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I have a two list as follows

x = ['a','a','b','c','b','a']


x = ['a','a','b','c','c','d']

Thanks to Rohit I have found that this works for the second x value.

from collections import Counter
count = counter(x)

I added

mc = [i for i,z in count.most_common() if z == 3]

but I still need to input z == 3 to get the most common. Is there anyway to make z == 3 into something like max(z)

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"for i in k" == "for i in []" (won't run) This said, you can check: docs.python.org/dev/library/collections#collections.Counter –  BorrajaX Dec 4 '12 at 16:34
from collections import Counter; print Counter(x).most_common()[0] –  Martijn Pieters Dec 4 '12 at 16:35
@MartjinPieters: .most_common(1) (max() can be faster than sorted(reverse=True)[0] –  J.F. Sebastian Dec 4 '12 at 16:57

2 Answers 2

up vote 20 down vote accepted

You can use Counter module from collections, if you want to find the occurrences of each element in the list: -

>>> x = ['a','a','b','c','c','d']

>>> from collections import Counter
>>> count = Counter(x)
>>> count
Counter({'a': 2, 'c': 2, 'b': 1, 'd': 1})
>>> count.most_common()
[('a', 2), ('c', 2), ('b', 1), ('d', 1)]

So, the first two elements are most common in your list.

>>> count.most_common()[0]
('a', 2)
>>> count.most_common()[1]
('c', 2)

or, you also pass parameter to most_common() to specify how many most-common elements you want: -

>>> count.most_common(2)
[('a', 2), ('c', 2)]

Update : -

You can also find out the max count first, and then find total number of elements with that value, and then you can use it as parameter in most_common(): -

>>> freq_list = count.values()
>>> freq_list
[2, 2, 1, 1]
>>> max_cnt = max(freq_list)
>>> total = freq_list.count(max_cnt)

>>> most_common = count.most_common(total)
[('a', 2), ('c', 2)]

>>> [elem[0] for elem in most_common]
['a', 'c']
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why would someone rename Counter as cntr? This is very unpythonic. –  JBernardo Dec 4 '12 at 16:44
it not necessary using slice to get most commont in the list. just supplment n in most_common(n) –  Shawn Zhang Dec 4 '12 at 16:44
@ShawnZhang.. Yeah right. I just used it, because there were two most common elements. I'll add it though. –  Rohit Jain Dec 4 '12 at 16:45
Note: if len(x) is large then count.most_common(2) is more efficient than count.most_common()[:2] –  J.F. Sebastian Dec 4 '12 at 16:53
is there any way to change x but make sure that even if there is only 1 or more than 1 most common that it still produces all most commons? –  Keenan Dec 4 '12 at 16:53

Here is another solution:

max(zip((x.count(item) for item in set(x)), set(x)))

First, we get a collection containing no duplicate elements using set.

>>> set(x)
{'a', 'c', 'b'}

Then, we count how many times each element is in x. This will return a generator object, you can make it a list to see its values (by using "[ ... ]" instead of "( ... )" ), it would return [3, 1, 2].

>>> (x.count(item) for item in set(x))

Then, we take the counts and pair it with the elements using zip. The number of occurrences first, for the next step. You can see its value by using list( ... ) on it, it would return [(3, 'a'), (1, 'c'), (2, 'b')].

>>> zip((x.count(item) for item in set(x)), set(x))

Finally, we find which of the pairs occurs most times using max.

>>> max(zip((x.count(item) for item in set(x)), set(x)))
(3, 'a')

As for the second value, the solution is a bit lengthier. The above is used within a list comprehension:

>>> [mitem for mitem in zip((x.count(item) for item in set(x)),set(x)) if mitem[0] == max((x.count(item) for item in set(x)))]
[(2, 'a'), (2, 'c')]
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yes, just add [-1] at the end (to get the last element) –  Milton Segura Dec 4 '12 at 17:43
Right after the statement, following the three parentheses. Example: ...)))[-1] –  Milton Segura Dec 4 '12 at 18:18
The solution is O(N**4) it is unreasonable even for moderate-sized lists e.g., N=1000 it would require ~10**12 operations. You could easily improve it to O(N**2) that is still bad in comparison with Counter() which provides O(N*log m) time complexity where m is the number of most common elements. –  J.F. Sebastian Dec 4 '12 at 21:54

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