# Find the most common element in a list

What is an efficient way to find the most common element in a Python list?

My list items may not be hashable so can't use a dictionary. Also in case of draws the item with the lowest index should be returned. Example:

``````>>> most_common(['duck', 'duck', 'goose'])
'duck'
>>> most_common(['goose', 'duck', 'duck', 'goose'])
'goose'
``````
• If the items in the list are not hashable, how would you determine when they are 'equal'? The efficiency loss in determining equality for non-hashable items would probably negate any efficiency you hope to gain with a good algorithm :)
– HS.
Commented Oct 5, 2009 at 7:05
• I think he means that the items can be mutable and thus not elegible to be keys in a hashmap... Commented Oct 5, 2009 at 7:35
• yeah that's what I meant - sometimes it will contain lists
– hoju
Commented Oct 5, 2009 at 12:02
• Commented May 22, 2018 at 8:49

A simpler one-liner:

``````def most_common(lst):
return max(set(lst), key=lst.count)
``````
• The OP stated that [..] in case of draws the item with the lowest index should be returned. This code does not, in general, meet that requirement. Commented Oct 5, 2009 at 7:45
• Plus, the OP stated that the elements must be hashable: sets must contains hashable objects. Commented Oct 5, 2009 at 9:16
• Plus, this approach is algorithmically slow (for each elements in `set(lst)`, the whole list must be checked again)… Probably fast enough for most uses, though… Commented Oct 5, 2009 at 9:17
• You can replace `set(lst)` with `lst` and it will work with non-hashable elements too; albeit slower. Commented Oct 6, 2009 at 0:53
• This may look attractive but from an algorithmic point of view this is terrible advice. `list.count()` has to traverse the list in full, and you do so for every single unique item in the list. This makes this a O(NK) solution (O(N^2) in the worst case). Using a `Counter()` only takes O(N) time! Commented Oct 14, 2017 at 21:27

Borrowing from here, this can be used with Python 2.7:

``````from collections import Counter

def Most_Common(lst):
data = Counter(lst)
return data.most_common(1)[0][0]
``````

Works around 4-6 times faster than Alex's solutions, and is 50 times faster than the one-liner proposed by newacct.

On CPython 3.6+ (any Python 3.7+) the above will select the first seen element in case of ties. If you're running on older Python, to retrieve the element that occurs first in the list in case of ties you need to do two passes to preserve order:

``````# Only needed pre-3.6!
def most_common(lst):
data = Counter(lst)
return max(lst, key=data.get)
``````
• This might be useful to some but ... unfortunately Counter is a dict subclass, and the OP said he couldn't use dictionaries (as items may not be hashable). Commented Sep 8, 2014 at 15:32
• Love this. The one-liner by @newacct above may be simple, but it runs in O(n^2); that is, where n is the length of the list. This solution is O(n). Commented May 22, 2015 at 16:50
• Like the simplicity and the speed... maybe not ideal for OP. But suits me great!
– Thom
Commented Oct 20, 2015 at 12:50
• doesn't return the lowest indexed item. most_common returns an unordered list, and grabbing (1) just returns whatever it would like. Commented Sep 26, 2017 at 20:59
• @AgentBawls: `most_common` is sorted by count, not unordered. That said, it won't pick the first element in case of ties; I've added another way to use the counter that does pick the first element. Commented Oct 15, 2017 at 0:21

With so many solutions proposed, I'm amazed nobody's proposed what I'd consider an obvious one (for non-hashable but comparable elements) -- [`itertools.groupby`][1]. `itertools` offers fast, reusable functionality, and lets you delegate some tricky logic to well-tested standard library components. Consider for example:

``````import itertools
import operator

def most_common(L):
# get an iterable of (item, iterable) pairs
SL = sorted((x, i) for i, x in enumerate(L))
# print 'SL:', SL
groups = itertools.groupby(SL, key=operator.itemgetter(0))
# auxiliary function to get "quality" for an item
def _auxfun(g):
item, iterable = g
count = 0
min_index = len(L)
for _, where in iterable:
count += 1
min_index = min(min_index, where)
# print 'item %r, count %r, minind %r' % (item, count, min_index)
return count, -min_index
# pick the highest-count/earliest item
return max(groups, key=_auxfun)[0]
``````

This could be written more concisely, of course, but I'm aiming for maximal clarity. The two `print` statements can be uncommented to better see the machinery in action; for example, with prints uncommented:

``````print most_common(['goose', 'duck', 'duck', 'goose'])
``````

emits:

``````SL: [('duck', 1), ('duck', 2), ('goose', 0), ('goose', 3)]
item 'duck', count 2, minind 1
item 'goose', count 2, minind 0
goose
``````

As you see, `SL` is a list of pairs, each pair an item followed by the item's index in the original list (to implement the key condition that, if the "most common" items with the same highest count are > 1, the result must be the earliest-occurring one).

