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If I open an image with open("image.jpg"), how can I get the RGB values of a pixel, if I have the coordinates of the pixel?

Then how can I do the reverse of this? Starting with a blank graphic, 'write' a pixel with a certain RGB value?

It would be so much better if I didn't have to download any additional libraries.

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7 Answers 7

up vote 69 down vote accepted

It's probably best to use the Python Image Library to do this which I'm afraid is a separate download.

The easiest way to do what you want is via the load() method on the Image object which returns a pixel access object which you can manipulate like an array:

from PIL import Image
im = Image.open("dead_parrot.jpg") #Can be many different formats.
pix = im.load()
print im.size #Get the width and hight of the image for iterating over
print pix[x,y] #Get the RGBA Value of the a pixel of an image
pix[x,y] = value # Set the RGBA Value of the image (tuple)

Alternatively, look at ImageDraw which gives a much richer API for creating images.

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Fortunately installing PIL is very straightforward in Linux and Windows (don't know about Mac) –  heltonbiker Sep 28 '11 at 16:20
2  
Installing PIL on Mac took me way too damn long. –  Artur Sapek Jul 8 '12 at 17:57
1  
@ArturSapek, I installed PIL by pip which was fairly easy. –  michaelliu Apr 6 '13 at 1:21
    
I used this on my Mac (Pypi): easy_install --find-links http://www.pythonware.com/products/pil/ Imaging –  Mazyod Dec 18 '13 at 11:51

PyPNG - lightweight PNG decoder/encoder

Although the question hints at JPG, I hope my answer will be useful to some people.

Here's how to read and write PNG pixels using PyPNG module:

import png, array

point = (2, 10) # coordinates of pixel to be painted red

reader = png.Reader(filename='image.png')
w, h, pixels, metadata = reader.read_flat()
pixel_byte_width = 4 if metadata['alpha'] else 3
pixel_position = point[0] + point[1] * w
new_pixel_value = (255, 0, 0, 0) if metadata['alpha'] else (255, 0, 0)
pixels[
  pixel_position * pixel_byte_width :
  (pixel_position + 1) * pixel_byte_width] = array.array('B', new_pixel_value)

output = open('image-with-red-dot.png', 'wb')
writer = png.Writer(w, h, **metadata)
writer.write_array(output, pixels)
output.close()

PyPNG is a single pure Python module less than 4000 lines long, including tests and comments.

PIL is a more comprehensive imaging library, but it's also significantly heavier.

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When running this code, I had to change 'has_alpha' to 'alpha'. The pixel list was formatted slightly differently as well. I suppose there's a different PyPNG version out by now, breaking these things? –  Joost Dec 28 '12 at 18:57
3  
@Joost, thanks, I updated answer as PyPNG indeed has changed since 2008. –  Constantin Jan 2 '13 at 14:25

As Dave Webb said.

Here is my working code snippet printing the pixel colours from an image:

import os, sys
import Image

im = Image.open("image.jpg")
x = 3
y = 4

pix = im.load()
print pix[x,y]
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There's a really good article on wiki.wxpython.org entitled Working With Images. The article mentions the possiblity of using wxWidgets (wxImage), PIL or PythonMagick. Personally, I've used PIL and wxWidgets and both make image manipulation fairly easy.

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Note that your link doesn't show up properly. –  Paul Stephenson Sep 26 '08 at 8:40
    
Thanks; for some reason it worked fine on the preview but not on the fully-posted version! –  Jon Cage Sep 26 '08 at 10:07
    
+1 for more than one way of doing what OP asked. –  heltonbiker Sep 28 '11 at 16:21

You can use pygame's surfarray module. This module has a 3d pixel array returning method called pixels3d(surface). I've shown usage below:

from pygame import surfarray, image, display
import pygame
import numpy #important to import

pygame.init()
image = image.load("myimagefile.jpg") #surface to render
resolution = (image.get_width(),image.get_height())
screen = display.set_mode(resolution) #create space for display
screen.blit(image, (0,0)) #superpose image on screen
display.flip()
surfarray.use_arraytype("numpy") #important!
screenpix = surfarray.pixels3d(image) #pixels in 3d array:
#[x][y][rgb]
for y in range(resolution[1]):
    for x in range(resolution[0]):
        for color in range(3):
            screenpix[x][y][color] += 128
            #reverting colors
screen.blit(surfarray.make_surface(screenpix), (0,0)) #superpose on screen
display.flip() #update display
while 1:
    print finished

I hope been helpful. Last word: screen is locked for lifetime of screenpix.

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Image manipulation is a complex topic, and it's best if you do use a library. I can recommend gdmodule which provides easy access to many different image formats from within Python.

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Anyone know why this was downvoted? Is there a known problem with libgd or something? (I had never looked at it, but it's always nice to know there's an alternative to PiL) –  Peter Hanley Jun 11 '13 at 19:20

install PIL using the command "sudo apt-get install python-imaging" and run the following program. It will print RGB values of the image. If the image is large redirect the output to a file using '>' later open the file to see RGB values

import PIL
import Image
FILENAME='fn.gif' #image can be in gif jpeg or png format 
im=Image.open(FILENAME).convert('RGB')
pix=im.load()
w=im.size[0]
h=im.size[1]
for i in range(w):
  for j in range(h):
    print pix[i,j]
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