Exemplo n.º 1
0
def run_inference(args):
    logger.info(f"{'-'*80}")
    for k, v in args.__dict__.items():
        logger.info(f"{k}: {v}")
    logger.info(f"{'-'*80}")

    scene_ds = make_scene_dataset(args.ds_name, n_frames=args.n_frames)

    if args.icp:
        scene_ds.load_depth = args.icp

    # if args.debug and 'tless' in args.ds_name:
    #     # Try to debug ICP on T-LESS ??????
    #     view_id = 142
    #     mask = scene_ds.frame_index['view_id'] == view_id
    #     scene_ds.frame_index = scene_ds.frame_index[mask].reset_index(drop=True)

    #     scene_id = 1
    #     mask = scene_ds.frame_index['scene_id'] == scene_id
    #     scene_ds.frame_index = scene_ds.frame_index[mask].reset_index(drop=True)

    scene_ds_multi = MultiViewWrapper(scene_ds, n_views=args.n_views)

    if args.n_groups is not None:
        scene_ds_multi.frame_index = scene_ds_multi.frame_index[:args.
                                                                n_groups].reset_index(
                                                                    drop=True)

    pred_kwargs = dict()
    pred_runner = BopPredictionRunner(scene_ds_multi,
                                      batch_size=args.pred_bsz,
                                      cache_data=False,
                                      n_workers=args.n_workers)

    detector = load_detector(args.detector_run_id)
    pose_predictor, mesh_db = load_pose_models(
        coarse_run_id=args.coarse_run_id,
        refiner_run_id=args.refiner_run_id,
        n_workers=args.n_workers,
    )

    icp_refiner = None
    if args.icp:
        renderer = pose_predictor.coarse_model.renderer
        icp_refiner = ICPRefiner(
            mesh_db,
            renderer=renderer,
            resolution=pose_predictor.coarse_model.cfg.input_resize)

    mv_predictor = None
    if args.n_views > 1:
        mv_predictor = MultiviewScenePredictor(mesh_db)

    pred_kwargs.update({
        'maskrcnn_detections':
        dict(
            detector=detector,
            pose_predictor=pose_predictor,
            n_coarse_iterations=args.n_coarse_iterations,
            n_refiner_iterations=args.n_refiner_iterations,
            icp_refiner=icp_refiner,
            mv_predictor=mv_predictor,
        )
    })

    all_predictions = dict()
    for pred_prefix, pred_kwargs_n in pred_kwargs.items():
        logger.info(f"Prediction: {pred_prefix}")
        preds = pred_runner.get_predictions(**pred_kwargs_n)
        for preds_name, preds_n in preds.items():
            all_predictions[f'{pred_prefix}/{preds_name}'] = preds_n

    logger.info("Done with inference.")
    torch.distributed.barrier()

    for k, v in all_predictions.items():
        all_predictions[k] = v.gather_distributed(tmp_dir=get_tmp_dir()).cpu()

    if get_rank() == 0:
        save_dir = Path(args.save_dir)
        save_dir.mkdir(exist_ok=True, parents=True)
        logger.info(f'Finished inference on {args.ds_name}')
        results = format_results(all_predictions, dict(), dict())
        torch.save(results, save_dir / 'results.pth.tar')
        (save_dir / 'config.yaml').write_text(yaml.dump(args))
        logger.info(f'Saved predictions in {save_dir}')

    torch.distributed.barrier()
    return
Exemplo n.º 2
0
def main():
    loggers = [logging.getLogger(name) for name in logging.root.manager.loggerDict]
    for logger in loggers:
        if 'cosypose' in logger.name:
            logger.setLevel(logging.DEBUG)

    logger.info("Starting ...")
    init_distributed_mode()

    parser = argparse.ArgumentParser('Evaluation')
    parser.add_argument('--config', default='tless-bop', type=str)
    parser.add_argument('--debug', action='store_true')
    parser.add_argument('--job_dir', default='', type=str)
    parser.add_argument('--comment', default='', type=str)
    parser.add_argument('--nviews', dest='n_views', default=1, type=int)
    args = parser.parse_args()

    coarse_run_id = None
    refiner_run_id = None
    n_workers = 8
    n_plotters = 8
    n_views = 1

    n_frames = None
    scene_id = None
    group_id = None
    n_groups = None
    n_views = args.n_views
    skip_mv = args.n_views < 2
    skip_predictions = False

