# Cumsum reset at NaN

If I have a pandas.core.series.Series named ts of either 1's or NaN's like this:

3382   NaN
3381   NaN
...
3369   NaN
3368   NaN
...
15     1
10   NaN
11     1
12     1
13     1
9    NaN
8    NaN
7    NaN
6    NaN
3    NaN
4      1
5      1
2    NaN
1    NaN
0    NaN


I would like to calculate cumsum of this serie but it should be reset (set to zero) at the location of the NaNs like below:

3382   0
3381   0
...
3369   0
3368   0
...
15     1
10     0
11     1
12     2
13     3
9      0
8      0
7      0
6      0
3      0
4      1
5      2
2      0
1      0
0      0


Ideally I would like to have a vectorized solution !

I ever see a similar question with Matlab : Matlab cumsum reset at NaN?

but I don't know how to translate this line d = diff([0 c(n)]);

A simple Numpy translation of your Matlab code is this:

import numpy as np

v = np.array([1., 1., 1., np.nan, 1., 1., 1., 1., np.nan, 1.])
n = np.isnan(v)
a = ~n
c = np.cumsum(a)
d = np.diff(np.concatenate(([0.], c[n])))
v[n] = -d
np.cumsum(v)


Executing this code returns the result array([ 1., 2., 3., 0., 1., 2., 3., 4., 0., 1.]). This solution will only be as valid as the original one, but maybe it will help you come up with something better if it isn't sufficient for your purposes.

Here's a slightly more pandas-onic way to do it:

v = Series([1, 1, 1, nan, 1, 1, 1, 1, nan, 1], dtype=float)
n = v.isnull()
a = ~n
c = a.cumsum()
index = c[n].index  # need the index for reconstruction after the np.diff
d = Series(np.diff(np.hstack(([0.], c[n]))), index=index)
v[n] = -d
result = v.cumsum()


Note that either of these requires that you're using pandas at least at 9da899b or newer. If you aren't then you can cast the bool dtype to an int64 or float64 dtype:

v = Series([1, 1, 1, nan, 1, 1, 1, 1, nan, 1], dtype=float)
n = v.isnull()
a = ~n
c = a.astype(float).cumsum()
index = c[n].index  # need the index for reconstruction after the np.diff
d = Series(np.diff(np.hstack(([0.], c[n]))), index=index)
v[n] = -d
result = v.cumsum()

• ValueError: cannot convert float NaN to integer for ts.notnull.cumsum() on pandas 0.12. I'm not sure why this would occur for a boolean series.. – machow Aug 12 '13 at 22:04
• That should've been fixed by 9da899b – Phillip Cloud Aug 12 '13 at 22:08
• @Closed Make sure you're up to date and let me know if it still doesn't work. – Phillip Cloud Aug 12 '13 at 22:08
• @Closed I've updated my answer for usage pre 9da899b. – Phillip Cloud Aug 12 '13 at 22:12
• Just checked 9da899b--looks good, thanks! – machow Aug 12 '13 at 23:26

Even more pandas-onic way to do it:

v = pd.Series([1., 3., 1., np.nan, 1., 1., 1., 1., np.nan, 1.])
reset = -cumsum[v.isnull()].diff().fillna(cumsum)
result = v.where(v.notnull(), reset).cumsum()


Contrary to the matlab code, this also works for values different from 1.

• This is the best answer of the lot. If you want to understand how it works, just add one more line at the end: print(pd.DataFrame({'v': v, 'cum': cumsum, 'reset': reset, 'result': result})), and run this code. – Roobie Nuby Nov 13 '18 at 10:10

If you can accept a similar boolean Series b, try

(b.cumsum() - b.cumsum().where(~b).fillna(method='pad').fillna(0)).astype(int)


Starting from your Series ts, either b = (ts == 1) or b = ~ts.isnull().