Calculating arithmetic mean (one type of average) in Python [duplicate]

Is there a built-in or standard library method in Python to calculate the arithmetic mean (one type of average) of a list of numbers?

• Average is ambiguous - mode and median are also commonly-used averages Jun 11, 2018 at 8:13
• Mode and median are other measures of central tendency. They are not averages. The mode is the most common value seen in a data set and is not necessarily unique. The median is the value that represents the center of the data points. As the question implies, there are a few different types of averages, but all are different from median and mode calculations. purplemath.com/modules/meanmode.htm Aug 1, 2018 at 4:48
• @Jarom That link disagrees with you: 'Mean, median, and mode are three kinds of "averages"' Feb 7, 2019 at 3:39

I am not aware of anything in the standard library. However, you could use something like:

``````def mean(numbers):
return float(sum(numbers)) / max(len(numbers), 1)

>>> mean([1,2,3,4])
2.5
>>> mean([])
0.0
``````

In numpy, there's `numpy.mean()`.

• A common thing is to consider that the average of `[]` is `0`, which can be done by `float(sum(l))/max(len(l),1)`.
– yo'
Feb 12, 2015 at 23:18
• PEP 8 says that `l` is a bad variable name because it looks so much like `1`. Also, I would use `if l` rather than `if len(l) > 0`. See here Apr 13, 2016 at 22:40
• Why have you called `max`? Jul 25, 2017 at 6:41
• See the question above: To avoid division by zero ( for [] ) Jul 27, 2017 at 11:05
• Empty lists have no mean. Please don't pretend they do. Feb 7, 2019 at 3:35

NumPy has a `numpy.mean` which is an arithmetic mean. Usage is as simple as this:

``````>>> import numpy
>>> a = [1, 2, 4]
>>> numpy.mean(a)
2.3333333333333335
``````
• numpy is a nightmare to install in a virtualenv. You should really consider not using this lib Dec 22, 2014 at 17:19
• @vcarel: "numpy is a nightmare to install in a virtualenv". I'm not sure why you say this. It used to be the case, but for the last year or more it's been very easy.
– user227667
Apr 1, 2015 at 17:14
• I must second this comment. I'm currently using numpy in a virtualenv in OSX, and there is absolutely no problem (currently using CPython 3.5). Oct 29, 2015 at 22:31
• With continuous integration systems like Travis CI, installing numpy takes several extra minutes. If quick and light build is valuable to you, and you need only the mean, consider. Mar 7, 2016 at 11:36
• @AkseliPalén virtual environments on Travis CI can use a numpy installed via apt-get using the system site packages. This may be quick enough to use even if one only needs a mean. Mar 25, 2016 at 11:40
``````import statistics
print(statistics.mean([1,2,4])) # 2.3333333333333335
``````

It's available since Python 3.4. For 3.1-3.3 users, an old version of the module is available on PyPI under the name `stats`. Just change `statistics` to `stats`.

• Note that this is extremely slow when compared to the other solutions. Compare `timeit("numpy.mean(vec))`, `timeit("sum(vec)/len(vec)")` and `timeit("statistics.mean(vec)")` - the latter is slower than the others by a huge factor (>100 in some cases on my PC). This appears to be due to a particularly precise implementation of the `sum` operator in `statistics`, see PEP and Code. Not sure about the reason for the large performance difference between `statistics._sum` and `numpy.sum`, though. May 27, 2016 at 13:45
• @jhin this is because the `statistics.mean` tries to be correct. It calculates correctly the mean of `[1e50, 1, -1e50] * 1000`. Aug 27, 2016 at 6:17
• `statistics.mean` will also accept a generator expression of values, which all solutions that use `len()` for the divisor will choke on. Aug 28, 2018 at 1:25
• Since python 3.8, there is a faster `statistics.fmean` function Dec 30, 2020 at 22:41

You don't even need numpy or scipy...

``````>>> a = [1, 2, 3, 4, 5, 6]
>>> print(sum(a) / len(a))
3
``````
• then mean([2,3]) would give 2. be careful with floats. Better use float(sum(l))/len(l). Better still, be careful to check if the list is empty. Oct 25, 2013 at 22:33
• @jesusiniesta except in python3, where division does what it is intended to do : divide
– yota
Jan 10, 2014 at 14:29
• And in Python 2.2+ if you `from __future__ import division` at the top of your program Feb 14, 2014 at 2:25
• What about big numbers and overflow? Oct 20, 2015 at 11:52
• What about `a = list()`? The proposed code results in `ZeroDivisionError`.
– 0 _
Sep 7, 2016 at 12:04

Use scipy:

``````import scipy;
a=[1,2,4];
print(scipy.mean(a));
``````

Instead of casting to float you can do following

``````def mean(nums):
return sum(nums, 0.0) / len(nums)
``````

or using lambda

``````mean = lambda nums: sum(nums, 0.0) / len(nums)
``````

Python 3.8 added function fmean to statistics module. Which is faster and always returns float.

Convert data to floats and compute the arithmetic mean.

This runs faster than the mean() function and it always returns a float. The data may be a sequence or iterable. If the input dataset is empty, raises a StatisticsError.

fmean([3.5, 4.0, 5.25])

4.25

New in version 3.8.

``````from statistics import mean
avarage=mean(your_list)
``````

for example

``````from statistics import mean

my_list=[5,2,3,2]
avarage=mean(my_list)
print(avarage)
``````

and result is

``````3.0
``````

If you're using python >= 3.8, you can use the `fmean` function introduced in the `statistics` module which is part of the standard library:

``````>>> from statistics import fmean
>>> fmean([0, 1, 2, 3])
1.5
``````

It's faster than the `statistics.mean` function, but it converts its data points to `float` beforehand, so it can be less accurate in some specific cases.

You can see its implementation here

``````def avg(l):
"""uses floating-point division."""
return sum(l) / float(len(l))
``````

Examples:

``````l1 = [3,5,14,2,5,36,4,3]
l2 = [0,0,0]

print(avg(l1)) # 9.0
print(avg(l2)) # 0.0
``````
``````def list_mean(nums):
sumof = 0
num_of = len(nums)
mean = 0
for i in nums:
sumof += i
mean = sumof / num_of
return float(mean)
``````

The proper answer to your question is to use `statistics.mean`. But for fun, here is a version of mean that does not use the `len()` function, so it (like `statistics.mean`) can be used on generators, which do not support `len()`:

``````from functools import reduce
from operator import truediv
def ave(seq):
return truediv(*reduce(lambda a, b: (a[0] + b[1], b[0]),
enumerate(seq, start=1),
(0, 0)))
``````

I always supposed `avg` is omitted from the builtins/stdlib because it is as simple as

``````sum(L)/len(L) # L is some list
``````

and any caveats would be addressed in caller code for local usage already.

Notable caveats:

1. non-float result: in python2, 9/4 is 2. to resolve, use `float(sum(L))/len(L)` or `from __future__ import division`

2. division by zero: the list may be empty. to resolve:

``````if not L:
raise WhateverYouWantError("foo")
avg = float(sum(L))/len(L)
``````

Others already posted very good answers, but some people might still be looking for a classic way to find Mean(avg), so here I post this (code tested in Python 3.6):

``````def meanmanual(listt):

mean = 0
lsum = 0
lenoflist = len(listt)

for i in listt:
lsum += i

mean = lsum / lenoflist
return float(mean)

a = [1, 2, 3, 4, 5, 6]
meanmanual(a)