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Inpaint-Anything / utils /mask_processing.py

RysonFeng

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cdb26a4 over 1 year ago

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	import cv2
	from matplotlib import pyplot as plt
	import PIL.Image as Image
	import numpy as np


	def crop_for_filling_pre(image: np.array, mask: np.array, crop_size: int = 512):
	# Calculate the aspect ratio of the image
	height, width = image.shape[:2]
	aspect_ratio = float(width) / float(height)

	# If the shorter side is less than 512, resize the image proportionally
	if min(height, width) < crop_size:
	if height < width:
	new_height = crop_size
	new_width = int(new_height * aspect_ratio)
	else:
	new_width = crop_size
	new_height = int(new_width / aspect_ratio)

	image = cv2.resize(image, (new_width, new_height))
	mask = cv2.resize(mask, (new_width, new_height))

	# Find the bounding box of the mask
	x, y, w, h = cv2.boundingRect(mask)

	# Update the height and width of the resized image
	height, width = image.shape[:2]

	# # If the 512x512 square cannot cover the entire mask, resize the image accordingly
	if w > crop_size or h > crop_size:
	# padding to square at first
	if height < width:
	padding = width - height
	image = np.pad(image, ((padding // 2, padding - padding // 2), (0, 0), (0, 0)), 'constant')
	mask = np.pad(mask, ((padding // 2, padding - padding // 2), (0, 0)), 'constant')
	else:
	padding = height - width
	image = np.pad(image, ((0, 0), (padding // 2, padding - padding // 2), (0, 0)), 'constant')
	mask = np.pad(mask, ((0, 0), (padding // 2, padding - padding // 2)), 'constant')

	resize_factor = crop_size / max(w, h)
	image = cv2.resize(image, (0, 0), fx=resize_factor, fy=resize_factor)
	mask = cv2.resize(mask, (0, 0), fx=resize_factor, fy=resize_factor)
	x, y, w, h = cv2.boundingRect(mask)

	# Calculate the crop coordinates
	crop_x = min(max(x + w // 2 - crop_size // 2, 0), width - crop_size)
	crop_y = min(max(y + h // 2 - crop_size // 2, 0), height - crop_size)

	# Crop the image
	cropped_image = image[crop_y:crop_y + crop_size, crop_x:crop_x + crop_size]
	cropped_mask = mask[crop_y:crop_y + crop_size, crop_x:crop_x + crop_size]

	return cropped_image, cropped_mask


	def crop_for_filling_post(
	image: np.array,
	mask: np.array,
	filled_image: np.array,
	crop_size: int = 512,
	):
	image_copy = image.copy()
	mask_copy = mask.copy()
	# Calculate the aspect ratio of the image
	height, width = image.shape[:2]
	height_ori, width_ori = height, width
	aspect_ratio = float(width) / float(height)

	# If the shorter side is less than 512, resize the image proportionally
	if min(height, width) < crop_size:
	if height < width:
	new_height = crop_size
	new_width = int(new_height * aspect_ratio)
	else:
	new_width = crop_size
	new_height = int(new_width / aspect_ratio)

	image = cv2.resize(image, (new_width, new_height))
	mask = cv2.resize(mask, (new_width, new_height))

	# Find the bounding box of the mask
	x, y, w, h = cv2.boundingRect(mask)

	# Update the height and width of the resized image
	height, width = image.shape[:2]

	# # If the 512x512 square cannot cover the entire mask, resize the image accordingly
	if w > crop_size or h > crop_size:
	flag_padding = True
	# padding to square at first
	if height < width:
	padding = width - height
	image = np.pad(image, ((padding // 2, padding - padding // 2), (0, 0), (0, 0)), 'constant')
	mask = np.pad(mask, ((padding // 2, padding - padding // 2), (0, 0)), 'constant')
	padding_side = 'h'
	else:
	padding = height - width
	image = np.pad(image, ((0, 0), (padding // 2, padding - padding // 2), (0, 0)), 'constant')
	mask = np.pad(mask, ((0, 0), (padding // 2, padding - padding // 2)), 'constant')
	padding_side = 'w'

	resize_factor = crop_size / max(w, h)
	image = cv2.resize(image, (0, 0), fx=resize_factor, fy=resize_factor)
	mask = cv2.resize(mask, (0, 0), fx=resize_factor, fy=resize_factor)
	x, y, w, h = cv2.boundingRect(mask)
	else:
	flag_padding = False

	# Calculate the crop coordinates
	crop_x = min(max(x + w // 2 - crop_size // 2, 0), width - crop_size)
	crop_y = min(max(y + h // 2 - crop_size // 2, 0), height - crop_size)

	# Fill the image
	image[crop_y:crop_y + crop_size, crop_x:crop_x + crop_size] = filled_image
	if flag_padding:
	image = cv2.resize(image, (0, 0), fx=1/resize_factor, fy=1/resize_factor)
	if padding_side == 'h':
	image = image[padding // 2:padding // 2 + height_ori, :]
	else:
	image = image[:, padding // 2:padding // 2 + width_ori]

	image = cv2.resize(image, (width_ori, height_ori))

	image_copy[mask_copy==255] = image[mask_copy==255]
	return image_copy


	if __name__ == '__main__':

	# image = cv2.imread('example/boat.jpg')
	# mask = cv2.imread('example/boat_mask_2.png', cv2.IMREAD_GRAYSCALE)
	image = cv2.imread('./example/groceries.jpg')
	mask = cv2.imread('example/groceries_mask_2.png', cv2.IMREAD_GRAYSCALE)
	# image = cv2.imread('example/bridge.jpg')
	# mask = cv2.imread('example/bridge_mask_2.png', cv2.IMREAD_GRAYSCALE)
	# image = cv2.imread('example/person_umbrella.jpg')
	# mask = cv2.imread('example/person_umbrella_mask_2.png', cv2.IMREAD_GRAYSCALE)
	# image = cv2.imread('example/hippopotamus.jpg')
	# mask = cv2.imread('example/hippopotamus_mask_1.png', cv2.IMREAD_GRAYSCALE)

	cropped_image, cropped_mask = crop_for_filling_pre(image, mask)
	# ^ ------------------------------------------------------------------------------------
	# ^ Please conduct inpainting or filling here on the cropped image with the cropped mask
	# ^ ------------------------------------------------------------------------------------

	# e.g.
	# cropped_image[cropped_mask==255] = 0
	cv2.imwrite('cropped_image.jpg', cropped_image)
	cv2.imwrite('cropped_mask.jpg', cropped_mask)
	print(cropped_image.shape)
	print(cropped_mask.shape)

	image = crop_for_filling_post(image, mask, cropped_image)
	cv2.imwrite('filled_image.jpg', image)
	print(image.shape)