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For testing purposes on a project I'm working on, I have a need to, if given a regular expression, randomly generate a string that will FAIL to be matched by it. For instance, if I'm given this regex:


Then I should be able to generate strings such as:


...each of which does NOT match the regex, but NOT generate:


...each of which DO. In other words, I want something like an anti-Xeger.

Does such a library exist, preferably in Python (if I can understand the theory, I can most likely convert it to Python if need be)? I gave some thought to how I could write this, but given the scope of regular expressions, it seemed that might be a much harder problem than what things like Xeger can tackle. I also looked around for a pre-made library to do this, but either I'm not using the right keywords to search or nobody's had this problem before.

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possible duplicate of Reversing a regular expression in python – Bart Kiers Nov 9 '12 at 22:04

4 Answers 4

up vote 4 down vote accepted

My initial instinct is, no, such a library does not exist because it's not possible. You can't be sure that you can find a valid input for any arbitrary regular expression in a reasonable amount of time.

For example, proving whether a number is prime is believed to be a hard to solve mathematical problem. The following regular expression matches any string which is at least 10000 characters long and whose total length is a prime number:


I doubt that any library exists that can find a valid input to this regular expression in reasonable time. And this is a very easy example with a simple solution, e.g. 'x' * 10007 will work. It would be possible to come up with other regular expressions that are much harder to find valid inputs for.

I think the only way you are going to solve this is if you limit yourself to some subset of all possible regular expressions.

But having said that if you have a magical library that generates text that matches for any arbitrary regular expression then all you need to do is generate a regular expression that matches all the strings that don't match your original expression.

Luckily this is possible using a negative lookahead:


If you are willing to change the requirements to only allow a limited subset of regular expressions then you can negate the regular expression by using boolean logic. For example if ^[abcd]d+ becomes ^[^abcd]|^[abcd][^d]. It is then possible to find a valid input for this regular expression in reasonable time.

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@m.buettner: You're right. Thanks for the fix. – Mark Byers Nov 9 '12 at 22:10
Hm, yeah, I was somewhat afraid of that, really. But, ultimately, in this case, I can probably assure that the regexes we'll be supplied will be simple enough to negate by boolean logic, so that idea should help. Thanks anyway! – CaptainSpam Nov 10 '12 at 23:08

I would do a loop, generating random combinations of random length, and test if matches the regexp. Repeat the loop until a not-match situation is reached.

Obviously, this would be inefficient. Are you sure you cannot invert the regexp and generate a match on the inverted regexp?

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No this is impossible. There are an infinite number of regexes that match every string in the known universe. For example:



This is because all these regexes can match nothing at all (which is something all strings have!)

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Can we reduce the infinite number of possibilities, by restricting to generate strings from a give character set.

For example, I can define the character set, [QWERTYUIOP!@#$%^%^&*))_] and all the strings I generate randomly should be born from this set. That way we can reduce the infinite nature of this problem?

In fact even I am looking for a utility like this, preferably in Python.

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