I'm not familiar with PIL, but I know it's very easy to put a bunch of images into a grid in ImageMagick.

How do I, for example, put 16 images into a 4×4 grid where I can specify the gap between rows and columns?


This is easy to do in PIL too. Create an empty image and just paste in the images you want at whatever positions you need using paste. Here's a quick example:

import Image

#opens an image:
im = Image.open("1_tree.jpg")
#creates a new empty image, RGB mode, and size 400 by 400.
new_im = Image.new('RGB', (400,400))

#Here I resize my opened image, so it is no bigger than 100,100
#Iterate through a 4 by 4 grid with 100 spacing, to place my image
for i in xrange(0,500,100):
    for j in xrange(0,500,100):
        #I change brightness of the images, just to emphasise they are unique copies.
        im=Image.eval(im,lambda x: x+(i+j)/30)
        #paste the image at location i,j:
        new_im.paste(im, (i,j))


enter image description here

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Expanding on the great answer by fraxel, I wrote a program which takes in a folder of (.png) images, a number of pixels for the width of the collage, and the number of pictures per row, and does all the calculations for you.

#Evan Russenberger-Rosica
#Create a Grid/Matrix of Images
import PIL, os, glob
from PIL import Image
from math import ceil, floor

PATH = r"C:\Users\path\to\images"

frame_width = 1920
images_per_row = 5
padding = 2


images = glob.glob("*.png")
images = images[:30]                #get the first 30 images

img_width, img_height = Image.open(images[0]).size
sf = (frame_width-(images_per_row-1)*padding)/(images_per_row*img_width)       #scaling factor
scaled_img_width = ceil(img_width*sf)                   #s
scaled_img_height = ceil(img_height*sf)

number_of_rows = ceil(len(images)/images_per_row)
frame_height = ceil(sf*img_height*number_of_rows) 

new_im = Image.new('RGB', (frame_width, frame_height))

for num, im in enumerate(images):
    if num%images_per_row==0:
    im = Image.open(im)
    #Here I resize my opened image, so it is no bigger than 100,100
    #Iterate through a 4 by 4 grid with 100 spacing, to place my image
    y_cord = (j//images_per_row)*scaled_img_height
    new_im.paste(im, (i,y_cord))
    print(i, y_cord)

new_im.save("out.jpg", "JPEG", quality=80, optimize=True, progressive=True)

Model Collapse Collage

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  • Hi. Your answer looks great. Do you know how to avoid those black lines at the borders of the images? – Irbin B. Feb 14 '19 at 5:38
  • @IrbinB. When I wrote this, I wanted the division between images to be clear, so I included horizontal and vertical padding (the black lines). The vertical padding is given by the padding argument in the code, so just set that to 0 to remove them. The horizontal padding got accidentally hard-coded in, and I left it because I wanted that effect. I'd have to experiment to find out how to remove the horizontal padding; something is just off by 1 pixel every loop. – Evan Rosica Feb 14 '19 at 5:57
  • Thanks for your reply. Certainly, I realised about the padding argument but setting it to 0 didn't work for me. Curiously, only vertical paddings appear in my final image. Perhaps I should open a new question. – Irbin B. Feb 14 '19 at 6:42
  • @IrbinB. try changing: scaled_img_height = ceil(img_height*sf) to scaled_img_height = floor(img_height*sf). That should remove the horizontal lines. For instance, I took 30 copies of the same picture (imgur.com/a/AtyrAR5) and fed them into the changed program and obtained: imgur.com/a/kbdga0G – Evan Rosica Feb 14 '19 at 7:30
  • It didn't work. But I have already solved my problem. I found out the issue was related to my image file. So, it wasn't a problem with your code. Thanks. – Irbin B. Feb 15 '19 at 0:34

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