Assuming I have a numpy array like: [1,2,3,4,5,6] and another array: [0,0,1,2,2,1] I want to sum the items in the first array by group (the second array) and obtain ngroups results in group number order (in this case the result would be [3, 9, 9]). How do I do this in numpy?

Why do you need numpy for this? Aren't you just using vanilla python lists? If not, what numpy type are you using? – Matt Ball Dec 7 '10 at 5:19

1I need numpy for this because I don't want to loop through the array ntimes for n groups, since my array sizes can be arbitrarily large. I'm not using python lists, I was just showing an example data set in brackets. The datatype is int. – Scribble Master Dec 7 '10 at 5:31

related stackoverflow.com/questions/7089379/… – TooTone Apr 11 '14 at 10:42
There's more than one way to do this, but here's one way:
import numpy as np
data = np.arange(1, 7)
groups = np.array([0,0,1,2,2,1])
unique_groups = np.unique(groups)
sums = []
for group in unique_groups:
sums.append(data[groups == group].sum())
You can vectorize things so that there's no for loop at all, but I'd recommend against it. It becomes unreadable, and will require a couple of 2D temporary arrays, which could require large amounts of memory if you have a lot of data.
Edit: Here's one way you could entirely vectorize. Keep in mind that this may (and likely will) be slower than the version above. (And there may be a better way to vectorize this, but it's late and I'm tired, so this is just the first thing to pop into my head...)
However, keep in mind that this is a bad example... You're really better off (both in terms of speed and readability) with the loop above...
import numpy as np
data = np.arange(1, 7)
groups = np.array([0,0,1,2,2,1])
unique_groups = np.unique(groups)
# Forgive the bad naming here...
# I can't think of more descriptive variable names at the moment...
x, y = np.meshgrid(groups, unique_groups)
data_stack = np.tile(data, (unique_groups.size, 1))
data_in_group = np.zeros_like(data_stack)
data_in_group[x==y] = data_stack[x==y]
sums = data_in_group.sum(axis=1)

Thanks! Memory's not an issue and I'd like to avoid loops. How would you vectorize it? – Scribble Master Dec 7 '10 at 5:57

@Scribble Master  See the edit... There's nothing wrong with looping over the unique groups, though. The second version will probably be slow, and is damned hard to read. With the loop you're only looping (in python, anyway) over the number of unique groups. The inner comparison
data[groups == group]
will be quite fast. – Joe Kington Dec 7 '10 at 6:14 
What dark magic is this
data[groups == group]
construct? Comparing an array to a scalar yields some kind of slice or view? o_O – Karl Knechtel Dec 7 '10 at 6:53 
@Karl 
groups == group
yields a boolean array. You can index by arrays in numpy. This is a very common idiom in numpy (and Matlab). I find it quite readable (think of it as "where") and it's extremely useful. – Joe Kington Dec 7 '10 at 6:57 
@Joe: Neat, but maybe a bit too magical for my liking. I haven't done very much with Numpy (haven't found as much need for it as I thought I might)  it will take some getting used to. – Karl Knechtel Dec 7 '10 at 7:26
The numpy function bincount
was made exactly for this purpose and I'm sure it will be much faster than the other methods for all sizes of inputs:
data = [1,2,3,4,5,6]
ids = [0,0,1,2,2,1]
np.bincount(ids, weights=data) #returns [3,9,9] as a float64 array
The ith element of the output is the sum of all the data
elements corresponding to "id" i
.
Hope that helps.

1Can confirm this is very fast. About 10 times faster than the sum_by_group method Bi Rico provided on small inputs. – Jonathan Richards Jan 20 '17 at 15:17


It looks like the weights argument has to be 1dimensional. One solution is to run bincount once for each dimension of the vector (i.e. twice if data is a set of 2d vectors). A slight modification of Peter's answer should also work. – Alex Jun 19 '17 at 19:46
This is a vectorized method of doing this sum based on the implementation of numpy.unique. According to my timings it is up to 500 times faster than the loop method and up to 100 times faster than the histogram method.
def sum_by_group(values, groups):
order = np.argsort(groups)
groups = groups[order]
values = values[order]
values.cumsum(out=values)
index = np.ones(len(groups), 'bool')
index[:1] = groups[1:] != groups[:1]
values = values[index]
groups = groups[index]
values[1:] = values[1:]  values[:1]
return values, groups
If the groups are indexed by consecutive integers, you can abuse the numpy.histogram()
function to get the result:
data = numpy.arange(1, 7)
groups = numpy.array([0,0,1,2,2,1])
sums = numpy.histogram(groups,
bins=numpy.arange(groups.min(), groups.max()+2),
weights=data)[0]
# array([3, 9, 9])
This will avoid any Python loops.
I tried scripts from everyone and my considerations are:
Joe: Will only work if you have few groups.
kevpie: Too slow because of loops (this is not pythonic way)
Bi_Rico and Sven: perform good, but will only work for Int32 (if the sum goes over 2^32/2 it will fail)
Alex: is the fastest one, good for sum.
But if you want more flexibility and the possibility to group by other statistics use SciPy:
from scipy import ndimage
data = np.arange(10000000)
groups = np.arange(1000).repeat(10000)
ndimage.sum(data, groups, range(1000))
This is good because you have many statistics to group (sum, mean, variance, ...).
You're all wrong! The best way to do it is:
a = [1,2,3,4,5,6]
ix = [0,0,1,2,2,1]
accum = np.zeros(np.max(ix)+1)
np.add.at(accum, ix, a)
print accum
> array([ 3., 9., 9.])
A pure python implementation:
l = [1,2,3,4,5,6]
g = [0,0,1,2,2,1]
from itertools import izip
from operator import itemgetter
from collections import defaultdict
def group_sum(l, g):
groups = defaultdict(int)
for li, gi in izip(l, g):
groups[gi] += li
return map(itemgetter(1), sorted(groups.iteritems()))
print group_sum(l, g)
[3, 9, 9]
I noticed the numpy
tag but in case you don't mind using pandas
, this task becomes an oneliner:
import pandas as pd
import numpy as np
data = np.arange(1, 7)
groups = np.array([0, 0, 1, 2, 2, 1])
df = pd.DataFrame({'data': data, 'groups': groups})
So df
then looks like this:
data groups
0 1 0
1 2 0
2 3 1
3 4 2
4 5 2
5 6 1
Now you can use the functions groupby()
and sum()
print df.groupby(['groups'], sort=False).sum()
which gives you the desired output
data
groups
0 3
1 9
2 9
By default, the dataframe would be sorted, therefore I use the flag sort=False
which might improve speed for huge dataframes.