(r'b*(abb*)*(a|)') # OR
>> p = re.compile(r'b*(abb*)*(a|\b)')

# BUT it still doesn't work
>>> p.match('aa')


My question is two-fold:

1. What is the equivalent of epsilon in python to make the above example work?
2. Can someone explain to me why theoretical or standard way of doing regular expressions does not work in python? Might it have something to do with the longest vs shortest matching?

Clarification: For people asking what standard regex is - it is the formal language theory standard: http://en.wikipedia.org/wiki/Regular_expression#Formal_language_theory

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"Standard" Regex? Who defined the standard? ANSI? ISO? IEEE? OMG? –  S.Lott Jan 12 '10 at 15:14
@S.Lott: a bloke called Kleene; see en.wikipedia.org/wiki/Stephen_Kleene ... "He also invented regular expressions" –  John Machin Jan 12 '10 at 15:24
Epsilon is the empty string in "standard" Kleene reg exps. Regular expressions came from theory of computation (math) LONG before they entered programming languages... –  Brian Postow Jan 12 '10 at 15:36
@S.Lott: Try reading what the OP wrote: "the theoretical or standard way of doing regular expressions". Of course it's not a specific implementation. He was enquiring why his Python interpretations (one of which was correct (merely omit epsilon)) didn't match what he saw in a book. That's what we're supposed to help with. The answer was that the expression also matches a zero-length string, and it needs the addition of $(or, better \Z) to get the required effect. Would a question about a formula in a trigonometry book and an attempted Python implementation of it be OK? – John Machin Jan 12 '10 at 16:31 @S.Lott. NOT all standards come from standards writing organizations. Also, not all standard things are Standards in the software engineering sense. What standards organization decided that Leibniz notation was going to be the "Standard Calculus notation"? Anyone who has taken a theory of computations class should know what the "normal" way of doing regular expressions is: using Kleene notation. Also, Kleene pre-dates the concept of standards organizations. – Brian Postow Jan 12 '10 at 21:33 ## 7 Answers Thanks for the answers. I feel each answer had part of the answer. Here is what I was looking for. 1. ? symbol is just a shorthand for (something|ε). Thus (a|ε) can be rewritten as a?. So the example becomes: b*(abb*)*a?  In python we would write: p = re.compile(r'^b*(abb*)*a?$')

2. The reason straight translation of regular regular expression syntax into python (i.e. copy and paste) does not work is because python matches the shortest substring (if the symbols $or ^ are absent) while the theoretical regular expressions match longest initial substring. So for example if we had a string: s = 'aa'  Our textbook regex b*(abb*)*a? would not match it because it has two a's. However if we copy it straight to python: >> p = re.compile(r'b*(abb*)*a?') >> bool(p.match(s)) True  This is because our regex matches only the substring 'a' of our string 'aa'. In order to tell python to do a match on the whole string we have to tell it where the beginning and the end of the string is, with the ^ and$ symbols respectively:

>> p = re.compile(r'^b*(abb*)*a?$') >> bool(p.match(s)) False  Note that python regex match() matches at the beginning of the string, so it automatically assumes the ^ at the start. However the search() function does not, and thus we keep the ^. So for example: >> s = 'aa' >> p = re.compile(r'b*(abb*)*a?$')
>> bool(p.match(s))
False                 # Correct
>> bool(p.search(s))
True                  # Incorrect - search ignored the first 'a'

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Excellent summing up of the answers! –  Brian Postow Jan 12 '10 at 21:39
"...python matches the shortest substring..." is wrong. It just doesn't necessarily match the longest substring, like a mathematically-correct regular expression would. –  Alan Moore Jan 12 '10 at 22:57
@Alan: It matches the shortest substring if no ^ or $is provided. – drozzy Jan 16 '10 at 21:49 Consider the regex a+|a+b* applied to aaabb. The shortest possible match would be a, while the longest match is the whole string, but Python matches aaa. It tries various ways to find a match, determined by the way the regex is written, and stops as soon as it finds one that works. If you reverse the order of the alternatives - a+b*|a+ - it will match the whole string. If you add an anchor - (a+|a+b*)$ - the first alternative fails because it doesn't reach the end, but the second alternative succeeds. Not the shortest possible match, just the first. –  Alan Moore Jan 17 '10 at 4:08
By the way, this "regex-directed" behavior is not unique to Python. All of the so-called Perl-compatible flavors do the same: Perl, PHP, Ruby JavaScript, Java, .NET, etc.. ( regular-expressions.info/engine.html ) –  Alan Moore Jan 17 '10 at 4:21

Actually, the example works just fine ... to a small details. I would write:

>>> p = re.compile('b*(abb*)*a?')
>>> m = p.match('aa')
>>> print m.group(0)
'a'
>>> m = p.match('abbabbabababbabbbbbaaaaa')
>>> print m.group(0)
abbabbabababbabbbbba


Note that the group 0 returns the part of the string matched by the regular expression.

