Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have an application where I would like to be able to generate PNG images from data in Python. I've done some searching and found "PIL" which looked pretty outdated. Is there some other library that would be better for this?


share|improve this question
How is PIL outdated? –  Chris Dec 18 '11 at 19:48
you use good old PIL (if you are not already developping beyond py3.2) –  joaquin Dec 18 '11 at 20:22

2 Answers 2

up vote 2 down vote accepted

Try using the png module for starters.

share|improve this answer
Thanks, that's great –  adam Dec 18 '11 at 20:03
@adam Can you mark the answer as accepted? –  Raymond Hettinger Dec 19 '11 at 0:58

Simple PNG files can be generated quite easily from pure Python code - all you need is the standard zlib module and some bytes-encoding to write the chunks. Here is a complete example that the casual reader may use as a starter for its own png generator:

#! /usr/bin/python
""" Converts a list of list into gray-scale PNG image. """
__copyright__ = "Copyright (C) 2014 Guido Draheim"
__licence__ = "Public Domain"

import zlib
import struct

def makeGrayPNG(data, height = None, width = None):
    def I1(value):
        return struct.pack("!B", value & (2**8-1))
    def I4(value):
        return struct.pack("!I", value & (2**32-1))
    # compute width&height from data if not explicit
    if height is None:
        height = len(data) # rows
    if width is None:
        width = 0
        for row in data:
            if width < len(row):
                width = len(row)
    # generate these chunks depending on image type
    makeIHDR = True
    makeIDAT = True
    makeIEND = True
    png = b"\x89" + "PNG\r\n\x1A\n".encode('ascii')
    if makeIHDR:
        colortype = 0 # true gray image (no palette)
        bitdepth = 8 # with one byte per pixel (0..255)
        compression = 0 # zlib (no choice here)
        filtertype = 0 # adaptive (each scanline seperately)
        interlaced = 0 # no
        IHDR = I4(width) + I4(height) + I1(bitdepth)
        IHDR += I1(colortype) + I1(compression)
        IHDR += I1(filtertype) + I1(interlaced)
        block = "IHDR".encode('ascii') + IHDR
        png += I4(len(IHDR)) + block + I4(zlib.crc32(block))
    if makeIDAT:
        raw = b""
        for y in xrange(height):
            raw += b"\0" # no filter for this scanline
            for x in xrange(width):
                c = b"\0" # default black pixel
                if y < len(data) and x < len(data[y]):
                    c = I1(data[y][x])
                raw += c
        compressor = zlib.compressobj()
        compressed = compressor.compress(raw)
        compressed += compressor.flush() #!!
        block = "IDAT".encode('ascii') + compressed
        png += I4(len(compressed)) + block + I4(zlib.crc32(block))
    if makeIEND:
        block = "IEND".encode('ascii')
        png += I4(0) + block + I4(zlib.crc32(block))
    return png

def _example():
    with open("cross3x3.png","wb") as f:
share|improve this answer
A little more depth than most of us, probably including OP, are looking for, but +1 for sharing so much information. This is great reference material if I ever want to go deeper with pngs. –  mightypile Oct 8 at 12:40

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.