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""" |
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brief: face alignment with FFHQ method (https://github.com/NVlabs/ffhq-dataset) |
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author: lzhbrian (https://lzhbrian.me) |
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link: https://gist.github.com/lzhbrian/bde87ab23b499dd02ba4f588258f57d5 |
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date: 2020.1.5 |
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note: code is heavily borrowed from |
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https://github.com/NVlabs/ffhq-dataset |
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http://dlib.net/face_landmark_detection.py.html |
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requirements: |
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conda install Pillow numpy scipy |
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conda install -c conda-forge dlib |
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# download face landmark model from: |
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# http://dlib.net/files/shape_predictor_68_face_landmarks.dat.bz2 |
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""" |
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import os |
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import glob |
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import numpy as np |
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import PIL |
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import PIL.Image |
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import scipy |
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import scipy.ndimage |
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import argparse |
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from basicsr.utils.download_util import load_file_from_url |
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try: |
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import dlib |
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except ImportError: |
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print('Please install dlib by running:' 'conda install -c conda-forge dlib') |
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shape_predictor_url = 'https://github.com/sczhou/CodeFormer/releases/download/v0.1.0/shape_predictor_68_face_landmarks-fbdc2cb8.dat' |
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ckpt_path = load_file_from_url(url=shape_predictor_url, |
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model_dir='weights/dlib', progress=True, file_name=None) |
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predictor = dlib.shape_predictor('weights/dlib/shape_predictor_68_face_landmarks-fbdc2cb8.dat') |
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def get_landmark(filepath, only_keep_largest=True): |
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"""get landmark with dlib |
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:return: np.array shape=(68, 2) |
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""" |
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detector = dlib.get_frontal_face_detector() |
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img = dlib.load_rgb_image(filepath) |
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dets = detector(img, 1) |
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print("\tNumber of faces detected: {}".format(len(dets))) |
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if only_keep_largest: |
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print('\tOnly keep the largest.') |
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face_areas = [] |
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for k, d in enumerate(dets): |
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face_area = (d.right() - d.left()) * (d.bottom() - d.top()) |
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face_areas.append(face_area) |
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largest_idx = face_areas.index(max(face_areas)) |
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d = dets[largest_idx] |
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shape = predictor(img, d) |
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else: |
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for k, d in enumerate(dets): |
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shape = predictor(img, d) |
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t = list(shape.parts()) |
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a = [] |
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for tt in t: |
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a.append([tt.x, tt.y]) |
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lm = np.array(a) |
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return lm |
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def align_face(filepath, out_path): |
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""" |
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:param filepath: str |
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:return: PIL Image |
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""" |
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try: |
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lm = get_landmark(filepath) |
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except: |
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print('No landmark ...') |
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return |
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lm_chin = lm[0:17] |
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lm_eyebrow_left = lm[17:22] |
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lm_eyebrow_right = lm[22:27] |
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lm_nose = lm[27:31] |
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lm_nostrils = lm[31:36] |
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lm_eye_left = lm[36:42] |
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lm_eye_right = lm[42:48] |
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lm_mouth_outer = lm[48:60] |
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lm_mouth_inner = lm[60:68] |
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eye_left = np.mean(lm_eye_left, axis=0) |
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eye_right = np.mean(lm_eye_right, axis=0) |
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eye_avg = (eye_left + eye_right) * 0.5 |
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eye_to_eye = eye_right - eye_left |
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mouth_left = lm_mouth_outer[0] |
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mouth_right = lm_mouth_outer[6] |
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mouth_avg = (mouth_left + mouth_right) * 0.5 |
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eye_to_mouth = mouth_avg - eye_avg |
