# Finding the mode of a list in python

Given a list of items, recall that the mode of the list is the item that occurs most often.

I would like to know how to create a function that can find the mode of a list but that displays a message if the list does not have a mode (i.e. all the items in the list only appear once). I want to make this function without importing any functions. I'm trying to make my own function from scratch.

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Sorry, but can you explain what exactly you mean by 'mode of the list'? –  Vikas May 29 '12 at 11:02
@Vikas: the mode is the most frequently-occurring element (if any). Some definitions extend it to take the arithmetic mean of all such elements if there are more than one. –  Jeremy Roman May 29 '12 at 11:05

You can use the `Counter` supplied in the `collections` package which has a `mode`-esque function

``````from collections import Counter
data = Counter(your_list_in_here)
data.most_common()   # Returns all unique items and their counts
data.most_common(1)  # Returns the highest occurring item
``````

Note: Counter is new in python 2.7 and is not available in earlier versions.

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Taking a leaf from some statistics software, namely SciPy and MATLAB, these just return the smallest most common value, so if two values occur equally often, the smallest of these are returned. Hopefully an example will help:

``````>>> from scipy.stats import mode

>>> mode([1, 2, 3, 4, 5])
(array([ 1.]), array([ 1.]))

>>> mode([1, 2, 2, 3, 3, 4, 5])
(array([ 2.]), array([ 2.]))

>>> mode([1, 2, 2, -3, -3, 4, 5])
(array([-3.]), array([ 2.]))
``````

Is there any reason why you can 't follow this convention?

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Python 3.4 includes the method `statistics.mode`, so it is straightforward:

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

You can have any type of elements in the list, not just numeric:

``````>>> mode(["red", "blue", "blue", "red", "green", "red", "red"])
'red'
``````
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I wrote up this handy function to find the mode.

``````def mode(nums):
corresponding={}
occurances=[]
for i in nums:
count = nums.count(i)
corresponding.update({i:count})

for i in corresponding:
freq=corresponding[i]
occurances.append(freq)

maxFreq=max(occurances)

keys=corresponding.keys()
values=corresponding.values()

index_v = values.index(maxFreq)
global mode
mode = keys[index_v]
return mode
``````
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This method will fail if 2 items have same no. of occurences. –  A_nagpal Dec 13 at 13:38

Why not just

``````def print_mode (thelist):
counts = {}
for item in thelist:
counts [item] = counts.get (item, 0) + 1
maxcount = 0
maxitem = None
for k, v in counts.items ():
if v > maxcount:
maxitem = k
maxcount = v
if maxcount == 1:
print "All values only appear once"
elif counts.values().count (maxcount) > 1:
print "List has multiple modes"
else:
print "Mode of list:", maxitem
``````

This doesn't have a few error checks that it should have, but it will find the mode without importing any functions and will print a message if all values appear only once. It will also detect multiple items sharing the same maximum count, although it wasn't clear if you wanted that.

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So what im trying to do is to detect multiple items displaying the same count and then displaying all the items with that same count –  bluelantern May 30 '12 at 0:43
Have you actually tried this yourself? The extension from my code here to have it print all items with the same count is fairly straightforward. –  lxop May 31 '12 at 0:32

Short, but somehow ugly:

``````def mode(arr) :
m = max([arr.count(a) for a in arr])
return [x for x in arr if arr.count(x) == m][0] if m>1 else None
``````

Using a dictionary, slightly less ugly:

``````def mode(arr) :
f = {}
for a in arr : f[a] = f.get(a,0)+1
m = max(f.values())
t = [(x,f[x]) for x in f if f[x]==m]
return m > 1 t[0][0] else None
``````
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``````def mode(inp_list):
sort_list = sorted(inp_list)
dict1 = {}
for i in sort_list:
count = sort_list.count(i)
if i not in dict1.keys():
dict1[i] = count

maximum = 0 #no. of occurences
max_key = -1 #element having the most occurences

for key in dict1:
if(dict1[key]>maximum):
maximum = dict1[key]
max_key = key
elif(dict1[key]==maximum):
if(key<max_key):
maximum = dict1[key]
max_key = key

return max_key
``````
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