# Sum of list of lists; returns sum list

Let `data = [[3,7,2],[1,4,5],[9,8,7]]`

Let's say I want to sum the elements for the indices of each list in the list, like adding numbers in a matrix column to get a single list. I am assuming that all lists in data are equal in length.

``````    print foo(data)

[[3,7,2],
[1,4,5],
[9,8,7]]
_______
>>>[13,19,14]
``````

How can I iterate over the list of lists without getting an index out of range error? Maybe lambda? Thanks!

You could try this:

``````In : l = [[3,7,2],[1,4,5],[9,8,7]]

In : [sum(i) for i in zip(*l)]
Out: [13, 19, 14]
``````

This uses a combination of `zip` and `*` to unpack the list and then zip the items according to their index. You then use a list comprehension to iterate through the groups of similar indices, summing them and returning in their 'original' position.

To hopefully make it a bit more clear, here is what happens when you iterate through `zip(*l)`:

``````In : for i in zip(*l):
....:     print i
....:
....:
(3, 1, 9)
(7, 4, 8)
(2, 5, 7)
``````

In the case of lists that are of unequal length, you can use `itertools.izip_longest` with a `fillvalue` of `0` - this basically fills missing indices with `0`, allowing you to sum all 'columns':

``````In : import itertools

In : l = [[3,7,2],[1,4],[9,8,7,10]]

In : [sum(i) for i in itertools.izip_longest(*l, fillvalue=0)]
Out: [13, 19, 9, 10]
``````

In this case, here is what iterating over `izip_longest` would look like:

``````In : for i in itertools.izip_longest(*l, fillvalue=0):
...:     print i
...:
(3, 1, 9)
(7, 4, 8)
(2, 0, 7)
(0, 0, 10)
``````
• Or `map(sum,zip(*l))` (this one's my favorite). Dec 9 '12 at 1:19
• @A.R.S. That's definitely a nice one - there's something about `map` I've always liked :) Dec 9 '12 at 1:27
• this doesn't work if the list is of different sizes for eg l = [[3,7,2],[1,4],[9,8,7,10]] gives [13, 19]. using python3 Jul 13 '13 at 22:31
• @MySchizoBuddy The OP needed something to work with equal-sized lists, but you make a good point :) I updated the answer to handle non-equal lists as well - let me know if that helps! Jul 14 '13 at 8:33
• @RocketDonkey your result is now 4 elements while your list has 3 sublist. See my post below Jul 14 '13 at 13:14

For any matrix (or other ambitious numerical) operations I would recommend looking into NumPy.

The sample for solving the sum of an array along the axis shown in your question would be:

``````>>> from numpy import array
>>> data = array([[3,7,2],
...     [1,4,5],
...     [9,8,7]])
>>> from numpy import sum
>>> sum(data, 0)
array([13, 19, 14])
``````

Here's numpy's documentation for its sum function: http://docs.scipy.org/doc/numpy/reference/generated/numpy.sum.html#numpy.sum

Especially the second argument is interesting as it allows easily specify what should be summed up: all elements or only a specific axis of a potentially n-dimensional array(like).

• Thanks for inquiring. I added a sample. I would think that this would be more time and space efficient than any of the other samples. Dec 9 '12 at 0:31
• Appreciated - especially given that I never used Numpy before, but I know some guys who do scientific computing and use it extensively. I was surprised myself how easy this was. Dec 9 '12 at 0:38

This will give you the sum for each sublist

``````data = [[3,7,2],[1,4],[9,8,7,10]]
list(map(sum, data))
[12, 5, 34]
``````

If you want to sum over all elements and get just one sum then use this

``````data = [[3,7,2],[1,4],[9,8,7,10]]
sum(sum(data, []))
51
``````
• You don't happen to be doing the Linear Algebra course on Coursera are you? Can you explain why the second one works? Jul 15 '13 at 4:47
• The result of `sum([[1,2],[3,4]],[])` is `[1, 2, 3, 4]`. So, it is obvious that the extra argument to sum is telling it something about how to sum. Indeed, list + list in python just appends the lists. Then the second sum just sums the combined list. I will still prefer the map solution for performance, but this is simple and pythonic in a way. Dec 11 '18 at 17:43
``````>>> data = [[1, 2, 3], [1, 2, 3], [1, 2, 3]]
>>> for column in enumerate(data):
...     count = sum([x[column] for x in data])
...     print 'Column %s: %d' % (column, count)
...
Column 0: 3
Column 1: 6
Column 2: 9
``````

This does depend on your assumption that all the inner lists (or rows) are of the same length, but it should do what you want:

``````sum_list = []

ncols = len(data)

for col in range(ncols):
sum_list.append(sum(row[col] for row in data))

sum_list
Out: [13, 19, 14]
``````
``````def sum(L):
res = list()
for j in range(0,len(L)):
tmp = 0
for i in range(0,len(L)):
tmp = tmp + L[i][j]
res.append(tmp)
return res
``````
``````numArr = [[12, 4], , [2, 3]]

sumArr = 0

sumArr = sum(sum(row) for row in numArr)

print(sumArr)

``````

what I did: when you do "for" like this for example: [row.append(1) for row in numArr] the list will change to: [[12, 4, 1], [1, 1], [2, 3, 1]] I used the function sum() from python, the function takes the list and do iteration on it and bring the sum of all the numbers in the list. when I did sum(sum()) I got the sum of all the lists in the big list.

This solution assumes a square matrix and uses two for loops to loop over the columns and rows, adding column-wise in the process. The result is returned in a list.

``````def foo(data):
# initialise length of data(n) and sum_of_col variable
n = len(data)
sum_of_col = []

# iterate over column
for col_i in range(n):
# column sum
col_count = 0;

#iterate over row
for row_i in range(n):
col_count += data[row_i][col_i]

# append sum of column to list
sum_of_col.append(col_count)

return sum_of_col
``````

The simplest solution that will sum a list of lists of different or identical lengths is:

``````total = 0
for d in data:
total += sum(d)
``````

Once you understand list comprehension you could shorten it:

``````sum([sum(d) for d in data])
``````

For the case that the data is a list of lists of strings. Sum or concatenate a list of lists of strings elementwise.

``````>>> a = [list('abc'),list('def'),list('tyu')]
>>> a
[['a', 'b', 'c'], ['d', 'e', 'f'], ['t', 'y', 'u']]
>>> [''.join(thing) for thing in zip(*a)]