예제 #1
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    def evaluate(self):
        if self._distributed:
            comm.synchronize()
            predictions = comm.gather(self._predictions, dst=0)
            predictions = list(itertools.chain(*predictions))

            if not comm.is_main_process():
                return {}
        else:
            predictions = self._predictions

        if len(predictions) == 0:
            self._logger.warning(
                "[COCOEvaluator] Did not receive valid predictions.")
            return {}

        if self._output_dir:
            PathManager.mkdirs(self._output_dir)
            file_path = os.path.join(self._output_dir,
                                     "instances_predictions.pth")
            with PathManager.open(file_path, "wb") as f:
                torch.save(predictions, f)

        self._results = OrderedDict()
        if "proposals" in predictions[0]:
            self._eval_box_proposals(predictions)
        if "instances" in predictions[0]:
            self._eval_predictions(set(self._tasks), predictions)
        # Copy so the caller can do whatever with results
        return copy.deepcopy(self._results)
예제 #2
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    def _write_metrics(self, metrics_dict: dict):
        """
        Args:
            metrics_dict (dict): dict of scalar metrics
        """
        metrics_dict = {
            k: v.detach().cpu().item()
            if isinstance(v, torch.Tensor) else float(v)
            for k, v in metrics_dict.items()
        }
        # gather metrics among all workers for logging
        # This assumes we do DDP-style training, which is currently the only
        # supported method in mydl.
        all_metrics_dict = comm.gather(metrics_dict)

        if comm.is_main_process():
            if "data_time" in all_metrics_dict[0]:
                # data_time among workers can have high variance. The actual latency
                # caused by data_time is the maximum among workers.
                data_time = np.max(
                    [x.pop("data_time") for x in all_metrics_dict])
                self.storage.put_scalar("data_time", data_time)

            # average the rest metrics
            metrics_dict = {
                k: np.mean([x[k] for x in all_metrics_dict])
                for k in all_metrics_dict[0].keys()
            }
            total_losses_reduced = sum(loss for loss in metrics_dict.values())

            self.storage.put_scalar("total_loss", total_losses_reduced)
            if len(metrics_dict) > 1:
                self.storage.put_scalars(**metrics_dict)
예제 #3
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    def evaluate(self):
        comm.synchronize()

        self._predictions = comm.gather(self._predictions)
        self._predictions = list(itertools.chain(*self._predictions))
        if not comm.is_main_process():
            return

        # PanopticApi requires local files
        gt_json = PathManager.get_local_path(self._metadata.panoptic_json)
        gt_folder = PathManager.get_local_path(self._metadata.panoptic_root)

        with tempfile.TemporaryDirectory(prefix="panoptic_eval") as pred_dir:
            logger.info("Writing all panoptic predictions to {} ...".format(pred_dir))
            for p in self._predictions:
                with open(os.path.join(pred_dir, p["file_name"]), "wb") as f:
                    f.write(p.pop("png_string"))

            with open(gt_json, "r") as f:
                json_data = json.load(f)
            json_data["annotations"] = self._predictions
            with PathManager.open(self._predictions_json, "w") as f:
                f.write(json.dumps(json_data))

            from panopticapi.evaluation import pq_compute

            with contextlib.redirect_stdout(io.StringIO()):
                pq_res = pq_compute(
                    gt_json,
                    PathManager.get_local_path(self._predictions_json),
                    gt_folder=gt_folder,
                    pred_folder=pred_dir,
                )

        res = {}
        res["PQ"] = 100 * pq_res["All"]["pq"]
        res["SQ"] = 100 * pq_res["All"]["sq"]
        res["RQ"] = 100 * pq_res["All"]["rq"]
        res["PQ_th"] = 100 * pq_res["Things"]["pq"]
        res["SQ_th"] = 100 * pq_res["Things"]["sq"]
        res["RQ_th"] = 100 * pq_res["Things"]["rq"]
        res["PQ_st"] = 100 * pq_res["Stuff"]["pq"]
        res["SQ_st"] = 100 * pq_res["Stuff"]["sq"]
        res["RQ_st"] = 100 * pq_res["Stuff"]["rq"]

        results = OrderedDict({"panoptic_seg": res})
        _print_panoptic_results(pq_res)

        return results
예제 #4
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    def evaluate(self):
        """
        Returns:
            dict: has a key "segm", whose value is a dict of "AP", "AP50", and "AP75".
        """
        all_predictions = comm.gather(self._predictions, dst=0)
        if not comm.is_main_process():
            return
        predictions = defaultdict(list)
        for predictions_per_rank in all_predictions:
            for clsid, lines in predictions_per_rank.items():
                predictions[clsid].extend(lines)
        del all_predictions

        self._logger.info(
            "Evaluating {} using {} metric. "
            "Note that results do not use the official Matlab API.".format(
                self._dataset_name, 2007 if self._is_2007 else 2012))

        with tempfile.TemporaryDirectory(prefix="pascal_voc_eval_") as dirname:
            res_file_template = os.path.join(dirname, "{}.txt")

            aps = defaultdict(list)  # iou -> ap per class
            for cls_id, cls_name in enumerate(self._class_names):
                lines = predictions.get(cls_id, [""])

                with open(res_file_template.format(cls_name), "w") as f:
                    f.write("\n".join(lines))

                for thresh in range(50, 100, 5):
                    rec, prec, ap = voc_eval(
                        res_file_template,
                        self._anno_file_template,
                        self._image_set_path,
                        cls_name,
                        ovthresh=thresh / 100.0,
                        use_07_metric=self._is_2007,
                    )
                    aps[thresh].append(ap * 100)

        ret = OrderedDict()
        mAP = {iou: np.mean(x) for iou, x in aps.items()}
        ret["bbox"] = {
            "AP": np.mean(list(mAP.values())),
            "AP50": mAP[50],
            "AP75": mAP[75]
        }
        return ret