# How can I use scipy.interpolate.interp1d to interpolate multi Y arrays using the same X array?

As an example, I have an array of 2-D data with error bars on one of the dimensions, such as this:

``````In [1]: numpy as np
In [2]: x = np.linspace(0,10,5)
In [3]: y = np.sin(x)
In [4]: y_er = (np.random.random(len(x))-0.5)*0.1
In [5]: data = np.vstack([x,y,y_er]).T
In [6]: data
array([[  0.00000000e+00,   0.00000000e+00,  -6.50361821e-03],
[  2.50000000e+00,   5.98472144e-01,  -3.69252108e-03],
[  5.00000000e+00,  -9.58924275e-01,  -2.99042576e-02],
[  7.50000000e+00,   9.37999977e-01,  -7.66584515e-03],
[  1.00000000e+01,  -5.44021111e-01,  -4.24650123e-02]])
``````

If I want to use scipy.interpolate.interp1d, how do I format it to only have to call it once? I want to avoid this repeated method:

``````In [7]: import scipy.interpolate as interpolate
In [8]: new_x = np.linspace(0,10,20)
In [9]: interp_y = interpolate.interp1d(data[:,0], data[:,1], kind='cubic')
In [10]: interp_y_er = interpolate.interp1d(data[:,0], data[:,2], kind='cubic')
In [11]: data_int = np.vstack([new_x, interp_y(new_x), interp_y_er(new_x)]).T
In [12]: data_int
Out[12]:
array([[  0.00000000e+00,   1.33226763e-15,  -6.50361821e-03],
[  5.26315789e-01,   8.34210211e-01,   4.03036906e-03],
[  1.05263158e+00,   1.18950397e+00,   7.81676344e-03],
[  1.57894737e+00,   1.17628260e+00,   6.43203582e-03],
[  2.10526316e+00,   9.04947417e-01,   1.45265705e-03],
[  2.63157895e+00,   4.85798968e-01,  -5.54638391e-03],
[  3.15789474e+00,   1.69424684e-02,  -1.31694104e-02],
[  3.68421053e+00,  -4.27201979e-01,  -2.03689966e-02],
[  4.21052632e+00,  -7.74935541e-01,  -2.61377287e-02],
[  4.73684211e+00,  -9.54559384e-01,  -2.94681929e-02],
[  5.26315789e+00,  -8.97599881e-01,  -2.94003966e-02],
[  5.78947368e+00,  -6.09763178e-01,  -2.60650399e-02],
[  6.31578947e+00,  -1.70935195e-01,  -2.06835155e-02],
[  6.84210526e+00,   3.35772943e-01,  -1.45246375e-02],
[  7.36842105e+00,   8.27250110e-01,  -8.85721975e-03],
[  7.89473684e+00,   1.21766391e+00,  -4.99008827e-03],
[  8.42105263e+00,   1.39749683e+00,  -4.58031991e-03],
[  8.94736842e+00,   1.24503605e+00,  -9.46430377e-03],
[  9.47368421e+00,   6.38467937e-01,  -2.14799109e-02],
[  1.00000000e+01,  -5.44021111e-01,  -4.24650123e-02]])
``````

I believe it would be something like this:

``````In [13]: interp_data = interpolate.interp1d(data[:,0], data[:,1:], axis=?, kind='cubic')
``````

## 1 Answer

So looking at my guess, I had tried `axis = 1`. I double checked the only other option that made sense, `axis = 0`, and it worked. So for the next dummy who has my same problem, this is what I wanted:

``````In [14]: interp_data = interpolate.interp1d(data[:,0], data[:,1:], axis=0, kind='cubic')
In [15]: data_int = np.zeros((len(new_x),len(data[0])))
In [16]: data_int[:,0] = new_x
In [17]: data_int[:,1:] = interp_data(new_x)
In [18]: data_int
Out [18]:
array([[  0.00000000e+00,   1.33226763e-15,  -6.50361821e-03],
[  5.26315789e-01,   8.34210211e-01,   4.03036906e-03],
[  1.05263158e+00,   1.18950397e+00,   7.81676344e-03],
[  1.57894737e+00,   1.17628260e+00,   6.43203582e-03],
[  2.10526316e+00,   9.04947417e-01,   1.45265705e-03],
[  2.63157895e+00,   4.85798968e-01,  -5.54638391e-03],
[  3.15789474e+00,   1.69424684e-02,  -1.31694104e-02],
[  3.68421053e+00,  -4.27201979e-01,  -2.03689966e-02],
[  4.21052632e+00,  -7.74935541e-01,  -2.61377287e-02],
[  4.73684211e+00,  -9.54559384e-01,  -2.94681929e-02],
[  5.26315789e+00,  -8.97599881e-01,  -2.94003966e-02],
[  5.78947368e+00,  -6.09763178e-01,  -2.60650399e-02],
[  6.31578947e+00,  -1.70935195e-01,  -2.06835155e-02],
[  6.84210526e+00,   3.35772943e-01,  -1.45246375e-02],
[  7.36842105e+00,   8.27250110e-01,  -8.85721975e-03],
[  7.89473684e+00,   1.21766391e+00,  -4.99008827e-03],
[  8.42105263e+00,   1.39749683e+00,  -4.58031991e-03],
[  8.94736842e+00,   1.24503605e+00,  -9.46430377e-03],
[  9.47368421e+00,   6.38467937e-01,  -2.14799109e-02],
[  1.00000000e+01,  -5.44021111e-01,  -4.24650123e-02]])
``````

I did not figure out the syntax for using `np.vstack` or `np.hstack` to combine the `new_x` and interpolated data in one line but this post made me stop trying as it seems faster to pre-allocate the array (e.g. using `np.zeros`) then fill it with the new values.