`groupby` groups by the item only (via `operator.itemgetter`). The auxiliary function, called once per grouping during the `max` computation, receives and internally unpacks a group - a tuple with two items `(item, iterable)` where the iterable's items are also two-item tuples, `(item, original index)` [[the items of `SL`]].

Then the auxiliary function uses a loop to determine both the count of entries in the group's iterable, and the minimum original index; it returns those as combined "quality key", with the min index sign-changed so the `max` operation will consider "better" those items that occurred earlier in the original list.

This code could be much simpler if it worried a little less about big-O issues in time and space, e.g....:

``````def most_common(L):
groups = itertools.groupby(sorted(L))
def _auxfun((item, iterable)):
return len(list(iterable)), -L.index(item)
return max(groups, key=_auxfun)[0]
``````

same basic idea, just expressed more simply and compactly... but, alas, an extra O(N) auxiliary space (to embody the groups' iterables to lists) and O(N squared) time (to get the `L.index` of every item). While premature optimization is the root of all evil in programming, deliberately picking an O(N squared) approach when an O(N log N) one is available just goes too much against the grain of scalability!-)

Finally, for those who prefer "oneliners" to clarity and performance, a bonus 1-liner version with suitably mangled names:-).

``````from itertools import groupby as g
def most_common_oneliner(L):
return max(g(sorted(L)), key=lambda(x, v):(len(list(v)),-L.index(x)))[0]
``````
• This breaks on Python3 if your list has different types. Commented Feb 24, 2016 at 22:47
• `groupby` requires sorting first (O(NlogN)); using a `Counter()` with `most_common()` can beat that because it uses a heapq to find the highest frequency item (for just 1 item, that's O(N) time). As `Counter()` now is heavily optimised (counting takes place in a C loop), it can easily beat this solution even for small lists. It blows it out of the water for large lists. Commented Oct 14, 2017 at 21:26
• Only the 'lowest index' requirement for ties makes this a valid solution for just this problem. For the more general case you definitely should use the Counter approach. Commented Oct 14, 2017 at 22:11
• @MartijnPieters Perhaps you've missed the part of the question where it said the items may be unhashable.
– wim
Commented Oct 15, 2017 at 0:54
• @wim right, and if items are unhashable. Which makes the votes on the set and max approach all the more incongruous. Commented Oct 15, 2017 at 1:39

What you want is known in statistics as mode, and Python of course has a built-in function to do exactly that for you:

``````>>> from statistics import mode
>>> mode([1, 2, 2, 3, 3, 3, 3, 3, 4, 5, 6, 6, 6])
3
``````

Note that if there is no "most common element" such as cases where the top two are tied, this will raise `StatisticsError` on Python <=3.7, and on 3.8 onwards it will return the first one encountered.

• this doesn't satisfy the OP's requirement of what to return when there is more than one most common value - a statistics.StatisticsError is raised Commented Apr 7, 2016 at 14:06
• Oops, missed the requirement when reading it. I still believe this answer holds value though, as no one suggested it in this question, and it is a good solution for the problem for people with least restrictive requirements. This is one of the top results for "most common item in list python" Commented Apr 7, 2016 at 17:15
• In that case use the mode function in pandas DataFrames. Commented Mar 13, 2017 at 22:34
• Up-vote, this one should be higher. And it's not that hard to satisfy the OP's requirement with simple try-except (see my stackoverflow.com/a/52952300/6646912) Commented Oct 23, 2018 at 15:06
• The text in bold is no longer correct. This has been changed in 3.8: Now handles multimodal datasets by returning the first mode encountered. Now statistics.multimode(data) is available Commented Feb 20, 2021 at 17:13

Without the requirement about the lowest index, you can use `collections.Counter` for this:

``````from collections import Counter

a = [1936, 2401, 2916, 4761, 9216, 9216, 9604, 9801]

c = Counter(a)

print(c.most_common(1)) # the one most common element... 2 would mean the 2 most common
[(9216, 2)] # a set containing the element, and it's count in 'a'
``````
• this answer needs more upvotes as it addresses the general task of counting element occurrences in a list using a standard module and 2 lines of code Commented Apr 27, 2020 at 9:55
• But Counter does throw a `TypeError: unhashable type` is the list includes unhashable types (as the original question suggested) so it's not a solution here.
– 576i
Commented Feb 18, 2022 at 13:40