    object_set = 'tless'
    if 'tless' in args.config:
        object_set = 'tless'
        coarse_run_id = 'tless-coarse--10219'
        refiner_run_id = 'tless-refiner--585928'
        n_coarse_iterations = 1
        n_refiner_iterations = 4
    elif 'ycbv' in args.config:
        object_set = 'ycbv'
        refiner_run_id = 'ycbv-refiner-finetune--251020'
        n_coarse_iterations = 0
        n_refiner_iterations = 2
    else:
        raise ValueError(args.config)

    if args.config == 'tless-siso':
        ds_name = 'tless.primesense.test'
        assert n_views == 1
    elif args.config == 'tless-vivo':
        ds_name = 'tless.primesense.test.bop19'
    elif args.config == 'ycbv':
        ds_name = 'ycbv.test.keyframes'
    else:
        raise ValueError(args.config)

    if args.debug:
        if 'tless' in args.config:
            scene_id = None
            group_id = 64
            n_groups = 2
        else:
            scene_id = 48
            n_groups = 2
        n_frames = None
        n_workers = 0
        n_plotters = 0

    n_rand = np.random.randint(1e10)
    save_dir = RESULTS_DIR / f'{args.config}-n_views={n_views}-{args.comment}-{n_rand}'
    logger.info(f"SAVE DIR: {save_dir}")
    logger.info(f"Coarse: {coarse_run_id}")
    logger.info(f"Refiner: {refiner_run_id}")

    # Load dataset
    scene_ds = make_scene_dataset(ds_name)

    if scene_id is not None:
        mask = scene_ds.frame_index['scene_id'] == scene_id
        scene_ds.frame_index = scene_ds.frame_index[mask].reset_index(drop=True)
    if n_frames is not None:
        scene_ds.frame_index = scene_ds.frame_index[mask].reset_index(drop=True)[:n_frames]

    # Predictions
    predictor, mesh_db = load_models(coarse_run_id, refiner_run_id, n_workers=n_plotters, object_set=object_set)

    mv_predictor = MultiviewScenePredictor(mesh_db)

    base_pred_kwargs = dict(
        n_coarse_iterations=n_coarse_iterations,
        n_refiner_iterations=n_refiner_iterations,
        skip_mv=skip_mv,
        pose_predictor=predictor,
        mv_predictor=mv_predictor,
    )

    if skip_predictions:
        pred_kwargs = {}
    elif 'tless' in ds_name:
        pix2pose_detections = load_pix2pose_results(all_detections='bop19' in ds_name).cpu()
        pred_kwargs = {
            'pix2pose_detections': dict(
                detections=pix2pose_detections,
                **base_pred_kwargs
            ),
        }
    elif 'ycbv' in ds_name:
        posecnn_detections = load_posecnn_results()
        pred_kwargs = {
            'posecnn_init': dict(
                detections=posecnn_detections,
                use_detections_TCO=posecnn_detections,
                **base_pred_kwargs
            ),
        }
    else:
        raise ValueError(ds_name)

    scene_ds_pred = MultiViewWrapper(scene_ds, n_views=n_views)

    if group_id is not None:
        mask = scene_ds_pred.frame_index['group_id'] == group_id
        scene_ds_pred.frame_index = scene_ds_pred.frame_index[mask].reset_index(drop=True)
    elif n_groups is not None:
        scene_ds_pred.frame_index = scene_ds_pred.frame_index[:n_groups]

    pred_runner = MultiviewPredictionRunner(
        scene_ds_pred, batch_size=1, n_workers=n_workers,
        cache_data=len(pred_kwargs) > 1)

    all_predictions = dict()
    for pred_prefix, pred_kwargs_n in pred_kwargs.items():
        logger.info(f"Prediction: {pred_prefix}")
        preds = pred_runner.get_predictions(**pred_kwargs_n)
        for preds_name, preds_n in preds.items():
            all_predictions[f'{pred_prefix}/{preds_name}'] = preds_n

    logger.info("Done with predictions")
    torch.distributed.barrier()

    # Evaluation
    predictions_to_evaluate = set()
    if 'ycbv' in ds_name:
        det_key = 'posecnn_init'
        all_predictions['posecnn'] = posecnn_detections
        predictions_to_evaluate.add('posecnn')
    elif 'tless' in ds_name:
        det_key = 'pix2pose_detections'
    else:
        raise ValueError(ds_name)
    predictions_to_evaluate.add(f'{det_key}/refiner/iteration={n_refiner_iterations}')

    if args.n_views > 1:
        for k in [
                # f'ba_input',
                # f'ba_output',
                f'ba_output+all_cand'
        ]:
            predictions_to_evaluate.add(f'{det_key}/{k}')

    all_predictions = OrderedDict({k: v for k, v in sorted(all_predictions.items(), key=lambda item: item[0])})

