I used Scipy's Griddata to fill in this gridded data using the points plotted (shown as empty). Is there a way to get the interpolated values (z) based on (x,y) coordinates? here's the code for the plot, and the x,y,z values are all Series.

    xi = np.linspace(min(lats),max(lats),360)
    yi = np.linspace(min(lons),max(lons),360)
    # grid the data.
    zi = griddata((lats, lons), nuits, (xi[None,:], yi[:,None]), method='cubic')
    # contour the gridded data.
    # plot data points.
    plt.scatter(lats,lons,facecolors='none', edgecolors='k',s=26)
  • Isn't zi what you want? Commented Dec 28, 2015 at 8:18
  • Hi Mike! zi is the entire gridded dataset. I'd like to be able to find a value from zi based on (xi,yi) coordinates. Is there a better way to doing this than just finding the same index as xi and yi.
    – leon yin
    Commented Dec 28, 2015 at 8:36

2 Answers 2


This would work:

xi_coords = {value: index for index, value in enumerate(xi)}
yi_coords = {value: index for index, value in enumerate(yi)}
xic = <your coordinate>
yic = <your coordinate>
zi[xi_coords[xic], yi_coords[yic]]
  • Thanks for the solution Mike, one problem that occurs from this solution is that the linspace generated coordinates are a bit off from the coordinates I am searching for
    – leon yin
    Commented Dec 29, 2015 at 20:21
  • Great that it helped. The linspace generated coordinates is a different problem. The lookup works, right? So the question is answered. BTW, you can accept an answer if it solves your problem. I would recommend that you ask a new question focusing on the linspace part. Provide small but realistic input data, what you get, and what you want. Commented Dec 30, 2015 at 2:43
  • @MikeMüller is it possible for griddata to work in 3d, say griddata((x, y, z), vals, ..) ? Commented Aug 21, 2021 at 14:47

You can get your interpolated zi coordinates from your (xi,yi) coordinates by:

# (xi,yi) coords to get the interpolated zi coords
# where len(xic) = len(yic)  
xic = <your coordinate>
yic = <your coordinate>

# sort these coordinates in an increasing order
s_xic = np.sort(xic)
s_yic = np.sort(yic)

# indices belonging to xic, yic, that would sort the array
ind_s_xic = np.argsort(xic)
ind_s_yic = np.argsort(yic)

dict_xic = dict(zip(ind_s_xic, np.array(range(len(xic))))
dict_yic = dict(zip(ind_s_yic, np.array(range(len(yic))))

xi,yi = np.meshgrid(s_xic, s_yic)

# zi_grid has dimensions ( len(yic), len(xic) )
zi_grid = griddata((lats, lons), nuits, (xi, yi), method='cubic')

# zic is the interpolated z-coordinate data with an arrangement order,
# corresponding to the x and y-coordinate data in xic and yic
zic =  [ zi_grid[dict_yic[i], dict_xic[i]] for i in range(len(xic)) ]

Visit How does one use numpy's Meshgrid function with a random interval rather than a equally spaced one? to understand about how meshgrid works.

Meshgrid can be created from your unevenly spaced (xi,yi) coordinates, following which, griddata can use your meshgrid to interpolate the z-coords from the interpolated surface created based on points = (lats, lons), values = nuits.

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