def __init__(self, config, device='cuda'):
        self.batch_size = config.batch_size
        self.image_size = config.image_size
        self.config = config
        self.device = device
        #
        self.flame = FLAME(self.config).to(self.device)
        self.flametex = FLAMETex(self.config).to(self.device)
        if config.model_name == 'flame':
            shape_prior = np.zeros((1, self.config.shape_params))
        else:
            shape_prior = np.load(config.shape_factors_path)
        self.shape_prior = torch.Tensor(shape_prior.mean(0, keepdims=True))
        eye = (2.0, 16.0)
        mouth = (2.0, 16.0)
        w68 = [(1.0, 1.0)] * 68
        for i in range(36, 48):
            w68[i] = eye
        for i in range(48, 68):
            w68[i] = mouth
        self.weights68 = torch.tensor(w68, requires_grad=False).to(self.device)
        w51 = [(1.0, 1.0)] * 51
        for i in range(36 - 17, 48 - 17):
            w51[i] = eye
        for i in range(48 - 17, 68 - 17):
            w51[i] = mouth
        self.weights51 = torch.tensor(w51, requires_grad=False).to(self.device)

        self._setup_renderer()
Exemplo n.º 2
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    def __init__(self, config, device='cuda'):
        self.batch_size = config.batch_size
        self.image_size = config.image_size
        self.config = config
        self.device = device

        self.flame = FLAME(self.config).to(self.device)
        self.flametex = FLAMETex(self.config).to(self.device)

        self._setup_renderer()
def face_recon_FLAME(params_path, crop_size=256, img_size=224, device='cuda'):
	global config
	config = util.dict2obj(config)

	flame = FLAME(config).to(device)
	flametex = FLAMETex(config).to(device)
	mesh_file = '/data/yunfan.liu/Data_Preparation_Face_Swapping_Reenactment/3DMM_models/FLAME_Fitting/data/head_template_mesh.obj'
	render = Renderer(img_size, obj_filename=mesh_file).to(device)

	params = np.load(params_path, allow_pickle=True)
	shape = torch.from_numpy(params.item()['shape']).float().to(device)
	exp   = torch.from_numpy(params.item()['exp']).float().to(device)
	pose  = torch.from_numpy(params.item()['pose']).float().to(device)
	tex   = torch.from_numpy(params.item()['tex']).float().to(device)
	light = torch.from_numpy(params.item()['lit']).float().to(device)
	verts = torch.from_numpy(params.item()['verts']).float().to(device) # trans_vertices

	vertices, _, _ = flame(shape_params=shape, expression_params=exp, pose_params=pose)
	albedos = flametex(tex) / 255.
	img_render = render(vertices, verts, albedos, light)['images']

	return img_render
Exemplo n.º 4
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    #     dfr = DFRParamRegressor(config).to(device)
    #     flame = FLAME(config).to(device)
    #     flametex = FLAMETex(config).to(device)
    #     mesh_file = './data/head_template_mesh.obj'
    #     render = Renderer(config.image_size, obj_filename=mesh_file).to(device)
    dfr = DFRParamRegressor(config)
    if args.ckpt is not None:
        #         g_ema.load_state_dict(torch.load(checkpoint_sg2)['g_ema'], strict=False)
        #         g_ema = g_ema.to(device)
        #         g_ema.eval();
        dfr.load_state_dict(torch.load(args.ckpt)['dfr'], strict=False)
        dfr.eval()

    flame = FLAME(config)
    flametex = FLAMETex(config)
    mesh_file = './data/head_template_mesh.obj'
    render = Renderer(config.image_size, obj_filename=mesh_file)

    #     # self._setup_renderer()
    #     # mesh_file = './data/head_template_mesh.obj'
    #     mesh_file = f'{path_photo_optim_repo}/data/head_template_mesh.obj'
    #     render = Renderer(image_size, obj_filename=mesh_file).to(device)

    #     if args.distributed:
    #         dfr = nn.parallel.DistributedDataParallel(
    #             dfr,
    #             device_ids=[args.local_rank],
    #             output_device=args.local_rank,
    # #             broadcast_buffers=False
    #         )