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from __future__ import annotations |
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import gradio as gr |
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import pathlib |
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import sys |
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sys.path.insert(0, 'vtoonify') |
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from util import load_psp_standalone, get_video_crop_parameter, tensor2cv2 |
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import torch |
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import torch.nn as nn |
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import numpy as np |
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import dlib |
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import cv2 |
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from model.vtoonify import VToonify |
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from model.bisenet.model import BiSeNet |
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import torch.nn.functional as F |
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from torchvision import transforms |
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from model.encoder.align_all_parallel import align_face |
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import gc |
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import huggingface_hub |
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import os |
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MODEL_REPO = 'PKUWilliamYang/VToonify' |
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class Model(): |
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def __init__(self, device): |
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super().__init__() |
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self.device = device |
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self.style_types = { |
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'cartoon1': ['vtoonify_d_cartoon/vtoonify_s026_d0.5.pt', 26], |
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'cartoon1-d': ['vtoonify_d_cartoon/vtoonify_s_d.pt', 26], |
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'cartoon2-d': ['vtoonify_d_cartoon/vtoonify_s_d.pt', 64], |
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'cartoon3-d': ['vtoonify_d_cartoon/vtoonify_s_d.pt', 153], |
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'cartoon4': ['vtoonify_d_cartoon/vtoonify_s299_d0.5.pt', 299], |
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'cartoon4-d': ['vtoonify_d_cartoon/vtoonify_s_d.pt', 299], |
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'cartoon5-d': ['vtoonify_d_cartoon/vtoonify_s_d.pt', 8], |
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'comic1-d': ['vtoonify_d_comic/vtoonify_s_d.pt', 28], |
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'comic2-d': ['vtoonify_d_comic/vtoonify_s_d.pt', 18], |
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'arcane1': ['vtoonify_d_arcane/vtoonify_s000_d0.5.pt', 0], |
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'arcane1-d': ['vtoonify_d_arcane/vtoonify_s_d.pt', 0], |
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'arcane2': ['vtoonify_d_arcane/vtoonify_s077_d0.5.pt', 77], |
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'arcane2-d': ['vtoonify_d_arcane/vtoonify_s_d.pt', 77], |
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'caricature1': ['vtoonify_d_caricature/vtoonify_s039_d0.5.pt', 39], |
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'caricature2': ['vtoonify_d_caricature/vtoonify_s068_d0.5.pt', 68], |
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'pixar': ['vtoonify_d_pixar/vtoonify_s052_d0.5.pt', 52], |
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'pixar-d': ['vtoonify_d_pixar/vtoonify_s_d.pt', 52], |
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'illustration1-d': ['vtoonify_d_illustration/vtoonify_s054_d_c.pt', 54], |
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'illustration2-d': ['vtoonify_d_illustration/vtoonify_s004_d_c.pt', 4], |
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'illustration3-d': ['vtoonify_d_illustration/vtoonify_s009_d_c.pt', 9], |
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'illustration4-d': ['vtoonify_d_illustration/vtoonify_s043_d_c.pt', 43], |
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'illustration5-d': ['vtoonify_d_illustration/vtoonify_s086_d_c.pt', 86], |
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} |
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self.landmarkpredictor = self._create_dlib_landmark_model() |
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self.parsingpredictor = self._create_parsing_model() |
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self.pspencoder = self._load_encoder() |
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self.transform = transforms.Compose([ |
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transforms.ToTensor(), |
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transforms.Normalize(mean=[0.5, 0.5, 0.5],std=[0.5,0.5,0.5]), |
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]) |
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self.vtoonify, self.exstyle = self._load_default_model() |
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self.color_transfer = False |
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self.style_name = 'cartoon1' |
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self.video_limit_cpu = 100 |
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self.video_limit_gpu = 300 |
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@staticmethod |
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def _create_dlib_landmark_model(): |
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return dlib.shape_predictor(huggingface_hub.hf_hub_download(MODEL_REPO, |
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'models/shape_predictor_68_face_landmarks.dat')) |
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def _create_parsing_model(self): |
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parsingpredictor = BiSeNet(n_classes=19) |
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parsingpredictor.load_state_dict(torch.load(huggingface_hub.hf_hub_download(MODEL_REPO, 'models/faceparsing.pth'), |
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map_location=lambda storage, loc: storage)) |
