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I've loaded an RGB image with PIL/OpenCV, and I'd like convert all its channels into a single 1x(3*width*height) sequence into order to feed it to an ANN. I found I can simply do:

rlist = []
glist = []
blist = []
for i in xrange(im.width):
    for j in xrange(im.height):
        r,g,b = im[i,j]
        rlist.append(r)
        glist.append(g)
        blist.append(b)
img_vec = rlist + blist + glist

But obviously this is horribly inefficient. Is there a faster way with some internal OpenCV/numpy routine?

share|improve this question
    
I'm curious. What is an ANN? –  David Poole Oct 14 '11 at 12:59
    
ANN == artificial neural network –  Cerin Oct 14 '11 at 13:25

1 Answer 1

up vote 5 down vote accepted

As a quick example:

import Image
import numpy as np

im = Image.open('temp.png')
data = np.array(im)
flattened = data.flatten()

print data.shape
print flattened.shape

This yields:

(612, 812, 4)
(1987776,)

Alternately, instead of calling data.flatten(), you could call data.reshape(-1). -1 is used as a placeholder for "figure out what the given dimension should be".

Note that this will yield a vector (flattened) of r0, g0, b0, r1, g1, b1, ... rn, gn, bn, while you want a vector of r0, r1 ... rn, b0, b1, ... bn, g0, g1, ... gn.

To get exactly what you want, just call

flattened = data.T.flatten()

instead.

share|improve this answer
    
Are you sure about data.T.flatten()? My tests show that data.flatten() returns the data in order [r1,r2...,g1,g2,...b1,b2...] whereas data.T.flatten() returns it in order [r1,g1,b1,r2,g2,b2,...]. However, I tested using simple numpy arrays, not actual images. –  Cerin Oct 13 '11 at 21:37

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