The answer to the question in your title is "no" -- to match N groups "in any order", the regex should have an "or" (the `|`

feature in the regex pattern) among the `N!`

(N factorial) possible permutations of the groups, the product of all integers from 1 to N. That's a number which grows *extremely* fast -- for N just equal 6, it's already 720, for 7, it's almost 5000, and so on at a dizzying pace -- so this approach is totally impractical for any N which isn't really tiny.

The solutions may be many, depending on what you want the groups to be separated with. Let's say, for example, that you don't care (if you DO care, edit your question with better specs).

In this case, if overlapping matches are impossible or are OK with you, make N separate regular expressions, one per group -- say these N compiled RE objects are in a list named `grps`

, then

```
mos = [g.search(thestring) for g in grps]
```

is the list of match objects for the groups (`None`

for a group which doesn't match). With the `mos`

list you can do all sorts of checks and/or further manipulations, for example `all(mos)`

is `True`

if and only if all the groups matched, in which case `[m.group() for m in mos]`

is the list of substrings that have been matched, and so on, and so forth.

If you need non-overlapping matches, it's a bit more complicated -- you may extract the boundaries of all possible matches for each group, then seeing if there's a way to extract from these `N`

lists a set of `N`

intervals, one per lists, so that no two of them are pairwise intersecting. This is a somewhat subtle algorithm (if you want reasonable speed for a large `N`

, of course), so I think it's worth a separate question, and in any case it's not worth discussing right here when the very issue of whether it's needed or not depends on so incredibly *many* factors that you have not specified.

So, please edit your question with more precise specifications, first, and then things can perhaps be clarified to provide you with the code and/or algorithms you need.

**Edit**: I see the OP has now clarified the issue at least of the extent of providing an example -- although, confusingly, he offers a RE pattern example and a string example that should **not** match, regardless of ordering (the RE specifies the presence of a substring `@title`

which the example string does **not** have -- puzzling!).

Anyway, if the number of groups in the example (two which appear to be interchangeable, one which appears to have to occur in a specific spot) is representative of the OP's actual problems, then the total number of permutations of interest is just two, so joining the "just two" permutations with a vertical bar `|`

would of course be quite feasible. Is that the case in the OP's real problems, though...?

**Edit**: if the number of permutations of interest is tiny, here's an example of one way to avoid the problem of repeated group names in the pattern (syntax requires Python 2.7 or better, but that's just for the final "dict comprehension" -- the same functionality is available in many previous version of Python, just with the less elegant `dict(('a', ...`

syntax;-)...:

```
>>> r = re.compile(r'(?P<a1>a.*?a).*?(?P<b1>b.*?b)|(?P<b2>b.*?b).*?(?P<a2>a.*?a)')
>>> m = r.search('zzzakkkavvvbxxxbnnn')
>>> g = m.groupdict()
>>> d = {'a':(g.get('a1') or g.get('a2')), 'b':(g.get('b1') or g.get('b2'))}
>>> d
{'a': 'akkka', 'b': 'bxxxb'}
```