15

I'm trying to split a photo into multiple pieces using PIL.

def crop(Path,input,height,width,i,k,x,y,page):
    im = Image.open(input)
    imgwidth = im.size[0]
    imgheight = im.size[1]
    for i in range(0,imgheight-height/2,height-2):
        print i
        for j in range(0,imgwidth-width/2,width-2):
            print j
            box = (j, i, j+width, i+height)
            a = im.crop(box)
            a.save(os.path.join(Path,"PNG","%s" % page,"IMG-%s.png" % k))
            k +=1

but it doesn't seem to be working. It splits the photo but not in an exact way (you can try it).

  • What do you mean by "exact" width and height? – kindall May 10 '11 at 16:47
  • You can use list comprehensions, see my answer below – Nir Feb 10 '18 at 20:02
26
from PIL import Image

def crop(path, input, height, width, k, page, area):
    im = Image.open(input)
    imgwidth, imgheight = im.size
    for i in range(0,imgheight,height):
        for j in range(0,imgwidth,width):
            box = (j, i, j+width, i+height)
            a = im.crop(box)
            try:
                o = a.crop(area)
                o.save(os.path.join(path,"PNG","%s" % page,"IMG-%s.png" % k))
            except:
                pass
            k +=1
  • 2
    Give a complete working example.. – Avinash Raj Feb 7 '18 at 7:09
  • 3
    Why is k a parameter of this function? Shouldn't it always be 0 when calling the function? Also what is area? Why do you crop the image twice? – Giacomo Alzetta Oct 19 '18 at 15:56
23

Edit: I believe this answer missed the intent to cut an image into rectangles in columns and rows. This answer cuts only into rows. It looks like other answers cut in columns and rows.

Simpler than all these is to use a wheel someone else invented :) It may be more involved to set up, but then it's a snap to use.

These instructions are for Windows 7; they may need to be adapted for other OSs.

Get and install pip from here.

Download the install archive, and extract it to your root Python installation directory. Open a console and type (if I recall correctly):

python get-pip.py install

Then get and install the image_slicer module via pip, by entering the following command at the console:

python -m pip install image_slicer

Copy the image you want to slice into the Python root directory, open a python shell (not the "command line"), and enter these commands:

import image_slicer
image_slicer.slice('huge_test_image.png', 14)

The beauty of this module is that it

  1. Is installed in python
  2. Can invoke an image split with two lines of code
  3. Accepts any even number as an image slice parameter (e.g. 14 in this example)
  4. Takes that parameter and automagically splits the given image into so many slices, and auto-saves the resultant numbered tiles in the same directory, and finally
  5. Has a function to stitch the image tiles back together (which I haven't yet tested); files apparently must be named after the convention which you will see in the split files after testing the image_slicer.slice function.
  • 3
    it looks good, but its documentation is poor. It also gives good control over tiles once they are created but it is not easy to see how the image will be sliced. I was expecting a kind of tuple to set number of rows and columns – Rodrigo Laguna Jun 8 '17 at 14:01
  • Would it work for images that do not fit into RAM? – mercury0114 Jan 4 at 15:44
  • Per comments on other answers, no this is probably not an option on memory-constrained systems. – Alex Hall Jan 24 at 16:38
14

Splitting image to tiles of MxN pixels (assuming im is numpy.ndarray):

tiles = [im[x:x+M,y:y+N] for x in range(0,im.shape[0],M) for y in range(0,im.shape[1],N)]

In the case you want to split the image to four pieces:

M = im.shape[0]//2
N = im.shape[1]//2

tiles[0] holds the upper left tile

  • 1
    For my case the easiest solution, also isn't calculation expensive – NeStack Nov 14 '18 at 12:44
11
  1. crop would be a more reusable function if you separate the cropping code from the image saving code. It would also make the call signature simpler.
  2. im.crop returns a Image._ImageCrop instance. Such instances do not have a save method. Instead, you must paste the Image._ImageCrop instance onto a new Image.Image
  3. Your ranges do not have the right step sizes. (Why height-2 and not height? for example. Why stop at imgheight-(height/2)?).

