I am using the patchify library to create patches of a bigger .jpg image. I am using the following code, taken from this YT video: https://www.youtube.com/watch?v=7IL7LKSLb9I&ab_channel=DigitalSreeni

When the YT guy reads his images (12 tiff images) he gets the following size for the large_image_stack variable: (12, 768, 1024), i.e. 12 images each of those is 768x1024.

I have a single jpg image of 3000x4000 and the size I am getting for large_image_stack variable is (3000, 4000, 3). So then I run the code...

import numpy as np
from matplotlib import pyplot as plt
from patchify import patchify
import cv2

large_image_stack = cv2.imread("test.jpg")

for img in range(large_image_stack.shape[0]):
    large_image = large_image_stack[img]
    patches_img = patchify(large_image, (224,224), step=224)
    for i in range(patches_img.shape[0]):
        for j in range(patches_img.shape[1]):
            single_patch_img = patches_img[i,j,:,:]
            cv2.imwrite('patches/images/' + 'image_' + str(img)+ '_' + str(i)+str(j)+ '.jpg', single_patch_img)

But I am getting the following error:

ValueError: window_shape is too large

Looking in the view_as_windows.py from the patchify library I see the following:

arr_shape = np.array(arr_in.shape)
    window_shape = np.array(window_shape, dtype=arr_shape.dtype)

    if ((arr_shape - window_shape) < 0).any():
        raise ValueError("`window_shape` is too large")

And as I am quite new in these things I can't get this error solved.

Any help would be very appreciated!!

  • I have same issue with this code . Did you solved this ?@OlegRuskiy Sep 23, 2021 at 5:56
  • Hi @keshariabeysinghe, yes, it's answered below, but please, specify the exact issue.
    – OlegRuskiy
    Sep 24, 2021 at 12:17

2 Answers 2


I figured out how to solve the issue, as it was a simple error. Basically, I only have one image, so it does not make sense to go through images with the for loop.

Then, for the image itself, as it is BGR, is necessary to modify the array that represents the patch size so it should be (224,224,3).

Finally, to save the patches, I use the corrected code provided by @Rotem in another question I made.

This is how the final result looks like:

img = cv2.imread("test.jpg")
patches_img = patchify(img, (224,224,3), step=224)

for i in range(patches_img.shape[0]):
    for j in range(patches_img.shape[1]):
        single_patch_img = patches_img[i, j, 0, :, :, :]
        if not cv2.imwrite('patches/images/' + 'image_' + '_'+ str(i)+str(j)+'.jpg', single_patch_img):
            raise Exception("Could not write the image")

As @OlegRuskiy said, you need to use a window of (224,224,3), where 3 is your number of channels.

something he didn't mention but is correct in his code is that as this kernel goes through your depth dimension, you'll get one extra depth dimension. for me it was (16, 24, 1, 256, 256, 3) instead of (16, 24, 256, 256, 3)

so I used np.squeeze() to remove that 1, so the output was (16, 24, 256, 256, 3)

for file in files:

    patches = patchify(img,(256,256,3),step=256-32) #32 is the number of desiered overlapping pixels
    patches = np.squeeze(patches)
    for i in range(patches.shape[0]):
        for j in range(patches.shape[1]):
            patch = patches[i,j,:,:,:]
            io.imsave(opath+ file.split('.')[0] + '_r'+ str(i).zfill(2) + '_c' + str(j).zfill(2) + '.jpg', patch)

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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