As you can see, the expression matches a succession of a and b without repetition of a. If indeed, you want to check the whole string, you need to changed slightly:

>>> p = re.compile('^b*(abb*)*a?$') >>> m = p.match('aa') >>> print m None  the ^ and $ force recognition of the beginning and end of the string.

At last, you can combine both methods by using the first regular expression, but testing at the end:

>>> len(m.group(0)) == len('aa')


Added: For the second part of the OT, it seems to me there is no discrepancy between the standard regex and the python implementation. Of course, the notation is slightly different, and the python implementation suggest some extensions (as most other packages).

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+1 for beating me to the answer! :) btw the ^ is not mandatory because re.match() only attempts the pattern at the very start of the string. –  João Portela Jan 12 '10 at 15:11
oh.. your example is wrong. p = re.compile('b*(abb)*a?') does not match 'aba' –  João Portela Jan 12 '10 at 15:14
oops .. just forgot a star in the first regular expression ... corrected! –  PierreBdR Jan 12 '10 at 15:17
yet you didn't answer the OP's 'two-fold' question ;) –  Antony Hatchkins Jan 12 '10 at 16:12

1

• Use bool(p.match('aa')) to check if the regexp matches or not

• p = re.compile('b*(abb*)*a?$') • \b matches border of string; place between \w and \W (word characters and non-word characters) 2 Regexp is quite standard in python. Yet every language has some flavour of them, they are not 100% portable. There are minor differences which you're expected to lookup prior to using regexp in any specific language. Addition \epsilon does not have special symbol in python. It is an empty character set. In your example a|\epsilon is equivalent to (a|) or just a?. After which $ is obligatory to match end of string.

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I don't think the OP wants a word boundary... you can use epsilon in the middle of a word... it just means the empty string... Also, by "standard" I think OP means the kind of regexps used in theory of computation textbooks... without . or ^$or \w or [1-9] or {3}, but with \epsilon, \lambda etc. – Brian Postow Jan 12 '10 at 14:55 I am not sure what you mean by "That's why in books they invent some special characters which you're expected to lookup prior to using in any specific language.". Please clarify/rewrite and I will accept. – drozzy Jan 12 '10 at 15:47 That was a quick guess. It has been long time since I studied theoretical regexp. Removed. Forget it :) – Antony Hatchkins Jan 12 '10 at 16:17 the problem with your expression is that it matches the empty string, meaning that if you do: >>> p = re.compile('b*(abb*)*(a|)') >>> p.match('c').group(0) ''  and since re.match attempts to match the start of the string, you have to tell it to match it until the end of the string. just use $ for that

>>> p = re.compile(r'b*(abb*)*(a|)$') >>> print p.match('c') None >>> p.match('ababababab').group(0) 'ababababab'  ps- you may have noted that i used r'pattern' instead of 'pattern' more on that here (first paragraphs) - Your second re should be an appropriate replacement for epsilon, as best as I understand it, though I've never seen epsilon in a regex before. For what it's worth, your pattern is matching 'a'. That is to say, it is matching: • zero or more "b"s (choosing zero) • zero or more "(abb*)"s (choosing zero) • one "a" or word ending (choosing an a). As Jonathan Feinberg pointed out, if you want to ensure the whole string matches, you have to anchor the beginning ('^') and end ('$') of your regex. You should also use a raw string whenever constructing regexes in python: r'my regex'. That will prevent excessive backslash escaping confusion.

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You're matching because your regex matches any zero-width segment of any specimen text. You need to anchor your regex. Here's one way of doing it, using a zero-width lookahead assertion:

re.compile(r'^(a(?!a)|b)*$')  - I'm not exactly sure how match works in python, but I think you might need to add ^....$ to your RE. RegExp matching usually matches sub-strings, and it finds the largest match, in the case of p.match('aa') that's "a" (probably the first one). ^...$makes sure that you're matching the ENTIRE string, which is I believe what you want. Theoretical/standard reg exps assume that you're always matching the whole string, because you're using it to define a language of strings that match, not find a substring in an input string. - ^ is not necessary here. It is assumed in re.match. In re.search it is not which is the only difference between those two. – Antony Hatchkins Jan 12 '10 at 14:52 interesting is$ needed though? because if it isn't you're regexp needs to be ...(a$|$) otherwise it matches anything with an a in it... –  Brian Postow Jan 12 '10 at 15:01
$ represents a line end, I don't think this is what you're looking for. re.match does that already as with ^ (for line beginning). – jathanism Jan 12 '10 at 15:08 Pierre's examples would seem to differ, implying that ^$ are in fact necessary... and ^$usually don't mean LINE end and beginning, they mean STRING end and beginning... – Brian Postow Jan 12 '10 at 15:14 match already forces the match to start at the beggining of the string but does not force the end, so you should use $ –  João Portela Jan 12 '10 at 15:25