def batch_precision_recall(batch_pred, batch_labels): precision_recall_list = [] for i in range(batch_labels.shape[0]): precision_recall = precisionRecall_torch(batch_pred[i], batch_labels[i]) precision_recall_list.append(precision_recall) precision = np.mean([ precision_recall["precision"] for precision_recall in precision_recall_list ]) recall = np.mean([ precision_recall["recall"] for precision_recall in precision_recall_list ]) return {"precision": precision, "recall": recall}
def add2tensorboard_nms(self, img, labels_2D, semi, task="training", batch_size=1): """ # deprecated: :param img: :param labels_2D: :param semi: :param task: :param batch_size: :return: """ from utils.utils import getPtsFromHeatmap from utils.utils import box_nms boxNms = False n_iter = self.n_iter nms_dist = self.config["model"]["nms"] conf_thresh = self.config["model"]["detection_threshold"] # print("nms_dist: ", nms_dist) precision_recall_list = [] precision_recall_boxnms_list = [] for idx in range(batch_size): semi_flat_tensor = flattenDetection(semi[idx, :, :, :]).detach() semi_flat = toNumpy(semi_flat_tensor) semi_thd = np.squeeze(semi_flat, 0) pts_nms = getPtsFromHeatmap(semi_thd, conf_thresh, nms_dist) semi_thd_nms_sample = np.zeros_like(semi_thd) semi_thd_nms_sample[pts_nms[1, :].astype(np.int), pts_nms[0, :].astype(np.int)] = 1 label_sample = torch.squeeze(labels_2D[idx, :, :, :]) # pts_nms = getPtsFromHeatmap(label_sample.numpy(), conf_thresh, nms_dist) # label_sample_rms_sample = np.zeros_like(label_sample.numpy()) # label_sample_rms_sample[pts_nms[1, :].astype(np.int), pts_nms[0, :].astype(np.int)] = 1 label_sample_nms_sample = label_sample if idx < 5: result_overlap = img_overlap( np.expand_dims(label_sample_nms_sample, 0), np.expand_dims(semi_thd_nms_sample, 0), toNumpy(img[idx, :, :, :]), ) self.writer.add_image( task + "-detector_output_thd_overlay-NMS" + "/%d" % idx, result_overlap, n_iter, ) assert semi_thd_nms_sample.shape == label_sample_nms_sample.size() precision_recall = precisionRecall_torch( torch.from_numpy(semi_thd_nms_sample), label_sample_nms_sample) precision_recall_list.append(precision_recall) if boxNms: semi_flat_tensor_nms = box_nms(semi_flat_tensor.squeeze(), nms_dist, min_prob=conf_thresh).cpu() semi_flat_tensor_nms = (semi_flat_tensor_nms >= conf_thresh).float() if idx < 5: result_overlap = img_overlap( np.expand_dims(label_sample_nms_sample, 0), semi_flat_tensor_nms.numpy()[np.newaxis, :, :], toNumpy(img[idx, :, :, :]), ) self.writer.add_image( task + "-detector_output_thd_overlay-boxNMS" + "/%d" % idx, result_overlap, n_iter, ) precision_recall_boxnms = precisionRecall_torch( semi_flat_tensor_nms, label_sample_nms_sample) precision_recall_boxnms_list.append(precision_recall_boxnms) precision = np.mean([ precision_recall["precision"] for precision_recall in precision_recall_list ]) recall = np.mean([ precision_recall["recall"] for precision_recall in precision_recall_list ]) self.writer.add_scalar(task + "-precision_nms", precision, n_iter) self.writer.add_scalar(task + "-recall_nms", recall, n_iter) print("-- [%s-%d-fast NMS] precision: %.4f, recall: %.4f" % (task, n_iter, precision, recall)) if boxNms: precision = np.mean([ precision_recall["precision"] for precision_recall in precision_recall_boxnms_list ]) recall = np.mean([ precision_recall["recall"] for precision_recall in precision_recall_boxnms_list ]) self.writer.add_scalar(task + "-precision_boxnms", precision, n_iter) self.writer.add_scalar(task + "-recall_boxnms", recall, n_iter) print("-- [%s-%d-boxNMS] precision: %.4f, recall: %.4f" % (task, n_iter, precision, recall))