# Python: Variance of a list of defined numbers

I am trying to make a function that prints the variance of a list of defined numbers:

``````grades = [100, 100, 90, 40, 80, 100, 85, 70, 90, 65, 90, 85, 50.5]
``````

So far, I have tried proceeding on making these three functions:

``````def grades_sum(my_list):
total = 0

return average

variance = 0
for i in my_list:
variance += (average - my_list[i]) ** 2
return variance / len(my_list)
``````

When I try to execute the code, however, it gives me the following error at the following line:

``````Line: variance += (average - my_list[i]) ** 2
Error: list index out of range
``````

Apologies if my current Python knowledges are limited, but I am still learning - so please if you wish to help solving this issue try not to suggest extremely-complicated ways on how to solve this, thank you really much.

• Just as a note, `sum()` is a built-in function that already exists - no need to reinvent the wheel. `sum(grades)` will do. May 21, 2013 at 13:02

Try numpy.

``````import numpy as np
``````

First I would suggest using Python's built-in `sum` method to replace your first custom method. `grades_average` then becomes:

``````def grades_average(my_list):
return average
``````

Second, I would strongly recommend looking into the NumPy library, as it has these methods built-in. `numpy.mean()` and `numpy.std()` would cover both these cases.

If you're interested in writing the code for yourself first, that's totally fine too. As for your specific error, I believe @gnibbler above nailed it. If you want to loop using an index, you can restructure the line in `grades_variance` to be:

``````for i in range(0, len(my_list)):
``````

As Lattyware noted, looping by index is not particularly "Pythonic"; the way you're currently doing it is generally superior. This is just for your reference.

• It's worth noting looping by index is a terrible idea in Python - it's harder to read, slower and makes your code inflexible. May 21, 2013 at 13:06
• Agreed, but it's useful to know how to do. May 21, 2013 at 13:09
• What do you mean by "the way I am currently doing it is generally superior"? May 21, 2013 at 13:14
• Your current loop construction makes `i` the item in the list. I gave the loop structure for making `i` an integer index into the list. The former (how you do it in your original question) is generally better. May 21, 2013 at 13:15
• As of Python 3.4, there are `mean()` and `variance()` functions in the `statistics` module. No need to load NumPy just to calculate a variance anymore. Apr 28, 2016 at 23:02

When you say

`````` for i in my_list:
``````

`i` isn't the index of the item. `i` is the item

``````for i in my_list:
variance += (average - i) ** 2
``````

While gnibbler has solved the problem with your code, you can achieve this much more easily using built-in functions and a generator expression:

``````average = sum(grades) / len(grades)
varience = sum((average - value) ** 2 for value in grades) / len(grades)
``````

It might look a little scary at first, but if you watch the video I link about list comprehensions and generator expressions - they are actually really simple and useful.

• Note that you want 2.0 if you're on python 2.x Nov 10, 2014 at 21:53

python 3.4 has a statistics lib which does this.

``````   import statistics
grades = [100, 100, 90, 40, 80, 100, 85, 70, 90, 65, 90, 85, 50.5]
=> 334.07100591715977
``````

https://docs.python.org/3/library/statistics.html#statistics.pvariance

• I would just love to see a `statistics` port to python 2.7 Nov 20, 2016 at 13:02
• Wow, congrats!! ;D Really thanks, that will be helpful! Nov 22, 2016 at 0:06

The below code is used to get the variance I create a custom function

``````   def variance(val):
total_sum=sum(val)
average=total_sum/len(val)
a=[]
for i in val:
a.append((i-average)**2)
return sum(a)/len(a)

val=[2.18,2.22,2.24,1.62,1.32,1.85,1.85,2.70,3.60,4.60,1.38,2.34,2.71]
variance(val)
``````

I suppose you would like the sample variance i.e. the unbiased estimator of the variance. I think this function might do the job. It will print the variance and the mean of a vector n.

``````n = [5, 3, 1, 2, 4]

def variance1337(n):
var1 = []
mean1 = sum(n)/len(n)
for xs in n:
var1.append((xs - mean1) ** 2)
print(sum(var1)/(len(n) - 1))
print(mean1)
``````

the below code is used to get the average of values

``````def grades_average(my_list):
``````def grades_variance(my_list, average):