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parsingpredictor.to(self.device).eval() |
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return parsingpredictor |
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def _load_encoder(self) -> nn.Module: |
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style_encoder_path = huggingface_hub.hf_hub_download(MODEL_REPO,'models/encoder.pt') |
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return load_psp_standalone(style_encoder_path, self.device) |
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def _load_default_model(self) -> tuple[torch.Tensor, str]: |
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vtoonify = VToonify(backbone = 'dualstylegan') |
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vtoonify.load_state_dict(torch.load(huggingface_hub.hf_hub_download(MODEL_REPO, |
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'models/vtoonify_d_cartoon/vtoonify_s026_d0.5.pt'), |
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map_location=lambda storage, loc: storage)['g_ema']) |
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vtoonify.to(self.device) |
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tmp = np.load(huggingface_hub.hf_hub_download(MODEL_REPO,'models/vtoonify_d_cartoon/exstyle_code.npy'), allow_pickle=True).item() |
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exstyle = torch.tensor(tmp[list(tmp.keys())[26]]).to(self.device) |
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with torch.no_grad(): |
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exstyle = vtoonify.zplus2wplus(exstyle) |
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return vtoonify, exstyle |
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def load_model(self, style_type: str) -> tuple[torch.Tensor, str]: |
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if 'illustration' in style_type: |
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self.color_transfer = True |
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else: |
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self.color_transfer = False |
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if style_type not in self.style_types.keys(): |
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return None, 'Oops, wrong Style Type. Please select a valid model.' |
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self.style_name = style_type |
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model_path, ind = self.style_types[style_type] |
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style_path = os.path.join('models',os.path.dirname(model_path),'exstyle_code.npy') |
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self.vtoonify.load_state_dict(torch.load(huggingface_hub.hf_hub_download(MODEL_REPO,'models/'+model_path), |
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map_location=lambda storage, loc: storage)['g_ema']) |
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tmp = np.load(huggingface_hub.hf_hub_download(MODEL_REPO, style_path), allow_pickle=True).item() |
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exstyle = torch.tensor(tmp[list(tmp.keys())[ind]]).to(self.device) |
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with torch.no_grad(): |
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exstyle = self.vtoonify.zplus2wplus(exstyle) |
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return exstyle, 'Model of %s loaded.'%(style_type) |
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def detect_and_align(self, frame, top, bottom, left, right, return_para=False): |
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message = 'Error: no face detected! Please retry or change the photo.' |
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paras = get_video_crop_parameter(frame, self.landmarkpredictor, [left, right, top, bottom]) |
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instyle = None |
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h, w, scale = 0, 0, 0 |
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if paras is not None: |
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h,w,top,bottom,left,right,scale = paras |
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H, W = int(bottom-top), int(right-left) |
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kernel_1d = np.array([[0.125],[0.375],[0.375],[0.125]]) |
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if scale <= 0.75: |
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frame = cv2.sepFilter2D(frame, -1, kernel_1d, kernel_1d) |
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if scale <= 0.375: |
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frame = cv2.sepFilter2D(frame, -1, kernel_1d, kernel_1d) |
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frame = cv2.resize(frame, (w, h))[top:bottom, left:right] |
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with torch.no_grad(): |
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I = align_face(frame, self.landmarkpredictor) |
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if I is not None: |
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I = self.transform(I).unsqueeze(dim=0).to(self.device) |
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instyle = self.pspencoder(I) |
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instyle = self.vtoonify.zplus2wplus(instyle) |
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message = 'Successfully rescale the frame to (%d, %d)'%(bottom-top, right-left) |
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else: |
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frame = np.zeros((256,256,3), np.uint8) |
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else: |
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frame = np.zeros((256,256,3), np.uint8) |
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if return_para: |
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return frame, instyle, message, w, h, top, bottom, left, right, scale |
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return frame, instyle, message |
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def detect_and_align_image(self, image: str, top: int, bottom: int, left: int, right: int |
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) -> tuple[np.ndarray, torch.Tensor, str]: |
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if image is None: |
