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I'm using numpy to initialize a pixel array to a gray checkerboard (the classic representation for "no pixels", or transparent). It seems like there ought to be a whizzy way to do it with numpy's amazing array assignment/slicing/dicing operations, but this is the best I've come up with:

w, h = 600, 800
sq = 15    # width of each checker-square
self.pix = numpy.zeros((w, h, 3), dtype=numpy.uint8)
# Make a checkerboard
row = [[(0x99,0x99,0x99),(0xAA,0xAA,0xAA)][(i//sq)%2] for i in range(w)]
self.pix[[i for i in range(h) if (i//sq)%2 == 0]] = row
row = [[(0xAA,0xAA,0xAA),(0x99,0x99,0x99)][(i//sq)%2] for i in range(w)]
self.pix[[i for i in range(h) if (i//sq)%2 == 1]] = row

It works, but I was hoping for something simpler.

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7 Answers 7

Here's another way to do it using ogrid which is a bit faster:

import numpy as np
import Image

w, h = 600, 800
sq = 15
color1 = (0xFF, 0x80, 0x00)
color2 = (0x80, 0xFF, 0x00)

def use_ogrid():
    coords = np.ogrid[0:w, 0:h]
    idx = (coords[0] // sq + coords[1] // sq) % 2
    vals = np.array([color1, color2], dtype=np.uint8)
    img = vals[idx]
    return img

def use_fromfunction():
    img = np.zeros((w, h, 3), dtype=np.uint8)
    c = np.fromfunction(lambda x, y: ((x // sq) + (y // sq)) % 2, (w, h))
    img[c == 0] = color1
    img[c == 1] = color2
    return img

if __name__ == '__main__':
    for f in (use_ogrid, use_fromfunction):
        img = f()
        pilImage = Image.fromarray(img, 'RGB')

Here are the timeit results:

% python -mtimeit -s"import test" "test.use_fromfunction()"
10 loops, best of 3: 307 msec per loop
% python -mtimeit -s"import test" "test.use_ogrid()"
10 loops, best of 3: 129 msec per loop
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Can you adapt this so that it will work if my pixel colors aren't pure gray? Suppose I wanted the two colors to be (0xFF,0x80,0x00) and (0x80,0xFF,0x00) –  Ned Batchelder Jan 31 '10 at 16:16
Sure. It was a bad design choice on my part to assume the color had to be gray... –  unutbu Jan 31 '10 at 17:22
import numpy as NP

def checkerboard(w, h) :
    re = NP.r_[ w*[0,1] ]
    ro = NP.r_[ w*[1,0] ]
    return NP.row_stack(h*(re, ro))

AB = checkerboard(5, 10)
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This is close, although you have to be careful of a few things: I wanted the checks to be more than 1 pixel across (I had them as 15), and you can't assume that the checks will fit evenly into the width and height of the checkerboard desired. –  Ned Batchelder Jan 30 '10 at 21:50
Nice! ro can be written simply as re^1. (just XORing re with 1) –  Gökhan Sever Nov 10 '11 at 3:12
This works for even and non-even width / height: import numpy def checkerboard(w, h, a=0, b=1): row0 = numpy.r_[ int(w/2.0) * [a,b] + (w % 2) * [a] ] row1 = row0^1 return numpy.row_stack( int(h/2.0) * (row0, row1) + (h % 2) * (row0,) ) –  Duffycola Feb 13 at 17:17

Can't you use hstack and vstack? See here. Like this:

>>> import numpy as np
>>> b = np.array([0]*4)
>>> b.shape = (2,2)
>>> w = b + 0xAA
>>> r1 = np.hstack((b,w,b,w,b,w,b))
>>> r2 = np.hstack((w,b,w,b,w,b,w))
>>> board = np.vstack((r1,r2,r1,r2,r1,r2,r1))
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I don't get no respect here, but this is correct. telliott99.blogspot.com/2010/01/… –  telliott99 Jan 30 '10 at 23:54
This doesn't make an array of the correct size, though it looks like you expanded your answer in your blog post. But we can't vote up the blog post! :) Sheesh! –  Ned Batchelder Jan 31 '10 at 16:18

I'm not sure if this is better than what I had:

c = numpy.fromfunction(lambda x,y: ((x//sq) + (y//sq)) % 2, (w,h))
self.chex = numpy.array((w,h,3))
self.chex[c == 0] = (0xAA, 0xAA, 0xAA)
self.chex[c == 1] = (0x99, 0x99, 0x99)
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I recently want the same function and i modified doug's answer a little bit as follows:

def gen_checkerboard(grid_num, grid_size):
    row_even = grid_num/2 * [0,1]
    row_odd = grid_num/2 * [1,0]
    checkerboard = numpy.row_stack(grid_num/2*(row_even, row_odd))
    return checkerboard.repeat(grid_size, axis = 0).repeat(grid_size, axis = 1)
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I modified hass's answer as follows.

import math
import numpy as np

def checkerboard(w, h, c0, c1, blocksize):
        tile = np.array([[c0,c1],[c1,c0]]).repeat(blocksize, axis=0).repeat(blocksize, axis=1)
        grid = np.tile(tile,(int(math.ceil((h+0.0)/(2*blocksize))),int(math.ceil((w+0.0)/(2*blocksize)))))
        return grid[:h,:w]
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Ideally, you'd indicate what advantage this answer has over another, rather than just telling us you've modified it. –  Ashwin Balamohan Nov 21 '13 at 15:44

Late, but for posterity:

def check(w, h, c0, c1, blocksize):
  tile = np.array([[c0,c1],[c1,c0]]).repeat(blocksize, axis=0).repeat(blocksize, axis=1)
  grid = np.tile(tile, ( h/(2*blocksize)+1, w/(2*blocksize)+1, 1))
  return grid[:h,:w]
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