If they are not hashable, you can sort them and do a single loop over the result counting the items (identical items will be next to each other). But it might be faster to make them hashable and use a dict.

``````def most_common(lst):
cur_length = 0
max_length = 0
cur_i = 0
max_i = 0
cur_item = None
max_item = None
for i, item in sorted(enumerate(lst), key=lambda x: x[1]):
if cur_item is None or cur_item != item:
if cur_length > max_length or (cur_length == max_length and cur_i < max_i):
max_length = cur_length
max_i = cur_i
max_item = cur_item
cur_length = 1
cur_i = i
cur_item = item
else:
cur_length += 1
if cur_length > max_length or (cur_length == max_length and cur_i < max_i):
return cur_item
return max_item
``````
• Here's a simpler way ideone.com/Nq81vf , comparing with Alex's `Counter()` solution Commented Jan 27, 2017 at 14:49

This is an O(n) solution.

``````mydict   = {}
cnt, itm = 0, ''
for item in reversed(lst):
mydict[item] = mydict.get(item, 0) + 1
if mydict[item] >= cnt :
cnt, itm = mydict[item], item

print itm
``````

(reversed is used to make sure that it returns the lowest index item)

A one-liner:

``````def most_common (lst):
return max(((item, lst.count(item)) for item in set(lst)), key=lambda a: a[1])[0]``````
• This is a lot of wrapping to achieve the same end result as newacct's answer's `return max(set(lst), key=lst.count)`; it looks like you're trying to do a decorate-sort-undecorate (aka Schwartzian transform) pattern here (replacing sorting with `max`), but it's pointless for `max` (where every element would compute its `key` only once even without caching involved), and equally unnecessary for `sorted`/`list.sort` (where it's doing decorate-sort-undecorate under the hood on your behalf, without an unnecessary genexpr involved). Commented Oct 17, 2022 at 18:10

Sort a copy of the list and find the longest run. You can decorate the list before sorting it with the index of each element, and then choose the run that starts with the lowest index in the case of a tie.

• The items may not be comparable. Commented Jun 29, 2013 at 12:06

I am doing this using scipy stat module and lambda:

``````import scipy.stats
lst = [1,2,3,4,5,6,7,5]
most_freq_val = lambda x: scipy.stats.mode(x)[0][0]
print(most_freq_val(lst))
``````

Result:

`````` most_freq_val = 5
``````
``````# use Decorate, Sort, Undecorate to solve the problem

def most_common(iterable):
# Make a list with tuples: (item, index)
# The index will be used later to break ties for most common item.
lst = [(x, i) for i, x in enumerate(iterable)]
lst.sort()

# lst_final will also be a list of tuples: (count, index, item)
# Sorting on this list will find us the most common item, and the index
# will break ties so the one listed first wins.  Count is negative so
# largest count will have lowest value and sort first.
lst_final = []

# Get an iterator for our new list...
itr = iter(lst)

# ...and pop the first tuple off.  Setup current state vars for loop.
count = 1
tup = next(itr)
x_cur, i_cur = tup

# Loop over sorted list of tuples, counting occurrences of item.
for tup in itr:
# Same item again?
if x_cur == tup[0]:
# Yes, same item; increment count
count += 1
else:
# No, new item, so write previous current item to lst_final...
t = (-count, i_cur, x_cur)
lst_final.append(t)
# ...and reset current state vars for loop.
x_cur, i_cur = tup
count = 1

# Write final item after loop ends
t = (-count, i_cur, x_cur)
lst_final.append(t)

lst_final.sort()

print most_common(['x', 'e', 'a', 'e', 'a', 'e', 'e']) # prints 'e'
print most_common(['goose', 'duck', 'duck', 'goose']) # prints 'goose'
``````

Building on Luiz's answer, but satisfying the "in case of draws the item with the lowest index should be returned" condition:

``````from statistics import mode, StatisticsError

def most_common(l):
try:
return mode(l)
except StatisticsError as e:
# will only return the first element if no unique mode found
if 'no unique mode' in e.args[0]:
return l[0]
# this is for "StatisticsError: no mode for empty data"
# after calling mode([])
raise
``````

Example:

``````>>> most_common(['a', 'b', 'b'])
'b'
>>> most_common([1, 2])
1
>>> most_common([])
StatisticsError: no mode for empty data
``````

Simple one line solution

``````moc= max([(lst.count(chr),chr) for chr in set(lst)])
``````

It will return most frequent element with its frequency.

You probably don't need this anymore, but this is what I did for a similar problem. (It looks longer than it is because of the comments.)

