5

Why does numpy return different results with missing values when using a Pandas series compared to accessing the series' values as in the following:

import pandas as pd
import numpy as np

data = pd.DataFrame(dict(a=[1, 2, 3, np.nan, np.nan, 6]))
np.sum(data['a'])

#12.0

np.sum(data['a'].values)
#nan
  • Based on the answer by @coldspeed, this isn't quite a duplicate. I'm willing to remove it though if it doesn't add anything. – willk Mar 12 at 20:37
5

Calling np.sum on a pandas Series delegates to Series.sum, which ignores NaNs when computing the sum (BY DEFAULT).

data['a'].sum()
# 12.0

np.sum(data['a'])
# 12.0

You can see this from the source code of np.sum:

np.sum??

def sum(a, axis=None, dtype=None, out=None, keepdims=np._NoValue, initial=np._NoValue):
    ...
    return _wrapreduction(a, np.add, 'sum', axis, dtype, out, keepdims=keepdims,

Taking a look at the source code for _wrapreduction, we see:

np.core.fromnumeric._wrapreduction??

def _wrapreduction(obj, ufunc, method, axis, dtype, out, **kwargs):
    ...
    if type(obj) is not mu.ndarray:
        try:
            reduction = getattr(obj, method)   # get reference to Series.add 

reduction is then finally called at the end of the function:

            return reduction(axis=axis, out=out, **passkwargs)           
  • 1
    Dang, beat me to it. Was just copying over the numpy source haha. +1 – Matt Messersmith Mar 12 at 20:25
  • Thanks! This applies to other numpy functions acting on Pandas series as well (such as mean, min, max, median, etc.)? – willk Mar 12 at 20:33
  • @willk Yes, most ufuncs, actually. There might be exceptions that I am not aware of though. – cs95 Mar 12 at 20:34
  • 1
    There is a numpy function for summing up arrays with NaN: numpy.nansum(): Function is used when we want to compute the sum of array elements over a given axis treating Not a Numbers (NaNs) as zero. – run-out Mar 12 at 20:35
  • Thanks. I guess the safest option is to use data['a'].sum(skipna=True) to be explicit. Or use the np.nansum function. – willk Mar 12 at 20:39

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