def main(): args, cfg = parse_args() checkpoint_path = utils.find_checkpoint(cfg.INTERACTIVE_MODELS_PATH, args.checkpoint) model = utils.load_is_model(checkpoint_path, args.device, num_max_clicks=args.n_clicks) eval_exp_name = get_eval_exp_name(args) eval_exp_path = args.logs_path / eval_exp_name eval_exp_path.mkdir(parents=True, exist_ok=True) print_header = True for dataset_name in args.datasets.split(','): dataset = utils.get_dataset(dataset_name, cfg) zoom_in_target_size = 600 if dataset_name == 'DAVIS' else 400 predictor = get_predictor(model, args.mode, args.device, prob_thresh=args.thresh, predictor_params={'num_max_points': args.n_clicks}, zoom_in_params={'target_size': zoom_in_target_size}) dataset_results = evaluate_dataset(dataset, predictor, pred_thr=args.thresh, max_iou_thr=args.target_iou, max_clicks=args.n_clicks) save_results(args, dataset_name, eval_exp_path, dataset_results, print_header=print_header) print_header = False
def main(): args, cfg = parse_args() checkpoints_list, logs_path, logs_prefix = get_checkpoints_list_and_logs_path( args, cfg) logs_path.mkdir(parents=True, exist_ok=True) single_model_eval = len(checkpoints_list) == 1 assert not args.iou_analysis if not single_model_eval else True, \ "Can't perform IoU analysis for multiple checkpoints" print_header = single_model_eval for dataset_name in args.datasets.split(','): dataset = utils.get_dataset(dataset_name, cfg) for checkpoint_path in checkpoints_list: model = utils.load_is_model(checkpoint_path, args.device) predictor_params, zoomin_params = get_predictor_and_zoomin_params( args, dataset_name) predictor = get_predictor(model, args.mode, args.device, prob_thresh=args.thresh, predictor_params=predictor_params, zoom_in_params=zoomin_params) vis_callback = get_prediction_vis_callback( logs_path, dataset_name, args.thresh) if args.vis_preds else None dataset_results = evaluate_dataset(dataset, predictor, pred_thr=args.thresh, max_iou_thr=args.target_iou, min_clicks=args.min_n_clicks, max_clicks=args.n_clicks, callback=vis_callback) row_name = args.mode if single_model_eval else checkpoint_path.stem if args.iou_analysis: save_iou_analysis_data(args, dataset_name, logs_path, logs_prefix, dataset_results, model_name=args.model_name) save_results(args, row_name, dataset_name, logs_path, logs_prefix, dataset_results, save_ious=single_model_eval and args.save_ious, single_model_eval=single_model_eval, print_header=print_header) print_header = False
def main(): args, cfg = parse_args() # get model torch.backends.cudnn.deterministic = True checkpoint_path = utils.find_checkpoint(cfg.INTERACTIVE_MODELS_PATH, args.checkpoint) model = utils.load_is_model(checkpoint_path, args.device, cpu_dist_maps=True, norm_radius=args.norm_radius) predictor = get_predictor(model.to(args.device), device=args.device, brs_mode=args.mode) clicker = clicker_.Clicker() input_transform = transforms.Compose([ transforms.ToTensor(), transforms.Normalize([.485, .456, .406], [.229, .224, .225]) ]) # get image image = cv2.cvtColor(cv2.imread(args.imgpath), cv2.COLOR_BGR2RGB) image_nd = input_transform(image).to(args.device) if image_nd is not None: predictor.set_input_image(image_nd) probs_history = [] clicks = json.load(open('clicks.json', 'r'))['clicks'] for c in clicks: click = clicker_.Click(is_positive=c['is_positive'], coords=(c['y'], c['x'])) clicker.add_click(click) pred = predictor.get_prediction(clicker) torch.cuda.empty_cache() if probs_history: probs_history.append((probs_history[-1][0], pred)) else: probs_history.append((np.zeros_like(pred), pred)) if probs_history: current_prob_total, current_prob_additive = probs_history[-1] final_pred = np.maximum(current_prob_total, current_prob_additive) final_mask = (final_pred > 0.5).astype(np.uint8) else: final_mask = np.ones_like(pred).astype(np.uint8) if args.sis: final_mask = structural_integrity_strategy(final_mask, clicker) cv2.imwrite( args.outpath, cv2.cvtColor(image, cv2.COLOR_RGB2BGR) * np.expand_dims(final_mask, axis=2))
def main(): args, cfg = parse_args() torch.backends.cudnn.deterministic = True checkpoint_path = utils.find_checkpoint(cfg.INTERACTIVE_MODELS_PATH, args.checkpoint) model = utils.load_is_model(checkpoint_path, args.device, cpu_dist_maps=True, norm_radius=args.norm_radius) root = tk.Tk() root.minsize(960, 480) app = InteractiveDemoApp(root, args, model) root.deiconify() app.mainloop()
def __init__(self): torch.backends.cudnn.deterministic = True base_dir = os.path.abspath( os.environ.get("MODEL_PATH", "/opt/nuclio/hrnet")) model_path = os.path.join(base_dir) self.net = None self.device = 'cuda' if torch.cuda.is_available() else 'cpu' checkpoint_path = utils.find_checkpoint(model_path, "coco_lvis_h18_itermask.pth") self.net = utils.load_is_model(checkpoint_path, self.device)
def main(): args, cfg = parse_args() torch.backends.cudnn.deterministic = True checkpoint_path = utils.find_checkpoint(cfg.INTERACTIVE_MODELS_PATH, args.checkpoint) model = utils.load_is_model(checkpoint_path, args.device, cpu_dist_maps=True, norm_radius=args.norm_radius) x_coords = (300, 300, 150) y_coords = (300, 400, 300) is_pos = (1, 1, 0) img_pth = '/Users/jason/Desktop/img_1205.jpg' image = cv2.cvtColor(cv2.imread(img_pth), cv2.COLOR_BGR2RGB) print(type(image)) print(sys.getsizeof(image)) var1 = BetterThanApp.AppReplacement(image, args, model, x_coords, y_coords, is_pos)
cfg = exp.load_config_file('./config.yml', return_edict=True) ## init dateset # Possible choices: 'GrabCut', 'Berkeley', 'DAVIS', 'COCO_MVal', 'SBD' DATASET = 'Berkeley' dataset = utils.get_dataset(DATASET, cfg) ## init model from isegm.inference.predictors import get_predictor EVAL_MAX_CLICKS = 20 MODEL_THRESH = 0.49 checkpoint_path = utils.find_checkpoint(cfg.INTERACTIVE_MODELS_PATH, 'coco_lvis_h18_itermask') model = utils.load_is_model(checkpoint_path, device) # Possible choices: 'NoBRS', 'f-BRS-A', 'f-BRS-B', 'f-BRS-C', 'RGB-BRS', 'DistMap-BRS' brs_mode = 'f-BRS-B' predictor = get_predictor(model, brs_mode, device, prob_thresh=MODEL_THRESH) ## single sample test sample_id = random.sample(range(len(dataset)), 1)[0] TARGET_IOU = 0.95 sample = dataset.get_sample(sample_id) gt_mask = sample.gt_mask clicks_list, ious_arr, pred = evaluate_sample(sample.image, gt_mask, predictor,