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import cv2 |
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import numpy as np |
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from insightface.utils import face_align |
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from face_parsing.swap import swap_regions |
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from utils import add_logo_to_image |
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swap_options_list = [ |
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"All face", |
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"Age less than", |
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"Age greater than", |
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"All Male", |
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"All Female", |
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"Specific Face", |
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] |
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def swap_face(whole_img, target_face, source_face, models): |
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inswapper = models.get("swap") |
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face_enhancer = models.get("enhance", None) |
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face_parser = models.get("face_parser", None) |
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fe_enable = models.get("enhance_sett", False) |
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bgr_fake, M = inswapper.get(whole_img, target_face, source_face, paste_back=False) |
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image_size = 128 if not fe_enable else 512 |
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aimg, _ = face_align.norm_crop2(whole_img, target_face.kps, image_size=image_size) |
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if face_parser is not None: |
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fp_enable, includes, smooth_mask, blur_amount = models.get("face_parser_sett") |
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if fp_enable: |
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bgr_fake = swap_regions( |
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bgr_fake, aimg, face_parser, smooth_mask, includes=includes, blur=blur_amount |
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) |
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if fe_enable: |
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_, bgr_fake, _ = face_enhancer.enhance( |
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bgr_fake, paste_back=True, has_aligned=True |
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) |
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bgr_fake = bgr_fake[0] |
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M /= 0.25 |
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IM = cv2.invertAffineTransform(M) |
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img_white = np.full((aimg.shape[0], aimg.shape[1]), 255, dtype=np.float32) |
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bgr_fake = cv2.warpAffine( |
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bgr_fake, IM, (whole_img.shape[1], whole_img.shape[0]), borderValue=0.0 |
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) |
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img_white = cv2.warpAffine( |
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img_white, IM, (whole_img.shape[1], whole_img.shape[0]), borderValue=0.0 |
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) |
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img_white[img_white > 20] = 255 |
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img_mask = img_white |
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mask_h_inds, mask_w_inds = np.where(img_mask == 255) |
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mask_h = np.max(mask_h_inds) - np.min(mask_h_inds) |
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mask_w = np.max(mask_w_inds) - np.min(mask_w_inds) |
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mask_size = int(np.sqrt(mask_h * mask_w)) |
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k = max(mask_size // 10, 10) |
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img_mask = cv2.erode(img_mask, np.ones((k, k), np.uint8), iterations=1) |
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k = max(mask_size // 20, 5) |
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kernel_size = (k, k) |
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blur_size = tuple(2 * i + 1 for i in kernel_size) |
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img_mask = cv2.GaussianBlur(img_mask, blur_size, 0) / 255 |
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img_mask = np.reshape(img_mask, [img_mask.shape[0], img_mask.shape[1], 1]) |
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fake_merged = img_mask * bgr_fake + (1 - img_mask) * whole_img.astype(np.float32) |
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fake_merged = add_logo_to_image(fake_merged.astype("uint8")) |
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return fake_merged |
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def swap_face_with_condition( |
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whole_img, target_faces, source_face, condition, age, models |
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): |
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swapped = whole_img.copy() |
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for target_face in target_faces: |
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if condition == "All face": |
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swapped = swap_face(swapped, target_face, source_face, models) |
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elif condition == "Age less than" and target_face["age"] < age: |
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swapped = swap_face(swapped, target_face, source_face, models) |
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elif condition == "Age greater than" and target_face["age"] > age: |
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swapped = swap_face(swapped, target_face, source_face, models) |
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elif condition == "All Male" and target_face["gender"] == 1: |
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swapped = swap_face(swapped, target_face, source_face, models) |
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elif condition == "All Female" and target_face["gender"] == 0: |
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swapped = swap_face(swapped, target_face, source_face, models) |
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return swapped |
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def swap_specific(source_specifics, target_faces, whole_img, models, threshold=0.6): |
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swapped = whole_img.copy() |
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for source_face, specific_face in source_specifics: |
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specific_embed = specific_face["embedding"] |
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specific_embed /= np.linalg.norm(specific_embed) |
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for target_face in target_faces: |
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target_embed = target_face["embedding"] |
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target_embed /= np.linalg.norm(target_embed) |
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cosine_distance = 1 - np.dot(specific_embed, target_embed) |
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if cosine_distance > threshold: |
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continue |
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swapped = swap_face(swapped, target_face, source_face, models) |
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return swapped |
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