I have to find the average of a list in Python. This is my code so far
l = [15, 18, 2, 36, 12, 78, 5, 6, 9]
print reduce(lambda x, y: x + y, l)
I've got it so it adds together the values in the list, but I don't know how to make it divide into them?
If your reduce is already returning your sum, then all you have left to do is divide.
l = [15, 18, 2, 36, 12, 78, 5, 6, 9]
print reduce(lambda x, y: x + y, l) / len(l)
though sum(l)/len(l) would be simpler, as you wouldn't need a lambda.
If you want a more exact float result instead of an int then just use float(len(l)) instead of len(l).
l = [15, 18, 2, 36, 12, 78, 5, 6, 9]
sum(l) / float(len(l))
from __future__ import division, you can eliminate that ugly float.
– S.Lott
Jan 27 '12 at 21:17
Or you could use numpy.mean:
l = [15, 18, 2, 36, 12, 78, 5, 6, 9]
import numpy as np
print np.mean(l)
sum(l)/len(l)
– L. Amber O'Hearn
Sep 23 '15 at 19:04
np.mean(l) and np.array(l).mean are about the same speed, and sum(l)/len(l) is about twice as fast. I used l = list(np.random.rand(1000)), for course both numpy methods become much faster if l is numpy.array.
– Akavall
Sep 23 '15 at 19:52
A statistics module has been added to python 3.4. It has a function to calculate the average called mean. An example with the list you provided would be:
from statistics import mean
l = [15, 18, 2, 36, 12, 78, 5, 6, 9]
mean(l)
Why would you use reduce() for this when Python has a perfectly cromulent sum() function?
print sum(l) / float(len(l))
(The float() is necessary to force Python to do a floating-point division.)
There is a statistics library if you are using python >= 3.4
https://docs.python.org/3/library/statistics.html
You may use it's mean method like this. Let's say you have a list of numbers of which you want to find mean:-
list = [11, 13, 12, 15, 17]
import statistics as s
s.mean(list)
It has other methods too like stdev, variance, mode, harmonic mean, median etc which are too useful.
Instead of casting to float, you can add 0.0 to the sum:
def avg(l):
return sum(l, 0.0) / len(l)
sum(l) / float(len(l)) is the right answer, but just for completeness you can compute an average with a single reduce:
>>> reduce(lambda x, y: x + y / float(len(l)), l, 0)
20.111111111111114
Note that this can result in a slight rounding error:
>>> sum(l) / float(len(l))
20.111111111111111
reduce() which would give you False for an empty list, otherwise the average as before.
– Andrew Clark
Jan 28 '12 at 0:47
I tried using the options above but didn't work. Try this:
from statistics import mean
n = [11, 13, 15, 17, 19]
print(n)
print(mean(n))
worked on python 3.5
I had a similar question to solve in a Udacity´s problems. Instead of a built-in function i coded:
def list_mean(n):
summing = float(sum(n))
count = float(len(n))
if n == []:
return False
return float(summing/count)
Much more longer than usual but for a beginner its quite challenging.
False (equivalent to the integer 0) is just about the worst possible way to handle this error. Better to catch the ZeroDivisionError and raise something better (perhaps ValueError).
– kindall
Jun 14 '16 at 1:39
ValueError any better than a ZeroDivisionError? The latter is more specific, plus it seems a bit unnecessary to catch an arithmetic error only to re-throw a different one.
– MatTheWhale
Mar 27 '18 at 16:45
ZeroDivisionError is only useful if you know how the calculation is being done (i.e., that a division by the length of the list is involved). If you don't know that, it doesn't tell you what the problem is with the value you passed in. Whereas your new exception can include that more specific information.
– kindall
Mar 27 '18 at 18:34
as a beginner, I just coded this:
L = [15, 18, 2, 36, 12, 78, 5, 6, 9]
total = 0
def average(numbers):
total = sum(numbers)
total = float(total)
return total / len(numbers)
print average(L)
sum(l)/len(l) is by far the most elegant answer (no need to make type conversions in Python 3).
