# Calculating the mode in a multimodal list in Python

I'm trying to calculate the mode (most frequent value) of a list of values in Python. I came up with a solution, which gave out the wrong answer anyway, but I then realised that my data may be mutlimodal;

``````ie 1,1,2,3,4,4 mode = 1 & 4
``````

Here is what I came up with so far:

``````def mode(valueList):
frequencies = {}
for value in valueList:
if value in frequencies:
frequencies[value] += 1
else:
frequencies[value] = 1
mode = max(frequencies.itervalues())
return mode
``````

I think the problem here is that I'm outputting the value rather than the pointer of the maximum value. Anyway can anyone suggest a better way of doing this that could work where there is more than one mode? Or failing that how I can fix what I've got so far and identify a single mode?

As you can probably tell I'm very new to python, thanks for the help.

edit: should have mentioned I'm in Python 2.4

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You should really upgrade to latest supported version of Python. –  Burhan Khalid Jul 22 '12 at 9:08

Well, the first problem is that yes, you're returning the value in `frequences` rather than the key. That means you get the count of the mode, not the mode itself. Normally, to get the mode, you'd use the `key` keyword argument to max, like so:

``````>>> max(frequencies, key=counts.get())
``````

But in 2.4 that doesn't exist! Here's an approach that I believe will work in 2.4:

``````>>> import random
>>> l = [random.randrange(0, 5) for _ in range(50)]
>>> frequencies = {}
>>> for i in l:
...     frequencies[i] = frequencies.get(i, 0) + 1
...
>>> frequencies
{0: 11, 1: 13, 2: 8, 3: 8, 4: 10}
>>> mode = max((v, k) for k, v in frequencies.iteritems())[1]
>>> mode
1
>>> max_freq = max(frequencies.itervalues())
>>> modes = [k for k, v in frequencies.iteritems() if v == max_freq]
>>> modes
[1]
``````

I prefer the decorate-sort-undecorate idiom to the `cmp` keyword. I think it's more readable. Could be that's just me.

-
Excellent thanks, also I should have mentioned that I'm in 2.4. I've updated the post. –  Captastic Mar 5 '12 at 13:57
@Captastic, argh. No `defaultdict`, no `Counter`, and no `key` argument to `max`. Phew. Have to do this the hard way... just a sec. –  senderle Mar 5 '12 at 14:04
In Py2.4, you would use the `cmp` argument to `max` instead of `key` (which didn't exist yet); so, `mode = max(frequencies, cmp=lambda i,j: cmp(counts[i], counts[j]))`. –  lvc Mar 5 '12 at 14:05
@senderle that's the one! It works wonderfully. Thank you very much. Now to learn how the hell it works :) –  Captastic Mar 5 '12 at 14:22

In Python >=2.7, use `collections.Counter` for frequency tables.

``````from collections import Counter
from itertools import takewhile

data = [1,1,2,3,4,4]
freq = Counter(data)
mostfreq = freq.most_common()
modes = list(takewhile(lambda x_f: x_f[1] == mostfreq[0][1], mostfreq))
``````

Note the use of an anonymous function (`lambda`) that checks whether a pair `(_, f)` has the same frequency as the most frequent element.

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Sorry should have mentioned that I'm in 2.4, thanks anyway. –  Captastic Mar 5 '12 at 13:57
@Captastic: then you should really upgrade. Python 2.4 is from 2004; even Python 2.5 no longer receives security patches. –  larsmans Mar 5 '12 at 14:20
I'll be darned if I can get that last "takewhile" line to work without a SyntaxError on my version 3.2.3, but I'm a newbie. Thoughts? –  Matthew Cornell Sep 18 '12 at 17:43
@MatthewCornell: tuple unpacking in function definitions (including lambdas) was removed in 3.2, or maybe even earlier. I'll update the answer. –  larsmans Sep 18 '12 at 18:58
@larsmans Man is that slick :-) Thanks so much. –  Matthew Cornell Sep 18 '12 at 19:59

you can use counter for the top value while iterating, something like this:

``````def mode(valueList):
frequencies = {}
mx = None
for value in valueList:
if value in frequencies:
frequencies[value] += 1
else:
frequencies[value] = 1
if not mx or frequencies[value] > mx[1]:
mx = (value, frequencies[value])

mode = mx[0]
return mode
``````

another approach for multiple modes, using nlargest, which can give you the N largest values of a dictionary:

``````from heapq import nlargest
import operator

def mode(valueList, nmodes):
frequencies = {}

for value in valueList:
frequencies[value] = frequencies.get(value, 0) + 1

return [x[0] for x in nlargest(nmodes,frequencies.iteritems(),operator.itemgetter(1))]
``````
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That'd do it, thanks. Though not sure how I'd convert it to work with more than one mode. –  Captastic Mar 5 '12 at 14:00
see my edit above for a more dynamic approach –  Not_a_Golfer Mar 5 '12 at 14:06
Thanks for the input, I've gone with senderles approach but I'll have to have a play with yours if only for the learning experience. –  Captastic Mar 5 '12 at 14:24