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If my input is a list like this:

words = ['cat','act','wer','erw']

I want to make a list of lists of anagrams like this -


I have tried to do something like this:

[[w1 for w in words if w!=w1 and sorted(w1)==sorted(w)] for w1 in words]

but it doesn't work. The output was :

[['cat'], ['act'], ['wer'], ['erw']]

In addition, I don`t want to use any import (except string). What is the mistake?

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Be aware that your original method is actually O(#words2) time and thus will not work on large datasets of perhaps more than 10000 words.

groupby one-liner:

One of the most elegant weirdest use cases I've ever seen for itertools.groupby:

>>> [list(v) for k,v in groupby(sorted(words,key=sorted),sorted)]
[['cat', 'act'], ['wer', 'erw']]

defaultdict three-liner:

Using collections.defaultdict, you can do:

anagrams = defaultdict(list)
for w in words:

As for If doing it your original way without any imports, you can emulate collections.defaultdict as follows:

anagrams = {}
for w in words:
    key = tuple(sorted(w))


>>> anagrams
{('e', 'r', 'w'): ['wer', 'erw'], ('a', 'c', 't'): ['cat', 'act']}

(Also written up in whi's answer.)


This problem is also the poster child for map-reduce, where the reduction key you use is the sorted letters (or more efficiently, a hash). This will allow you to massively parallelize the problem.

If we assume the length of words is bounded, the groupby solution is O(#words log(#words)), while the hash solution is expected O(#words). In the unlikely event the length of words is arbitrary in length, sorting (O(length log(length)) per word) is less efficient than using an order-agnostic hash of the letters (O(length) per word). Sadly, collections.Counter is not hashable so you'd have to write your own.

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Elegant and concise, but unfortunately the OP said without using any import – Nick Craig-Wood Jun 2 '12 at 8:24
@NickCraig-Wood: ah, missed that; think I'll leave this here for future reference though. – ninjagecko Jun 2 '12 at 8:25
Yes leave it here - it is a great solution! – Nick Craig-Wood Jun 2 '12 at 8:33
words = ['cat','act','wer','erw']
for w in words:
print dic.values()

this is better in perform: O(n)

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Slightly more eficient to write dic.setdefault(k,[]).append(w) - saves looking the key up twice in the dictionary – Nick Craig-Wood Jun 2 '12 at 8:32

You can find various solutions to anagrams of a single word at a time by googleing. It is likely that there would be a more efficient solver around than the obvious "search through all the words I know and see if they have the same letters".

Once you have one, you can put it into a function:

def anagrams(word):
    "return a list of all known anagrams of *word*"

Once you have that, generalising it to a list of words is trivial:

[anagrams(word) for word in words]
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This one should do the trick in the style you prefer

[[w, w1] for w1 in words for w in words if w!=w1 and sorted(w1)==sorted(w)][::2]
share|improve this answer
This is O(len(words)**2) so if there are lots of words this will be very slow. You've nested for w1 in words in for w in words. – Nick Craig-Wood Jun 2 '12 at 8:41
@NickCraig-Wood you are right, this is not a fast solution, but it's "pythonic" :) – xvatar Jun 2 '12 at 8:43
thanks it work well... but i didn`t understand my mistake. – Eyal Dreifuss Jun 2 '12 at 8:50
and what [::2] means in your sulotion – Eyal Dreifuss Jun 2 '12 at 8:52
@EyalDreifuss [::2] means from the first element, take every second element – xvatar Jun 2 '12 at 9:06

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