I am trying to interpolate a 2-dimensional function and I am running into what I consider weird behavior by scipy.interpolate.interp2d. I don't understand what the problem is, and I'd be happy for any help or hints.

```
import numpy as np
from scipy.interpolate import interp2d
x = np.arange(10)
y = np.arange(20)
xx, yy = np.meshgrid(x, y, indexing = 'ij')
val = xx + yy
f = interp2d(xx, yy, val, kind = 'linear')
```

When I run this code, I get the following Warning:

scipy/interpolate/fitpack.py:981: RuntimeWarning: No more knots can be added because the number of B-spline coefficients already exceeds the number of data points m. Probable causes: either s or m too small. (fp>s) kx,ky=1,1 nx,ny=18,15 m=200 fp=0.000000 s=0.000000

warnings.warn(RuntimeWarning(_iermess2[ierm][0] + _mess))

I don't understand why interp2d would use any splines when I tell it it should do linear interpolation. When I continue and evaluate f on the grid everything is good:

```
>>> f(1,1)
array([ 2.])
```

When I evaluate it off the grid, I get large errors, even though the function is clearly linear.

```
>>> f(1.1,1)
array([ 2.44361975])
```

I am a bit confused and I am not sure what the problem is. Did anybody run into similar problems? I used to work with matlab and this is almost 1:1 how I would do it there, but maybe I did something wrong.

When I use a rectangular grid (i.e. y = np.arange(10)) everything works fine by the way, but that isn't what I need. When I use cubic instead of linear interpolation, the error gets smaller (that doesn't make much sense either since the function is linear) but is still unacceptably large.

`This class returns a function whose call method uses spline interpolation to find the value of new points.`

Poor extrapolation is characteristic of spline interpolation. They also make recommendations for regular grid. – hpaulj Jan 4 '16 at 4:26`ff=interpolate.interp2d(y,x,xx+yy,kind='linear')`

? (check the docs regarding row/column coordinates). – hpaulj Jan 4 '16 at 4:57`interp2d`

uses:`interpolate.bisplrep(...., kx=1, ky=1)`

, that is a 'a bivariate B-spline representation of a surface'. This is not the same as a bunch of piecewise linear planes. There is a MATLAB b-spline that probably behaves the same (and may have more documentation). – hpaulj Jan 4 '16 at 5:14