# Find duplicate lists where element order is insignificant but repeat list elements are significant

I've got an odd problem where I need to find duplicate collections of items where the order doesn't matter but the presence of duplicate values within a collection does matter. For example, say I have the following list of lists:

``````lol = [
['red'],
['blue', 'orange'],
['orange', 'red'],
['red', 'orange'],
['red', 'red'],
['blue', 'orange', 'red'],
['red', 'orange', 'blue']
]
``````

In my case, the unique collection would be:

``````unique_lol = [
['red'],
['blue', 'orange'],
['orange', 'red'],
['red', 'red'],
['blue', 'orange', 'red']
]
``````

And the information I'm looking to obtain are the duplicate lists:

``````dup_lol = [
['orange', 'red'],
['blue', 'orange', 'red']
]
``````

I don't care which duplicate is reported as the duplicate, i.e. `['orange', 'red']` vs `['red', 'orange']`, just that the duplicate combination is reported. I first tried to use a set of frozensets:

``````sofs = {frozenset(x) for x in lol}
``````

However, this approach gets tripped up by the `['red', 'red']` list, which gets converted to `['red']`:

``````set([frozenset(['red']),
frozenset(['orange', 'red']),
frozenset(['blue', 'orange', 'red']),
frozenset(['blue', 'orange'])])
``````

Plus, this doesn't give me the duplicates, just the unique ones, and I cannot run difference against the list of lists anyway.

I'm sure I can iterate over the parent lists brute force style, but I feel like I'm missing something simple. I almost need a dictionary where the key is the ordered list, and the value is the number of times that combination appears, but lists cannot be dictionary keys and that just sounds odd anyway.

-

I think what you're looking for is the Counter. Sort each entry and then turn it into a tuple so it can be compared. The counter will keep track of the count of each unique entry:

``````>>> from collections import Counter
>>> counted = Counter(tuple(sorted(entry)) for entry in lol)
>>> import pprint
>>> pprint.pprint(dict(counted))
{('blue', 'orange'): 1,
('blue', 'orange', 'red'): 2,
('orange', 'red'): 2,
('red',): 1,
('red', 'red'): 1}
``````
-
Very nice, I'd not run across Counter. This is indeed exactly what I was looking for. Many thanks! – Fiver Sep 16 '13 at 1:32
no problem, have fun! – jterrace Sep 16 '13 at 1:33

If the order of items in your inner lists generally doesn't matter, I would replace them with Counters.

``````>>> lol = [
...     ['red'],
...     ['blue', 'orange'],
...     ['orange', 'red'],
...     ['red', 'orange'],
...     ['red', 'red'],
...     ['blue', 'orange', 'red'],
...     ['red', 'orange', 'blue']
... ]
>>> from collections import Counter
>>> from pprint import pprint
>>> counters = [Counter(x) for x in lol]
>>> pprint(counters)
[Counter({'red': 1}),
Counter({'orange': 1, 'blue': 1}),
Counter({'red': 1, 'orange': 1}),
Counter({'red': 1, 'orange': 1}),
Counter({'red': 2}),
Counter({'orange': 1, 'red': 1, 'blue': 1}),
Counter({'blue': 1, 'red': 1, 'orange': 1})]
``````

To count the counters, we need to convert them to something hashable first: frozensets of (key, value)-tuples.

``````>>> counts = Counter(frozenset(c.iteritems()) for c in counters)
>>> pprint(counts)
{frozenset({('red', 1)}): 1,
frozenset({('orange', 1), ('red', 1)}): 2,
frozenset({('blue', 1), ('orange', 1)}): 1,
frozenset({('blue', 1), ('orange', 1), ('red', 1)}): 2,
frozenset({('red', 2)}): 1}
``````
-