The polygon points along with the uncut, original image are sent by client to the server.

Is there a way that I can clip (crop) the original image along these points in Python server, and save the cropped image? I am currently using PIL, and would prefer a PIL or PIL extended solution.

Thanks in advance

4 Answers 4


I found a solution using numpy and PIL- so thought I will share:

import numpy
from PIL import Image, ImageDraw

# read image as RGB and add alpha (transparency)
im = Image.open("crop.jpg").convert("RGBA")

# convert to numpy (for convenience)
imArray = numpy.asarray(im)

# create mask
polygon = [(444,203),(623,243),(691,177),(581,26),(482,42)]
maskIm = Image.new('L', (imArray.shape[1], imArray.shape[0]), 0)
ImageDraw.Draw(maskIm).polygon(polygon, outline=1, fill=1)
mask = numpy.array(maskIm)

# assemble new image (uint8: 0-255)
newImArray = numpy.empty(imArray.shape,dtype='uint8')

# colors (three first columns, RGB)
newImArray[:,:,:3] = imArray[:,:,:3]

# transparency (4th column)
newImArray[:,:,3] = mask*255

# back to Image from numpy
newIm = Image.fromarray(newImArray, "RGBA")
  • If cropping PNG with transparency, use mask = mask*255; newImArray[:,:,3] = [[imArray[:, :, 3][i][j] if mask[i][j] == 255 else mask[i][j] for j in range(len(mask[i]))] for i in range(len(mask))] to replace newImArray[:,:,3] = mask*255.
    – KumaTea
    Aug 27, 2021 at 13:59

I did this code to clip an area of an image defined by a polygon.

from PIL import Image, ImageDraw

original = Image.open("original.jpg")
xy = [(100,100),(1000,100),(1000,800),(100,800)]
mask = Image.new("L", original.size, 0)
draw = ImageDraw.Draw(mask)
draw.polygon(xy, fill=255, outline=None)
black =  Image.new("L", original.size, 0)
result = Image.composite(original, black, mask)
  • just to mention change black = Image.new("L", original.size, 0) to black = Image.new("RGB", original.size, 0) if you need all three channels of your cropped image
    – Momchill
    Nov 11, 2021 at 10:18

Another solution based on @user2667409 's answer,
it uses 1 bit per element to represent the mask, and exports the final result into JPEG format.

import numpy
from PIL import Image, ImageDraw

# read image as RGB (without alpha)
img = Image.open("crop.jpg").convert("RGB")

# convert to numpy (for convenience)
img_array = numpy.asarray(img)

# create mask
polygon = [(444,203),(623,243),(691,177),(581,26),(482,42)]

# create new image ("1-bit pixels, black and white", (width, height), "default color")
mask_img = Image.new('1', (img_array.shape[1], img_array.shape[0]), 0)

ImageDraw.Draw(mask_img).polygon(polygon, outline=1, fill=1)
mask = numpy.array(mask_img)

# assemble new image (uint8: 0-255)
new_img_array = numpy.empty(img_array.shape, dtype='uint8')

# copy color values (RGB)
new_img_array[:,:,:3] = img_array[:,:,:3]

# filtering image by mask
new_img_array[:,:,0] = new_img_array[:,:,0] * mask
new_img_array[:,:,1] = new_img_array[:,:,1] * mask
new_img_array[:,:,2] = new_img_array[:,:,2] * mask

# back to Image from numpy
newIm = Image.fromarray(new_img_array, "RGB")

This is how I did it:

def crop_region(filename):
    im = open(filename, 'rb')
    region = [(100,100),(1000,100),(1000,800),(100,800)]
    arr = np.array(region)
    (X, Y, W, H) = cv2.boundingRect(arr)
    new_im = im.crop([X, Y, X + W,Y + H])
    new_im.save("image.png", 'PNG')      ````
  • This worked for me after a small alteration: from PIL import Image, then do im = Image.open(filename)
    – peterv
    Oct 23 at 15:40

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