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	import os

	os.system('wget https://huggingface.co/akhaliq/RetinaFace-R50/resolve/main/RetinaFace-R50.pth -O weights/RetinaFace-R50.pth')
	os.system('wget https://huggingface.co/akhaliq/GPEN-BFR-512/resolve/main/GPEN-BFR-512.pth -O weights/GPEN-BFR-512.pth')
	os.system('wget https://huggingface.co/akhaliq/realesrnet_x2/resolve/main/realesrnet_x2.pth -O weights/realesrnet_x2.pth')
	os.system('wget https://huggingface.co/akhaliq/ParseNet-latest/resolve/main/ParseNet-latest.pth -O weights/ParseNet-latest.pth')

	import gradio as gr

	'''
	@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 argparse
	import numpy as np
	from PIL import Image
	import __init_paths
	from face_detect.retinaface_detection import RetinaFaceDetection
	from face_parse.face_parsing import FaceParse
	from face_model.face_gan import FaceGAN
	from sr_model.real_esrnet import RealESRNet
	from align_faces import warp_and_crop_face, get_reference_facial_points
	import torch
	torch.hub.download_url_to_file('https://upload.wikimedia.org/wikipedia/commons/thumb/e/ec/Mona_Lisa%2C_by_Leonardo_da_Vinci%2C_from_C2RMF_retouched.jpg/800px-Mona_Lisa%2C_by_Leonardo_da_Vinci%2C_from_C2RMF_retouched.jpg', 'mona.jpg')
	torch.hub.download_url_to_file('https://upload.wikimedia.org/wikipedia/commons/5/50/Albert_Einstein_%28Nobel%29.png', 'einstein.png')

	class FaceEnhancement(object):
	def __init__(self, base_dir='./', size=512, model=None, use_sr=True, sr_model=None, channel_multiplier=2, narrow=1, key=None, device='cuda'):
	self.facedetector = RetinaFaceDetection(base_dir, device)
	self.facegan = FaceGAN(base_dir, size, model, channel_multiplier, narrow, key, device=device)
	self.srmodel = RealESRNet(base_dir, sr_model, device=device)
	self.faceparser = FaceParse(base_dir, device=device)
	self.use_sr = use_sr
	self.size = size
	self.threshold = 0.9
	# the mask for pasting restored faces back
	self.mask = np.zeros((512, 512), np.float32)
	cv2.rectangle(self.mask, (26, 26), (486, 486), (1, 1, 1), -1, cv2.LINE_AA)
	self.mask = cv2.GaussianBlur(self.mask, (101, 101), 11)
	self.mask = cv2.GaussianBlur(self.mask, (101, 101), 11)
	self.kernel = np.array((
	[0.0625, 0.125, 0.0625],
	[0.125, 0.25, 0.125],
	[0.0625, 0.125, 0.0625]), dtype="float32")
	# get the reference 5 landmarks position in the crop settings
	default_square = True
	inner_padding_factor = 0.25
	outer_padding = (0, 0)
	self.reference_5pts = get_reference_facial_points(
	(self.size, self.size), inner_padding_factor, outer_padding, default_square)
	def mask_postprocess(self, mask, thres=20):
	mask[:thres, :] = 0; mask[-thres:, :] = 0
	mask[:, :thres] = 0; mask[:, -thres:] = 0
	mask = cv2.GaussianBlur(mask, (101, 101), 11)
	mask = cv2.GaussianBlur(mask, (101, 101), 11)
	return mask.astype(np.float32)
	def process(self, img):
	if self.use_sr:
	img_sr = self.srmodel.process(img)
	if img_sr is not None:
	img = cv2.resize(img, img_sr.shape[:2][::-1])
	facebs, landms = self.facedetector.detect(img)

	orig_faces, enhanced_faces = [], []
	height, width = img.shape[:2]
	full_mask = np.zeros((height, width), dtype=np.float32)
	full_img = np.zeros(img.shape, dtype=np.uint8)
	for i, (faceb, facial5points) in enumerate(zip(facebs, landms)):
	if faceb[4]<self.threshold: continue
	fh, fw = (faceb[3]-faceb[1]), (faceb[2]-faceb[0])
	facial5points = np.reshape(facial5points, (2, 5))
	of, tfm_inv = warp_and_crop_face(img, facial5points, reference_pts=self.reference_5pts, crop_size=(self.size, self.size))

	# enhance the face
	ef = self.facegan.process(of)

	orig_faces.append(of)
	enhanced_faces.append(ef)

	#tmp_mask = self.mask
	tmp_mask = self.mask_postprocess(self.faceparser.process(ef)[0]/255.)
	tmp_mask = cv2.resize(tmp_mask, ef.shape[:2])
	tmp_mask = cv2.warpAffine(tmp_mask, tfm_inv, (width, height), flags=3)
	if min(fh, fw)<100: # gaussian filter for small faces
	ef = cv2.filter2D(ef, -1, self.kernel)

	tmp_img = cv2.warpAffine(ef, tfm_inv, (width, height), flags=3)
	mask = tmp_mask - full_mask
	full_mask[np.where(mask>0)] = tmp_mask[np.where(mask>0)]
	full_img[np.where(mask>0)] = tmp_img[np.where(mask>0)]
	full_mask = full_mask[:, :, np.newaxis]
	if self.use_sr and img_sr is not None:
	img = cv2.convertScaleAbs(img_sr(1-full_mask) + full_imgfull_mask)
	else:
	img = cv2.convertScaleAbs(img(1-full_mask) + full_imgfull_mask)
	return img, orig_faces, enhanced_faces



	model = "GPEN-BFR-512"

	key = None
	size = 512
	channel_multiplier = 2
	narrow = 1
	use_sr = False
	use_cuda = False
	sr_model = 'realesrnet_x2'



	faceenhancer = FaceEnhancement(size=size, model=model, use_sr=use_sr, sr_model=sr_model, channel_multiplier=channel_multiplier, narrow=narrow, key=key, device='cpu')

	def inference(file):
	im = cv2.imread(file, cv2.IMREAD_COLOR)
	img, orig_faces, enhanced_faces = faceenhancer.process(im)
	return enhanced_faces[0][:,:,::-1]

	title = "GPEN"
	description = "Gradio demo for GAN Prior Embedded Network for Blind Face Restoration in the Wild. To use it, simply upload your image, or click one of the examples to load them. Read more at the links below."

	article = "<p style='text-align: center'><a href='https://arxiv.org/abs/2105.06070' target='_blank'>GAN Prior Embedded Network for Blind Face Restoration in the Wild</a> \| <a href='https://github.com/yangxy/GPEN' target='_blank'>Github Repo</a></p><center><img src='https://visitor-badge.glitch.me/badge?page_id=akhaliq_GPEN' alt='visitor badge'></center>"


	gr.Interface(
	inference,
	[gr.inputs.Image(type="filepath", label="Input")],
	gr.outputs.Image(type="numpy", label="Output"),
	title=title,
	description=description,
	article=article,
	examples=[
	['sample.png']
	],
	enable_queue=True
	).launch()