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return np.zeros((256,256,3), np.uint8), None, 'Error: fail to load empty file.' |
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frame = cv2.imread(image) |
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if frame is None: |
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return np.zeros((256,256,3), np.uint8), None, 'Error: fail to load the image.' |
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frame = cv2.cvtColor(frame, cv2.COLOR_RGB2BGR) |
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return self.detect_and_align(frame, top, bottom, left, right) |
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def detect_and_align_video(self, video: str, top: int, bottom: int, left: int, right: int |
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) -> tuple[np.ndarray, torch.Tensor, str]: |
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if video is None: |
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return np.zeros((256,256,3), np.uint8), None, 'Error: fail to load empty file.' |
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video_cap = cv2.VideoCapture(video) |
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if video_cap.get(7) == 0: |
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video_cap.release() |
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return np.zeros((256,256,3), np.uint8), torch.zeros(1,18,512).to(self.device), 'Error: fail to load the video.' |
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success, frame = video_cap.read() |
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frame = cv2.cvtColor(frame, cv2.COLOR_BGR2RGB) |
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video_cap.release() |
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return self.detect_and_align(frame, top, bottom, left, right) |
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def detect_and_align_full_video(self, video: str, top: int, bottom: int, left: int, right: int) -> tuple[str, torch.Tensor, str]: |
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message = 'Error: no face detected! Please retry or change the video.' |
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instyle = None |
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if video is None: |
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return 'default.mp4', instyle, 'Error: fail to load empty file.' |
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video_cap = cv2.VideoCapture(video) |
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if video_cap.get(7) == 0: |
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video_cap.release() |
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return 'default.mp4', instyle, 'Error: fail to load the video.' |
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num = min(self.video_limit_gpu, int(video_cap.get(7))) |
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if self.device == 'cpu': |
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num = min(self.video_limit_cpu, num) |
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success, frame = video_cap.read() |
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frame = cv2.cvtColor(frame, cv2.COLOR_BGR2RGB) |
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frame, instyle, message, w, h, top, bottom, left, right, scale = self.detect_and_align(frame, top, bottom, left, right, True) |
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if instyle is None: |
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return 'default.mp4', instyle, message |
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fourcc = cv2.VideoWriter_fourcc(*'mp4v') |
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videoWriter = cv2.VideoWriter('input.mp4', fourcc, video_cap.get(5), (int(right-left), int(bottom-top))) |
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videoWriter.write(cv2.cvtColor(frame, cv2.COLOR_RGB2BGR)) |
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kernel_1d = np.array([[0.125],[0.375],[0.375],[0.125]]) |
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for i in range(num-1): |
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success, frame = video_cap.read() |
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frame = cv2.cvtColor(frame, cv2.COLOR_BGR2RGB) |
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if scale <= 0.75: |
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frame = cv2.sepFilter2D(frame, -1, kernel_1d, kernel_1d) |
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if scale <= 0.375: |
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frame = cv2.sepFilter2D(frame, -1, kernel_1d, kernel_1d) |
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frame = cv2.resize(frame, (w, h))[top:bottom, left:right] |
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videoWriter.write(cv2.cvtColor(frame, cv2.COLOR_RGB2BGR)) |
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videoWriter.release() |
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video_cap.release() |
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return 'input.mp4', instyle, 'Successfully rescale the video to (%d, %d)'%(bottom-top, right-left) |
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def image_toonify(self, aligned_face: np.ndarray, instyle: torch.Tensor, exstyle: torch.Tensor, style_degree: float, style_type: str) -> tuple[np.ndarray, str]: |
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if instyle is None or aligned_face is None: |
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return np.zeros((256,256,3), np.uint8), 'Opps, something wrong with the input. Please go to Step 2 and Rescale Image/First Frame again.' |
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if self.style_name != style_type: |
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exstyle, _ = self.load_model(style_type) |
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if exstyle is None: |
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return np.zeros((256,256,3), np.uint8), 'Opps, something wrong with the style type. Please go to Step 1 and load model again.' |
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with torch.no_grad(): |
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if self.color_transfer: |
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s_w = exstyle |
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else: |