– fralau
May 9 at 7:38
from scipy import stats
l = [15, 18, 2, 36, 12, 78, 5, 6, 9]
print(stats.describe(l))
# DescribeResult(nobs=9, minmax=(2, 78), mean=20.11111111111111,
# variance=572.3611111111111, skewness=1.7791785448425341,
# kurtosis=1.9422716419666397)
Or use pandas's Series.mean method:
pd.Series(sequence).mean()
Demo:
>>> import pandas as pd
>>> l = [15, 18, 2, 36, 12, 78, 5, 6, 9]
>>> pd.Series(l).mean()
20.11111111111111
>>>
From the docs:
Series.mean(axis=None, skipna=None, level=None, numeric_only=None, **kwargs)¶
And here is the docs for this:
https://pandas.pydata.org/pandas-docs/stable/generated/pandas.Series.mean.html
And the whole documentation:
In order to use reduce for taking a running average, you'll need to track the total but also the total number of elements seen so far. since that's not a trivial element in the list, you'll also have to pass reduce an extra argument to fold into.
>>> l = [15, 18, 2, 36, 12, 78, 5, 6, 9]
>>> running_average = reduce(lambda aggr, elem: (aggr[0] + elem, aggr[1]+1), l, (0.0,0))
>>> running_average[0]
(181.0, 9)
>>> running_average[0]/running_average[1]
20.111111111111111
Both can give you close to similar values on an integer or at least 10 decimal values. But if you are really considering long floating values both can be different. Approach can vary on what you want to achieve.
>>> l = [15, 18, 2, 36, 12, 78, 5, 6, 9]
>>> print reduce(lambda x, y: x + y, l) / len(l)
20
>>> sum(l)/len(l)
20
Floating values
>>> print reduce(lambda x, y: x + y, l) / float(len(l))
20.1111111111
>>> print sum(l)/float(len(l))
20.1111111111
@Andrew Clark was correct on his statement.
suppose that
x = [[-5.01,-5.43,1.08,0.86,-2.67,4.94,-2.51,-2.25,5.56,1.03],
[-8.12,-3.48,-5.52,-3.78,0.63,3.29,2.09,-2.13,2.86,-3.33],
[-3.68,-3.54,1.66,-4.11,7.39,2.08,-2.59,-6.94,-2.26,4.33]]
you can notice that x has dimension 3*10 if you need to get the mean to each row you can type this
theMean = np.mean(x1,axis=1)
don't forget to import numpy as np
l = [15, 18, 2, 36, 12, 78, 5, 6, 9]
l = map(float,l)
print '%.2f' %(sum(l)/len(l))
print reduce(lambda x, y: x + y, l)/(len(l)*1.0)
or like posted previously
sum(l)/(len(l)*1.0)
The 1.0 is to make sure you get a floating point division
Combining a couple of the above answers, I've come up with the following which works with reduce and doesn't assume you have L available inside the reducing function:
from operator import truediv
L = [15, 18, 2, 36, 12, 78, 5, 6, 9]
def sum_and_count(x, y):
try:
return (x[0] + y, x[1] + 1)
except TypeError:
return (x + y, 2)
truediv(*reduce(sum_and_count, L))
# prints
20.11111111111111
I want to add just another approach
import itertools,operator
list(itertools.accumulate(l,operator.add)).pop(-1) / len(l)
Find the average in list By using the following PYTHON code:
l = [15, 18, 2, 36, 12, 78, 5, 6, 9]
print(sum(l)//len(l))
try this it easy.
numbers = [0,1,2,3]
numbers[0] = input("Please enter a number")
numbers[1] = input("Please enter a second number")
numbers[2] = input("Please enter a third number")
numbers[3] = input("Please enter a fourth number")
print (numbers)
print ("Finding the Avarage")
avarage = int(numbers[0]) + int(numbers[1]) + int(numbers[2]) + int(numbers [3]) / 4
print (avarage)
Thank you for your interest in this question.
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sum(L) / float(len(L)). handle empty lists in caller code likeif not L: ...– n611x007 Nov 2 '15 at 12:12