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x = eye_to_eye - np.flipud(eye_to_mouth) * [-1, 1] |
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x /= np.hypot(*x) |
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x *= max(np.hypot(*eye_to_eye) * 2.0, np.hypot(*eye_to_mouth) * 1.8) |
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y = np.flipud(x) * [-1, 1] |
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c = eye_avg + eye_to_mouth * 0.1 |
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quad = np.stack([c - x - y, c - x + y, c + x + y, c + x - y]) |
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qsize = np.hypot(*x) * 2 |
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img = PIL.Image.open(filepath) |
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output_size = 512 |
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transform_size = 4096 |
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enable_padding = False |
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shrink = int(np.floor(qsize / output_size * 0.5)) |
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if shrink > 1: |
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rsize = (int(np.rint(float(img.size[0]) / shrink)), |
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int(np.rint(float(img.size[1]) / shrink))) |
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img = img.resize(rsize, PIL.Image.ANTIALIAS) |
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quad /= shrink |
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qsize /= shrink |
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border = max(int(np.rint(qsize * 0.1)), 3) |
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crop = (int(np.floor(min(quad[:, 0]))), int(np.floor(min(quad[:, 1]))), |
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int(np.ceil(max(quad[:, 0]))), int(np.ceil(max(quad[:, 1])))) |
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crop = (max(crop[0] - border, 0), max(crop[1] - border, 0), |
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min(crop[2] + border, |
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img.size[0]), min(crop[3] + border, img.size[1])) |
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if crop[2] - crop[0] < img.size[0] or crop[3] - crop[1] < img.size[1]: |
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img = img.crop(crop) |
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quad -= crop[0:2] |
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pad = (int(np.floor(min(quad[:, 0]))), int(np.floor(min(quad[:, 1]))), |
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int(np.ceil(max(quad[:, 0]))), int(np.ceil(max(quad[:, 1])))) |
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pad = (max(-pad[0] + border, |
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0), max(-pad[1] + border, |
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0), max(pad[2] - img.size[0] + border, |
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0), max(pad[3] - img.size[1] + border, 0)) |
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if enable_padding and max(pad) > border - 4: |
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pad = np.maximum(pad, int(np.rint(qsize * 0.3))) |
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img = np.pad( |
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np.float32(img), ((pad[1], pad[3]), (pad[0], pad[2]), (0, 0)), |
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'reflect') |
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h, w, _ = img.shape |
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y, x, _ = np.ogrid[:h, :w, :1] |
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mask = np.maximum( |
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1.0 - |
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np.minimum(np.float32(x) / pad[0], |
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np.float32(w - 1 - x) / pad[2]), 1.0 - |
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np.minimum(np.float32(y) / pad[1], |
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np.float32(h - 1 - y) / pad[3])) |
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blur = qsize * 0.02 |
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img += (scipy.ndimage.gaussian_filter(img, [blur, blur, 0]) - |
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img) * np.clip(mask * 3.0 + 1.0, 0.0, 1.0) |
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img += (np.median(img, axis=(0, 1)) - img) * np.clip(mask, 0.0, 1.0) |
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img = PIL.Image.fromarray( |
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np.uint8(np.clip(np.rint(img), 0, 255)), 'RGB') |
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quad += pad[:2] |
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img = img.transform((transform_size, transform_size), PIL.Image.QUAD, |
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(quad + 0.5).flatten(), PIL.Image.BILINEAR) |
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if output_size < transform_size: |
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img = img.resize((output_size, output_size), PIL.Image.ANTIALIAS) |
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img.save(out_path) |
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return img, np.max(quad[:, 0]) - np.min(quad[:, 0]) |
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if __name__ == '__main__': |
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parser = argparse.ArgumentParser() |
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parser.add_argument('-i', '--in_dir', type=str, default='./inputs/whole_imgs') |
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parser.add_argument('-o', '--out_dir', type=str, default='./inputs/cropped_faces') |
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args = parser.parse_args() |
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if args.out_dir.endswith('/'): |
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args.out_dir = args.out_dir[:-1] |
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dir_name = os.path.abspath(args.out_dir) |
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os.makedirs(dir_name, exist_ok=True) |
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img_list = sorted(glob.glob(os.path.join(args.in_dir, '*.[jpJP][pnPN]*[gG]'))) |
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test_img_num = len(img_list) |
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for i, in_path in enumerate(img_list): |
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img_name = os.path.basename(in_path) |
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print(f'[{i+1}/{test_img_num}] Processing: {img_name}') |
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out_path = os.path.join(args.out_dir, in_path.split("/")[-1]) |
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out_path = out_path.replace('.jpg', '.png') |
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size_ = align_face(in_path, out_path) |