    # Evaluation.
    meters = get_pose_meters(scene_ds)
    mv_group_ids = list(iter(pred_runner.sampler))
    scene_ds_ids = np.concatenate(scene_ds_pred.frame_index.loc[mv_group_ids, 'scene_ds_ids'].values)
    sampler = ListSampler(scene_ds_ids)
    eval_runner = PoseEvaluation(scene_ds, meters, n_workers=n_workers,
                                 cache_data=True, batch_size=1, sampler=sampler)

    eval_metrics, eval_dfs = dict(), dict()
    for preds_k, preds in all_predictions.items():
        if preds_k in predictions_to_evaluate:
            logger.info(f"Evaluation : {preds_k} (N={len(preds)})")
            if len(preds) == 0:
                preds = eval_runner.make_empty_predictions()
            eval_metrics[preds_k], eval_dfs[preds_k] = eval_runner.evaluate(preds)
            preds.cpu()
        else:
            logger.info(f"Skipped: {preds_k} (N={len(preds)})")

    all_predictions = gather_predictions(all_predictions)

    metrics_to_print = dict()
    if 'ycbv' in ds_name:
        metrics_to_print.update({
            f'posecnn/ADD(-S)_ntop=1_matching=CLASS/AUC/objects/mean': f'PoseCNN/AUC of ADD(-S)',

            f'{det_key}/refiner/iteration={n_refiner_iterations}/ADD(-S)_ntop=1_matching=CLASS/AUC/objects/mean': f'Singleview/AUC of ADD(-S)',
            f'{det_key}/refiner/iteration={n_refiner_iterations}/ADD-S_ntop=1_matching=CLASS/AUC/objects/mean': f'Singleview/AUC of ADD-S',

            f'{det_key}/ba_output+all_cand/ADD(-S)_ntop=1_matching=CLASS/AUC/objects/mean': f'Multiview (n={args.n_views})/AUC of ADD(-S)',
            f'{det_key}/ba_output+all_cand/ADD-S_ntop=1_matching=CLASS/AUC/objects/mean': f'Multiview (n={args.n_views})/AUC of ADD-S',
        })
    elif 'tless' in ds_name:
        metrics_to_print.update({
            f'{det_key}/refiner/iteration={n_refiner_iterations}/ADD-S_ntop=BOP_matching=OVERLAP/AUC/objects/mean': f'Singleview/AUC of ADD-S',
            # f'{det_key}/refiner/iteration={n_refiner_iterations}/ADD-S_ntop=BOP_matching=BOP/0.1d': f'Singleview/ADD-S<0.1d',
            f'{det_key}/refiner/iteration={n_refiner_iterations}/ADD-S_ntop=ALL_matching=BOP/mAP': f'Singleview/mAP@ADD-S<0.1d',


            f'{det_key}/ba_output+all_cand/ADD-S_ntop=BOP_matching=OVERLAP/AUC/objects/mean': f'Multiview (n={args.n_views})/AUC of ADD-S',
            # f'{det_key}/ba_output+all_cand/ADD-S_ntop=BOP_matching=BOP/0.1d': f'Multiview (n={args.n_views})/ADD-S<0.1d',
            f'{det_key}/ba_output+all_cand/ADD-S_ntop=ALL_matching=BOP/mAP': f'Multiview (n={args.n_views}/mAP@ADD-S<0.1d)',
        })
    else:
        raise ValueError

    metrics_to_print.update({
        f'{det_key}/ba_input/ADD-S_ntop=BOP_matching=OVERLAP/norm': f'Multiview before BA/ADD-S (m)',
        f'{det_key}/ba_output/ADD-S_ntop=BOP_matching=OVERLAP/norm': f'Multiview after BA/ADD-S (m)',
    })

    if get_rank() == 0:
        save_dir.mkdir()
        results = format_results(all_predictions, eval_metrics, eval_dfs, print_metrics=False)
        (save_dir / 'full_summary.txt').write_text(results.get('summary_txt', ''))

        full_summary = results['summary']
        summary_txt = 'Results:'
        for k, v in metrics_to_print.items():
            if k in full_summary:
                summary_txt += f"\n{v}: {full_summary[k]}"
        logger.info(f"{'-'*80}")
        logger.info(summary_txt)
        logger.info(f"{'-'*80}")

        torch.save(results, save_dir / 'results.pth.tar')
        (save_dir / 'summary.txt').write_text(summary_txt)
        logger.info(f"Saved: {save_dir}")