# Interpolate NaN values in a numpy array

Is there a quick way of replacing all NaN values in a numpy array with (say) the linearly interpolated values?

For example,

``````[1 1 1 nan nan 2 2 nan 0]
``````

would be converted into

``````[1 1 1 1.3 1.6 2 2  1  0]
``````
-

Lets define first a simple helper function in order to make it more straightforward to handle indices and logical indices of NaNs:

``````import numpy as np

def nan_helper(y):
"""Helper to handle indices and logical indices of NaNs.

Input:
- y, 1d numpy array with possible NaNs
Output:
- nans, logical indices of NaNs
- index, a function, with signature indices= index(logical_indices),
to convert logical indices of NaNs to 'equivalent' indices
Example:
>>> # linear interpolation of NaNs
>>> nans, x= nan_helper(y)
>>> y[nans]= np.interp(x(nans), x(~nans), y[~nans])
"""

return np.isnan(y), lambda z: z.nonzero()[0]
``````

Now the `nan_helper(.)` can now be utilized like:

``````>>> y= array([1, 1, 1, NaN, NaN, 2, 2, NaN, 0])
>>>
>>> nans, x= nan_helper(y)
>>> y[nans]= np.interp(x(nans), x(~nans), y[~nans])
>>>
>>> print y.round(2)
[ 1.    1.    1.    1.33  1.67  2.    2.    1.    0.  ]
``````

---
Although it may seem first a little bit overkill to specify a separate function to do just things like this:

``````>>> nans, x= np.isnan(y), lambda z: z.nonzero()[0]
``````

it will eventually pay dividends.

So, whenever you are working with NaNs related data, just encapsulate all the (new NaN related) functionality needed, under some specific helper function(s). Your code base will be more coherent and readable, because it follows easily understandable idioms.

Interpolation, indeed, is a nice context to see how NaN handling is done, but similar techniques are utilized in various other contexts as well.

-

I came up with this code:

``````import numpy as np
nan = np.nan

A = np.array([1, nan, nan, 2, 2, nan, 0])

ok = -np.isnan(A)
xp = ok.ravel().nonzero()[0]
fp = A[-np.isnan(A)]
x  = np.isnan(A).ravel().nonzero()[0]

A[np.isnan(A)] = np.interp(x, xp, fp)

print A
``````

It prints

`````` [ 1.          1.33333333  1.66666667  2.          2.          1.          0.        ]
``````
-
Strange with a negative vote for a working answer. Oh well. – Petter Jun 29 '11 at 10:42
what's the point of using `ravel()` here? – thengineer Feb 11 '14 at 16:58
I don’t remember… :-( It seems to work without it. – Petter Feb 12 '14 at 13:00
It also works on 2d arrays. +1 – fmonegaglia Nov 9 '15 at 11:54
@fmonegaglia, unfortunately this script only interpolates across one axis of 2D arrays, it's not a 2D interpolation. The need for interpolation over NaNs in 2D arrays has a scipy issue: github.com/scipy/scipy/issues/1682 – E. Douglas Dec 7 '15 at 15:38

Just use numpy logical and there where statement to apply a 1D interpolation.

``````def fill_nan(A):
'''
interpolate to fill nan values
'''
inds = np.arange(A.shape[0])
good = np.where(np.isfinite(A))
f = interpolate.interp1d(inds[good], A[good],bounds_error=False)
B = np.where(np.isfinite(A),A,f(inds))
return B
``````
-

It might be easier to change how the data is being generated in the first place, but if not:

``````bad_indexes = np.isnan(data)
``````

Create a boolean array indicating where the nans are

``````good_indexes = np.logical_not(bad_indexes)
``````

Create a boolean array indicating where the good values area

``````good_data = data[good_indexes]
``````

A restricted version of the original data excluding the nans

``````interpolated = np.interp(bad_indexes.nonzero(), good_indexes.nonzero(), good_data)
``````

Run all the bad indexes through interpolation

``````data[bad_indexes] = interpolated
``````

Replace the original data with the interpolated values.

-
This doesn't work for me. I get `ValueError: setting an array element with a sequence.` for the interp call – Petter Jun 29 '11 at 10:22
@Ben, Sorry, I couldn't/can't test it right now. Try adding [0] after both of the nonzero()s. – Winston Ewert Jun 29 '11 at 12:58

``````def pad(data):
good_data = data[good_indexes]
return data

A = np.array([[1, 20, 300],
[nan, nan, nan],
[3, 40, 500]])

``````[[   1.   20.  300.]