If you're sure that
r==g==b for all pixels, then this should work:
from PIL import Image
im = Image.open("g.bmp") # The input image. Should be greyscale
out = open("out.txt", "wb") # The output.
data = im.getdata() # This will create a generator that yields
# the value of the rbg values consecutively. If
# g.bmp is a 2x2 image of four rgb(12, 12, 12) pixels,
# list(data) should be
# [(12,12,12), (12,12,12), (12,12,12), (12,12,12)]
for i in data: # Here we iterate through the pixels.
if i < 10: # If r==b==g, we only really
# need one pixel (i or "r")
out.write(str(i)+" ") # if the pixel is valid, we'll write the value. So for
# rgb(4, 4, 4), we'll output the string "4"
out.write("X ") # Otherwise, it does not meet the requirements, so
# we'll output "X"
If it is NOT guaranteed that
r==g==b for some reason, adjust the conditions as necessary. If you want an average of 10, for example, you could change the condition to something like
if sum(i) <= 30: # Equivalent to sum(i)/float(len(i)) <= 10 if we know the length is 3
Also note that for greyscale-format files (as opposed to greyscale images in a color file format)
im.getdata() will return simply the grey level as a single value. So for a 2x2 image of
rgb(15, 15, 15),
list(data) will output
[4, 4, 4, 4] instead of
[(4, 4, 4), (4, 4, 4), (4, 4, 4), (4, 4, 4)]. In this case, when analyzing, refer just to
i instead of