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I have 16-bit PGM images that I am trying to read in Python. It seems (?) like PIL does not support this format?

import Image
im ='test.pgm')

Shows roughly the image, but it isn't right. There are dark bands throughout and img is reported to have mode=L. I think this is related to an early question I had about 16-bit TIFF files. Is 16-bit that rare that PIL just does not support it? Any advice how I can read 16-bit PGM files in Python, using PIL or another standard library, or home-grown code?

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3 Answers 3

up vote 1 down vote accepted

The following depends only on numpy to load the image, which can be 8-bit or 16-bit raw PGM/PPM. I also show a couple different ways to view the image. The one that uses PIL (import Image) requires that the data first be converted to 8-bit.

#!/usr/bin/python2 -u

from __future__ import print_function
import sys, numpy

def read_pnm_from_stream( fd ):
   pnm = type('pnm',(object,),{}) ## create an empty container
   pnm.header = fd.readline()
   pnm.magic = pnm.header.split()[0]
   pnm.maxsample = 1 if ( pnm.magic == 'P4' ) else 0
   while ( len(pnm.header.split()) < 3+(1,0)[pnm.maxsample] ): s = fd.readline() ; pnm.header += s if ( len(s) and s[0] != '#' ) else ''
   pnm.width, pnm.height = [int(item) for item in pnm.header.split()[1:3]]
   pnm.samples = 3 if ( pnm.magic == 'P6' ) else 1
   if ( pnm.maxsample == 0 ): pnm.maxsample = int(pnm.header.split()[3])
   pnm.pixels = numpy.fromfile( fd, count=pnm.width*pnm.height*pnm.samples, dtype='u1' if pnm.maxsample < 256 else '>u2' )
   pnm.pixels = pnm.pixels.reshape(pnm.height,pnm.width) if pnm.samples==1 else pnm.pixels.reshape(pnm.height,pnm.width,pnm.samples)
   return pnm

if __name__ == '__main__':

## read image
 # src = read_pnm_from_stream( open(filename) )
   src = read_pnm_from_stream( sys.stdin )
 # print("src.header="+src.header.strip(), file=sys.stderr )
 # print("src.pixels="+repr(src.pixels), file=sys.stderr )

## write image
   dst.pixels = numpy.array([ dst.maxsample-i for i in src.pixels ],dtype=dst.pixels.dtype) ## example image processing
 # print("dst shape: "+str(dst.pixels.shape), file=sys.stderr )
   sys.stdout.write(("P5" if dst.samples==1 else "P6")+"\n"+str(dst.width)+" "+str(dst.height)+"\n"+str(dst.maxsample)+"\n");
   dst.pixels.tofile( sys.stdout ) ## seems to work, I'm not sure how it decides about endianness

## view using Image
   import Image
   viewable = dst.pixels if dst.pixels.dtype == numpy.dtype('u1') else numpy.array([ x>>8 for x in dst.pixels],dtype='u1')

## view using scipy
   import scipy.misc

Hints on porting to Python 3: binary input with an ASCII text header, read from stdin

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I just figured out "how it decides about endianness" -- it is actually storing the image in memory as big-endian (rather than native). This scheme probably slows down any intermediate image processing. – nobar Jul 26 at 16:00

You need a mode of "L;16"; however it looks like PIL has a mode of "L" hardcoded into File.c when loading a PGM. You’d have to write your own decoder if you want to be able to read a 16-bit PGM.

However, 16-bit image support still seems flaky:

>>> im = Image.fromstring('I;16', (16, 16), '\xCA\xFE' * 256, 'raw', 'I;16') 
>>> im.getcolors()
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  File "/usr/lib/python2.6/dist-packages/PIL/", line 866, in getcolors
ValueError: image has wrong mode

I think PIL is capable of reading images with 16 bits, but actually storing and manipulating them is still experimental.

>>> im = Image.fromstring('L', (16, 16), '\xCA\xFE' * 256, 'raw', 'L;16') 
>>> im
<Image.Image image mode=L size=16x16 at 0x27B4440>
>>> im.getcolors()
[(256, 254)]

See, it just interpreted the 0xCAFE value as 0xFE, which isn’t exactly correct.

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I'm happy to just read them. If I need to write I will use PNG. I am also OK with manipulating them as data in numpy rather than as an image in PIL. Your post has been helpful, but can you expand on how I can correctly read in the data? – mankoff Sep 9 '11 at 16:10
Do you mean writing a decoder for PIL, or how to interpret the PGM? – Josh Lee Sep 9 '11 at 16:14
Your italicized '''reading''' made me think there is some trick to perhaps make it work as-is? I'm trying to adapt the work-around here ( but without losing bits. If a custom decoder is needed I will write it based on the PIL tutorial. The PGM format seems pretty basic, so perhaps I should just read it directly into numpy... – mankoff Sep 9 '11 at 16:27
I’m not sure. In my test, it correctly parsed the file but was unable to represent its contents exactly. I don’t think using a custom decoder would have a different result than using fromstring. Numpy is probably a better bet. – Josh Lee Sep 9 '11 at 16:36

Here's a generic PNM/PAM reader based on NumPy and an undocumented function in PyPNG.

def read_pnm( filename, endian='>' ):
   fd = open(filename,'rb')
   format, width, height, samples, maxval = png.read_pnm_header( fd )
   pixels = numpy.fromfile( fd, dtype='u1' if maxval < 256 else endian+'u2' )
   return pixels.reshape(height,width,samples)

Of course writing this image format generally doesn't require the assistance of a library...

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I borrowed some ideas from this related question. – nobar Feb 3 '13 at 1:35
With regards to 'PAM' support, the read_pnm_header() function used here doesn't return TUPLTYPE, but it does return the correct value for DEPTH (which I called samples). – nobar Feb 3 '13 at 2:01
See this question for important notes on using stdio instead of a file. – nobar Feb 5 '13 at 19:17
It's been a while, and I'm not sure where endian was supposed to have come from. I think it should just be replaced with '>' to indicate that the file is stored as big-endian (per the standard). – nobar Jul 19 at 18:40

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