If your regexp engine exposes runtime exponential behavior for (x+x+)+y ,then it is *broken* because a DFA or NFA can recognize this pattern in linear time:

```
echo "xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx" | egrep "(x+x+)+y"
echo "xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxy" | egrep "(x+x+)+y"
```

both answer immediately.

In fact, there are only a few cases (like backreferences) where backtracking is really needed (mainly, because a regexp with a backreference is *not* a regular expression in the language theoretic sense anymore). A capable implementation should switch to backtracking only when these corner cases are given.

In fairness, DFA's have a dark side too, because some regexp's have exponential size requirements, but a size contraints is easier to enforce than a time constraint and the huge DFA runs linear on the input, so it's a better bargain than a small backtracker choking on a couple of X's.

You should **really** read Russ Cox excellent article series about the implementation of regexp (and the pathological behavior of backtracking): http://swtch.com/~rsc/regexp/

To answer your question about decidability: You can't. Because there is not *the one* backtracking for regexpr. Every implementation has its own strategies to deal with exponential growth in their algorithm for certain cases and does not cover others. One rule might be fit for here and catastrophic for there.

UPDATE:

For example, one implementation could contain an optimizer which could use algebraic transformations to simplify regexps before executing them: `(x+x+)+y`

is the same a `xxx*y`

, which shouldn't be a problem for any backtracker. But the same optimizer wouldn't recognize the next expression and the problem is there again. Here someone described how to craft a regexpr which fools Perl's optimizer:

http://perlgeek.de/blog-en/perl-tips/in-search-of-an-exponetial-regexp.html