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s_w = instyle.clone() |
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s_w[:,:7] = exstyle[:,:7] |
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x = self.transform(aligned_face).unsqueeze(dim=0).to(self.device) |
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x_p = F.interpolate(self.parsingpredictor(2*(F.interpolate(x, scale_factor=2, mode='bilinear', align_corners=False)))[0], |
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scale_factor=0.5, recompute_scale_factor=False).detach() |
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inputs = torch.cat((x, x_p/16.), dim=1) |
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y_tilde = self.vtoonify(inputs, s_w.repeat(inputs.size(0), 1, 1), d_s = style_degree) |
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y_tilde = torch.clamp(y_tilde, -1, 1) |
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print('*** Toonify %dx%d image with style of %s'%(y_tilde.shape[2], y_tilde.shape[3], style_type)) |
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return ((y_tilde[0].cpu().numpy().transpose(1, 2, 0) + 1.0) * 127.5).astype(np.uint8), 'Successfully toonify the image with style of %s'%(self.style_name) |
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def video_tooniy(self, aligned_video: str, instyle: torch.Tensor, exstyle: torch.Tensor, style_degree: float, style_type: str) -> tuple[str, str]: |
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if aligned_video is None: |
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return 'default.mp4', 'Opps, something wrong with the input. Please go to Step 2 and Rescale Video again.' |
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video_cap = cv2.VideoCapture(aligned_video) |
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if instyle is None or aligned_video is None or video_cap.get(7) == 0: |
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video_cap.release() |
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return 'default.mp4', 'Opps, something wrong with the input. Please go to Step 2 and Rescale Video again.' |
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if self.style_name != style_type: |
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exstyle, _ = self.load_model(style_type) |
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if exstyle is None: |
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return 'default.mp4', 'Opps, something wrong with the style type. Please go to Step 1 and load model again.' |
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num = min(self.video_limit_gpu, int(video_cap.get(7))) |
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if self.device == 'cpu': |
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num = min(self.video_limit_cpu, num) |
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fourcc = cv2.VideoWriter_fourcc(*'mp4v') |
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videoWriter = cv2.VideoWriter('output.mp4', fourcc, |
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video_cap.get(5), (int(video_cap.get(3)*4), |
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int(video_cap.get(4)*4))) |
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batch_frames = [] |
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if video_cap.get(3) != 0: |
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if self.device == 'cpu': |
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batch_size = max(1, int(4 * 256* 256/ video_cap.get(3) / video_cap.get(4))) |
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else: |
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batch_size = min(max(1, int(4 * 400 * 360/ video_cap.get(3) / video_cap.get(4))), 4) |
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else: |
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batch_size = 1 |
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print('*** Toonify using batch size of %d on %dx%d video of %d frames with style of %s'%(batch_size, int(video_cap.get(3)*4), int(video_cap.get(4)*4), num, style_type)) |
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with torch.no_grad(): |
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if self.color_transfer: |
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s_w = exstyle |
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else: |
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s_w = instyle.clone() |
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s_w[:,:7] = exstyle[:,:7] |
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for i in range(num): |
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success, frame = video_cap.read() |
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frame = cv2.cvtColor(frame, cv2.COLOR_BGR2RGB) |
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batch_frames += [self.transform(frame).unsqueeze(dim=0).to(self.device)] |
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if len(batch_frames) == batch_size or (i+1) == num: |
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x = torch.cat(batch_frames, dim=0) |
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batch_frames = [] |
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with torch.no_grad(): |
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x_p = F.interpolate(self.parsingpredictor(2*(F.interpolate(x, scale_factor=2, mode='bilinear', align_corners=False)))[0], |
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scale_factor=0.5, recompute_scale_factor=False).detach() |
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inputs = torch.cat((x, x_p/16.), dim=1) |
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y_tilde = self.vtoonify(inputs, s_w.repeat(inputs.size(0), 1, 1), style_degree) |
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y_tilde = torch.clamp(y_tilde, -1, 1) |
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for k in range(y_tilde.size(0)): |
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videoWriter.write(tensor2cv2(y_tilde[k].cpu())) |
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gc.collect() |
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videoWriter.release() |
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video_cap.release() |
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return 'output.mp4', 'Successfully toonify video of %d frames with style of %s'%(num, self.style_name) |
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