``````itemList = ['hi', 'hi', 'hello', 'bye']

counter = {}
maxItemCount = 0
for item in itemList:
try:
# Referencing this will cause a KeyError exception
# if it doesn't already exist
counter[item]
# ... meaning if we get this far it didn't happen so
# we'll increment
counter[item] += 1
except KeyError:
# If we got a KeyError we need to create the
# dictionary key
counter[item] = 1

# Keep overwriting maxItemCount with the latest number,
# if it's higher than the existing itemCount
if counter[item] > maxItemCount:
maxItemCount = counter[item]
mostPopularItem = item

print mostPopularItem
``````
• you could use counter[item] = counter.get(item, 0) + 1 to replace the try/except part
– xue
Commented Sep 28, 2016 at 0:02
``````ans  = [1, 1, 0, 0, 1, 1]
all_ans = {ans.count(ans[i]): ans[i] for i in range(len(ans))}
print(all_ans)
``````
``````all_ans={4: 1, 2: 0}
max_key = max(all_ans.keys())
``````

4

``````print(all_ans[max_key])
``````

1

Here:

``````def most_common(l):
max = 0
maxitem = None
for x in set(l):
count =  l.count(x)
if count > max:
max = count
maxitem = x
return maxitem
``````

I have a vague feeling there is a method somewhere in the standard library that will give you the count of each element, but I can't find it.

• 'max' is a method. Would you change the name of the variable? Commented Oct 5, 2009 at 7:04
• Note that set() also requires hashable items, to the solution wouldn't work in this case. Commented Oct 5, 2009 at 7:04
• Wait, I missed that part of not being hashable. But if the objects have equality it should be easy to make them hashable. Commented Oct 5, 2009 at 8:40

This is the obvious slow solution (O(n^2)) if neither sorting nor hashing is feasible, but equality comparison (`==`) is available:

``````def most_common(items):
if not items:
raise ValueError
fitems = []
best_idx = 0
for item in items:
item_missing = True
i = 0
for fitem in fitems:
if fitem[0] == item:
fitem[1] += 1
d = fitem[1] - fitems[best_idx][1]
if d > 0 or (d == 0 and fitems[best_idx][2] > fitem[2]):
best_idx = i
item_missing = False
break
i += 1
if item_missing:
fitems.append([item, 1, i])
return items[best_idx]
``````

But making your items hashable or sortable (as recommended by other answers) would almost always make finding the most common element faster if the length of your list (n) is large. O(n) on average with hashing, and O(n*log(n)) at worst for sorting.

• To the downvoter: what's wrong with this answer? Does any of the other answers provide a solution when neither sorting nor hashing is feasible?
– pts
Commented Mar 9, 2018 at 23:33
``````>>> li  = ['goose', 'duck', 'duck']

>>> def foo(li):
st = set(li)
mx = -1
for each in st:
temp = li.count(each):
if mx < temp:
mx = temp
h = each
return h

>>> foo(li)
'duck'
``````
• This has terrible performance characteristic when n is big and the number of unique elements is large as well: O(n) for the conversion to a set and O(m*n)=O(n^2) for the count (where m is the number of uniques). Sort and walk is O(n log n) for the sort and 0(n) for the walk. Commented Oct 5, 2009 at 7:12
• Yeah you are right. Now I know this is a terrible solution and why. Thanks for comment!! :-) Commented Oct 5, 2009 at 7:22

I needed to do this in a recent program. I'll admit it, I couldn't understand Alex's answer, so this is what I ended up with.

``````def mostPopular(l):
mpEl=None
mpIndex=0
mpCount=0
curEl=None
curCount=0
for i, el in sorted(enumerate(l), key=lambda x: (x[1], x[0]), reverse=True):
curCount=curCount+1 if el==curEl else 1
curEl=el
if curCount>mpCount \
or (curCount==mpCount and i<mpIndex):
mpEl=curEl
mpIndex=i
mpCount=curCount
return mpEl, mpCount, mpIndex
``````

I timed it against Alex's solution and it's about 10-15% faster for short lists, but once you go over 100 elements or more (tested up to 200000) it's about 20% slower.