So, you might try instead something like this:

import Image
import os

def crop(infile,height,width):
    im = Image.open(infile)
    imgwidth, imgheight = im.size
    for i in range(imgheight//height):
        for j in range(imgwidth//width):
            box = (j*width, i*height, (j+1)*width, (i+1)*height)
            yield im.crop(box)

if __name__=='__main__':
    infile=...
    height=...
    width=...
    start_num=...
    for k,piece in enumerate(crop(infile,height,width),start_num):
        img=Image.new('RGB', (height,width), 255)
        img.paste(piece)
        path=os.path.join('/tmp',"IMG-%s.png" % k)
        img.save(path)
  • thanks for your solution but it doesn't work with me, the picture has been not cropped good, i see red color, i think the problem maybe here : img.paste(piece) – ElTero May 10 '11 at 21:07
  • This is an especially nice solution if you have memory constraints. Large images may fail on machines with low memory when using image_slicer. – Dean Liu Jan 12 '17 at 13:54
1

Here is a concise, pure-python solution that works in both python 3 and 2:

from PIL import Image

infile = '20190206-135938.1273.Easy8thRunnersHopefully.jpg'
chopsize = 300

img = Image.open(infile)
width, height = img.size

# Save Chops of original image
for x0 in range(0, width, chopsize):
   for y0 in range(0, height, chopsize):
      box = (x0, y0,
             x0+chopsize if x0+chopsize <  width else  width - 1,
             y0+chopsize if y0+chopsize < height else height - 1)
      print('%s %s' % (infile, box))
      img.crop(box).save('zchop.%s.x%03d.y%03d.jpg' % (infile.replace('.jpg',''), x0, y0))

Notes:

  • The crops that go over the right and bottom of the original image are adjusted to the original image limit and contain only the original pixels.
  • It's easy to choose a different chopsize for w and h by using two chopsize vars and replacing chopsize as appropriate in the code above.

    0

    This is my script tools, it is very sample to splite css-sprit image into icons:

    Usage: split_icons.py img dst_path width height
    Example: python split_icons.py icon-48.png gtliu 48 48
    

    Save code into split_icons.py :

    #!/usr/bin/env python
    # -*- coding:utf-8 -*-
    import os
    import sys
    import glob
    from PIL import Image
    
    def Usage():
        print '%s img dst_path width height' % (sys.argv[0])
        sys.exit(1)
    
    if len(sys.argv) != 5:
        Usage()
    
    src_img = sys.argv[1]
    dst_path = sys.argv[2]
    
    if not os.path.exists(sys.argv[2]) or not os.path.isfile(sys.argv[1]):
        print 'Not exists', sys.argv[2], sys.argv[1]
        sys.exit(1)
    
    w, h = int(sys.argv[3]), int(sys.argv[4])
    im = Image.open(src_img)
    im_w, im_h = im.size
    print 'Image width:%d height:%d  will split into (%d %d) ' % (im_w, im_h, w, h)
    w_num, h_num = int(im_w/w), int(im_h/h)
    
    for wi in range(0, w_num):
        for hi in range(0, h_num):
            box = (wi*w, hi*h, (wi+1)*w, (hi+1)*h)
            piece = im.crop(box)
            tmp_img = Image.new('L', (w, h), 255)
            tmp_img.paste(piece)
            img_path = os.path.join(dst_path, "%d_%d.png" % (wi, hi))
            tmp_img.save(img_path)
    
    0

    I find it easier to skimage.util.view_as_windows or `skimage.util.view_as_blocks which also allows you to configure the step

    http://scikit-image.org/docs/dev/api/skimage.util.html?highlight=view_as_windows#skimage.util.view_as_windows

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