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# Can anyone please explain how this python code works line by line?

I am working in image processing right now in python using numpy and scipy all the time. I have one piece of code that can enlarge an image, but not sure how this works.

So please some expert in scipy/numpy in python can explain to me line by line. I am always eager to learn.

``````import numpy as N
import os.path
import scipy.signal
import scipy.interpolate
import matplotlib.pyplot as plt
import matplotlib.cm as cm

def enlarge(img, rowscale, colscale, method='linear'):
x, y = N.meshgrid(N.arange(img.shape[1]), N.arange(img.shape[0]))
pts = N.column_stack((x.ravel(), y.ravel()))
xx, yy = N.mgrid[0.:float(img.shape[1]):1/float(colscale),
0.:float(img.shape[0]):1/float(rowscale)]
large = scipy.interpolate.griddata(pts, img.flatten(), (xx, yy), method).T
large[-1,:] = large[-2,:]
large[:,-1] = large[:,-2]
return large
``````

Thanks a lot.

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The indentation of each statement in Python is significant. Please fix the formatting of your code snippet. – Johnsyweb May 22 '11 at 5:54
Thanks and sorry about that. I added those import .. to make it clear – Hold_My_Anger May 22 '11 at 6:03
Note that using `griddata` is not the most efficient option here, since the grid is always rectangular. More efficient options would be: `scipy.interpolate.RectBivariateSpline` and `scipy.ndimage.zoom`. – pv. May 31 '11 at 8:24

First, a grid of empty points is created with point per pixel.

``````x, y = N.meshgrid(N.arange(img.shape[1]), N.arange(img.shape[0]))
``````

The actual image pixels are placed into the variable `pts` which will be needed later.

``````pts = N.column_stack((x.ravel(), y.ravel()))
``````

After that, it creates a mesh grid with one point per pixel for the enlarged image; if the original image was 200x400, the colscale set to 4 and rowscale set to 2, the mesh grid would have (200*4)x(400*2) or 800x800 points.

``````xx, yy = N.mgrid[0.:float(img.shape[1]):1/float(colscale),
0.:float(img.shape[0]):1/float(rowscale)]
``````

Using scipy, the points in `pts` variable are interpolated into the larger grid. Interpolation is the manner in which missing points are filled or estimated usually when going from a smaller set of points to a larger set of points.

``````large = scipy.interpolate.griddata(pts, img.flatten(), (xx, yy), method).T
``````

I am not 100% certain what the last two lines do without going back and looking at what the griddata method returns. It appears to be throwing out some additional data that isn't needed for the image or performing a translation.

``````large[-1,:] = large[-2,:]
large[:,-1] = large[:,-2]
return large
``````
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