``````#This will return the list sorted by frequency:

def orderByFrequency(list):

listUniqueValues = np.unique(list)
listQty = []
listOrderedByFrequency = []

for i in range(len(listUniqueValues)):
listQty.append(list.count(listUniqueValues[i]))
for i in range(len(listQty)):
index_bigger = np.argmax(listQty)
for j in range(listQty[index_bigger]):
listOrderedByFrequency.append(listUniqueValues[index_bigger])
listQty[index_bigger] = -1
return listOrderedByFrequency

#And this will return a list with the most frequent values in a list:

def getMostFrequentValues(list):

if (len(list) <= 1):
return list

list_most_frequent = []
list_ordered_by_frequency = orderByFrequency(list)

list_most_frequent.append(list_ordered_by_frequency[0])
frequency = list_ordered_by_frequency.count(list_ordered_by_frequency[0])

index = 0
while(index < len(list_ordered_by_frequency)):
index = index + frequency

if(index < len(list_ordered_by_frequency)):
testValue = list_ordered_by_frequency[index]
testValueFrequency = list_ordered_by_frequency.count(testValue)

if (testValueFrequency == frequency):
list_most_frequent.append(testValue)
else:
break

return list_most_frequent

#tests:
print(getMostFrequentValues([]))
print(getMostFrequentValues([1]))
print(getMostFrequentValues([1,1]))
print(getMostFrequentValues([2,1]))
print(getMostFrequentValues([2,2,1]))
print(getMostFrequentValues([1,2,1,2]))
print(getMostFrequentValues([1,2,1,2,2]))
print(getMostFrequentValues([3,2,3,5,6,3,2,2]))
print(getMostFrequentValues([1,2,2,60,50,3,3,50,3,4,50,4,4,60,60]))

Results:
[]
[1]
[1]
[1, 2]
[2]
[1, 2]
[2]
[2, 3]
[3, 4, 50, 60]
``````
``````def most_frequent(List):

counter = 0

num = List[0]

for i in List:

curr_frequency = List.count(i)

if(curr_frequency> counter):

counter = curr_frequency

num = i

return num

List = [2, 1, 2, 2, 1, 3]

print(most_frequent(List))
``````
– Community Bot
Commented Oct 22, 2021 at 17:15

Hi this is a very simple solution, with linear time complexity

L = ['goose', 'duck', 'duck']

def most_common(L):

``````current_winner = 0
max_repeated = None
for i in L:
amount_times = L.count(i)
if amount_times > current_winner:
current_winner = amount_times
max_repeated = i

return max_repeated
``````

print(most_common(L))

"duck"

Where number, is the element in the list that repeats most of the time

``````numbers = [1, 3, 7, 4, 3, 0, 3, 6, 3]
max_repeat_num = max(numbers, key=numbers.count)     *# which number most* frequently
max_repeat = numbers.count(max_repeat_num)           *#how many times*
print(f" the number {max_repeat_num} is repeated{max_repeat} times")
``````
• Calling max() with an iterable Commented Oct 10, 2022 at 12:13
• just a small note, this algorithm is O(n^2) it's not going to be fast compared to the other answers on this question. Commented Oct 14, 2022 at 23:30
``````def mostCommonElement(list):
count = {} // dict holder
max = 0 // keep track of the count by key
result = None // holder when count is greater than max
for i in list:
if i not in count:
count[i] = 1
else:
count[i] += 1
if count[i] > max:
max = count[i]
result = i
return result
``````

mostCommonElement(["a","b","a","c"]) -> "a"

• all the other answers. would you like me to link them? Commented Feb 21, 2020 at 22:48

The most common element should be the one which is appearing more than `N/2` times in the array where `N` being the `len(array)`. The below technique will do it in `O(n)` time complexity, with just consuming `O(1)` auxiliary space.

``````from collections import Counter

def majorityElement(arr):
majority_elem = Counter(arr)
size = len(arr)
for key, val in majority_elem.items():
if val > size/2:
return key
return -1
``````
• Can't use Counter on lists that contain unhashable elements.
– 576i
Commented Feb 18, 2022 at 13:41
• Can you suggest a better way buddy @576i ? Commented Feb 19, 2022 at 13:51
• The accepted solution further down does without.
– 576i
Commented Feb 19, 2022 at 15:04
• Okay thanks @576i : ) Commented Feb 20, 2022 at 6:13
• What about a list like this: `[1, 1, 1, 2, 3, 4, 5, 6]` the most common element is 1, but it occurs 3 times which is less than N/2 (N=8 in this case).
– T.G.
Commented Jul 27, 2022 at 9:46
`````` def most_common(lst):
if max([lst.count(i)for i in lst]) == 1:
return False
else:
return max(set(lst), key=lst.count)
``````
``````def popular(L):