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GPEN / face_inpainting.py

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	'''
	@paper: GAN Prior Embedded Network for Blind Face Restoration in the Wild (CVPR2021)
	@author: yangxy (yangtao9009@gmail.com)
	'''
	import os
	import cv2
	import glob
	import time
	import math
	import numpy as np
	from PIL import Image, ImageDraw
	import __init_paths
	from face_model.face_gan import FaceGAN

	# modified by yangxy
	def brush_stroke_mask(img, color=(255,255,255)):
	min_num_vertex = 8
	max_num_vertex = 28
	mean_angle = 2*math.pi / 5
	angle_range = 2*math.pi / 15
	min_width = 12
	max_width = 80
	def generate_mask(H, W, img=None):
	average_radius = math.sqrt(HH+WW) / 8
	mask = Image.new('RGB', (W, H), 0)
	if img is not None: mask = img #Image.fromarray(img)

	for _ in range(np.random.randint(1, 4)):
	num_vertex = np.random.randint(min_num_vertex, max_num_vertex)
	angle_min = mean_angle - np.random.uniform(0, angle_range)
	angle_max = mean_angle + np.random.uniform(0, angle_range)
	angles = []
	vertex = []
	for i in range(num_vertex):
	if i % 2 == 0:
	angles.append(2*math.pi - np.random.uniform(angle_min, angle_max))
	else:
	angles.append(np.random.uniform(angle_min, angle_max))

	h, w = mask.size
	vertex.append((int(np.random.randint(0, w)), int(np.random.randint(0, h))))
	for i in range(num_vertex):
	r = np.clip(
	np.random.normal(loc=average_radius, scale=average_radius//2),
	0, 2*average_radius)
	new_x = np.clip(vertex[-1][0] + r * math.cos(angles[i]), 0, w)
	new_y = np.clip(vertex[-1][1] + r * math.sin(angles[i]), 0, h)
	vertex.append((int(new_x), int(new_y)))

	draw = ImageDraw.Draw(mask)
	width = int(np.random.uniform(min_width, max_width))
	draw.line(vertex, fill=color, width=width)
	for v in vertex:
	draw.ellipse((v[0] - width//2,
	v[1] - width//2,
	v[0] + width//2,
	v[1] + width//2),
	fill=color)

	return mask

	width, height = img.size
	mask = generate_mask(height, width, img)
	return mask

	class FaceInpainting(object):
	def __init__(self, base_dir='./', size=1024, model=None, channel_multiplier=2):
	self.facegan = FaceGAN(base_dir, size, model, channel_multiplier)

	# make sure the face image is well aligned. Please refer to face_enhancement.py
	def process(self, brokenf):
	# complete the face
	out = self.facegan.process(brokenf)

	return out

	if __name__=='__main__':
	model = {'name':'GPEN-Inpainting-1024', 'size':1024}

	indir = 'examples/ffhq-10'
	outdir = 'examples/outs-inpainting'
	os.makedirs(outdir, exist_ok=True)

	faceinpainter = FaceInpainting(size=model['size'], model=model['name'], channel_multiplier=2)

	files = sorted(glob.glob(os.path.join(indir, '.g')))
	for n, file in enumerate(files[:]):
	filename = os.path.basename(file)

	originf = cv2.imread(file, cv2.IMREAD_COLOR)

	brokenf = np.asarray(brush_stroke_mask(Image.fromarray(originf)))

	completef = faceinpainter.process(brokenf)

	originf = cv2.resize(originf, completef.shape[:2])
	brokenf = cv2.resize(brokenf, completef.shape[:2])
	cv2.imwrite(os.path.join(outdir, '.'.join(filename.split('.')[:-1])+'.jpg'), np.hstack((brokenf, completef, originf)))

	if n%10==0: print(n, file)