Exemple #1
0
    def _compute_is_aclass_correctly_detected_in_image(self, detected_boxes,
                                                       detected_scores,
                                                       groundtruth_boxes):
        """Compute CorLoc score for a single class.

        Args:
          detected_boxes: A numpy array of shape [N, 4] representing detected box
              coordinates
          detected_scores: A 1-d numpy array of length N representing classification
              score
          groundtruth_boxes: A numpy array of shape [M, 4] representing ground truth
              box coordinates

        Returns:
          is_class_correctly_detected_in_image: An integer 1 or 0 denoting whether a
              class is correctly detected in the image or not
        """
        if detected_boxes.size > 0:
            if groundtruth_boxes.size > 0:
                max_score_id = np.argmax(detected_scores)
                detected_boxlist = np_box_list.BoxList(
                    np.expand_dims(detected_boxes[max_score_id, :], axis=0))
                gt_boxlist = np_box_list.BoxList(groundtruth_boxes)
                iou = np_box_list_ops.iou(detected_boxlist, gt_boxlist)
                if np.max(iou) >= self.matching_iou_threshold:
                    return 1
        return 0
    def _get_overlaps_and_scores_relation_tuples(self, detected_box_tuples,
                                                 groundtruth_box_tuples):
        """Computes overlaps and scores between detected and groundtruth tuples.

    Both detections and groundtruth boxes have the same class tuples.

    Args:
      detected_box_tuples: A numpy array of structures with shape [N,],
          representing N tuples, each tuple containing the same number of named
          bounding boxes.
          Each box is of the format [y_min, x_min, y_max, x_max]
      groundtruth_box_tuples: A float numpy array of structures with the shape
          [M,], representing M tuples, each tuple containing the same number
          of named bounding boxes.
          Each box is of the format [y_min, x_min, y_max, x_max]

    Returns:
      result_iou: A float numpy array of size
        [num_detected_tuples, num_gt_box_tuples].
    """

        result_iou = np.ones(
            (detected_box_tuples.shape[0], groundtruth_box_tuples.shape[0]),
            dtype=float)
        for field in detected_box_tuples.dtype.fields:
            detected_boxlist_field = np_box_list.BoxList(
                detected_box_tuples[field])
            gt_boxlist_field = np_box_list.BoxList(
                groundtruth_box_tuples[field])
            iou_field = np_box_list_ops.iou(detected_boxlist_field,
                                            gt_boxlist_field)
            result_iou = np.minimum(iou_field, result_iou)
        return result_iou
Exemple #3
0
    def _compute_tp_fp_for_single_class(self, detected_boxes, detected_scores,
                                        groundtruth_boxes,
                                        groundtruth_is_difficult_list):
        """Labels boxes detected with the same class from the same image as tp/fp.

        Args:
          detected_boxes: A numpy array of shape [N, 4] representing detected box
              coordinates
          detected_scores: A 1-d numpy array of length N representing classification
              score
          groundtruth_boxes: A numpy array of shape [M, 4] representing ground truth
              box coordinates
          groundtruth_is_difficult_list: A boolean numpy array of length M denoting
              whether a ground truth box is a difficult instance or not

        Returns:
          scores: A numpy array representing the detection scores
          tp_fp_labels: a boolean numpy array indicating whether a detection is a
          true positive.

        """
        if groundtruth_boxes.size == 0:
            is_gt_box_detected = np.array([], dtype=bool)
        else:
            is_gt_box_detected = np.zeros(groundtruth_boxes.shape[0],
                                          dtype=bool)

        if detected_boxes.size == 0:
            return np.array([], dtype=float), np.array(
                [], dtype=bool), is_gt_box_detected
        detected_boxlist = np_box_list.BoxList(detected_boxes)
        detected_boxlist.add_field('scores', detected_scores)
        detected_boxlist = np_box_list_ops.non_max_suppression(
            detected_boxlist, self.nms_max_output_boxes,
            self.nms_iou_threshold)

        scores = detected_boxlist.get_field('scores')

        if groundtruth_boxes.size == 0:
            return scores, np.zeros(detected_boxlist.num_boxes(),
                                    dtype=bool), is_gt_box_detected
        gt_boxlist = np_box_list.BoxList(groundtruth_boxes)

        iou = np_box_list_ops.iou(detected_boxlist, gt_boxlist)
        max_overlap_gt_ids = np.argmax(iou, axis=1)
        tp_fp_labels = np.zeros(detected_boxlist.num_boxes(), dtype=bool)
        is_matched_to_difficult_box = np.zeros(detected_boxlist.num_boxes(),
                                               dtype=bool)
        for i in range(detected_boxlist.num_boxes()):
            gt_id = max_overlap_gt_ids[i]
            if iou[i, gt_id] >= self.matching_iou_threshold:
                if not groundtruth_is_difficult_list[gt_id]:
                    if not is_gt_box_detected[gt_id]:
                        tp_fp_labels[i] = True
                        is_gt_box_detected[gt_id] = True
                else:
                    is_matched_to_difficult_box[i] = True
        return scores[~is_matched_to_difficult_box], tp_fp_labels[
            ~is_matched_to_difficult_box], is_gt_box_detected
    def _compute_is_class_correctly_detected_in_image(self,
                                                      detected_boxes,
                                                      detected_scores,
                                                      groundtruth_boxes,
                                                      detected_masks=None,
                                                      groundtruth_masks=None):
        """Compute CorLoc score for a single class.

    Args:
      detected_boxes: A numpy array of shape [N, 4] representing detected box
          coordinates
      detected_scores: A 1-d numpy array of length N representing classification
          score
      groundtruth_boxes: A numpy array of shape [M, 4] representing ground truth
          box coordinates
      detected_masks: (optional) A np.uint8 numpy array of shape
        [N, height, width]. If not None, the scores will be computed based
        on masks.
      groundtruth_masks: (optional) A np.uint8 numpy array of shape
        [M, height, width].

    Returns:
      is_class_correctly_detected_in_image: An integer 1 or 0 denoting whether a
          class is correctly detected in the image or not
    """
        if detected_boxes.size > 0:
            if groundtruth_boxes.size > 0:
                max_score_id = np.argmax(detected_scores)
                mask_mode = False
                if detected_masks is not None and groundtruth_masks is not None:
                    mask_mode = True
                if mask_mode:
                    detected_boxlist = np_box_mask_list.BoxMaskList(
                        box_data=np.expand_dims(detected_boxes[max_score_id],
                                                axis=0),
                        mask_data=np.expand_dims(detected_masks[max_score_id],
                                                 axis=0))
                    gt_boxlist = np_box_mask_list.BoxMaskList(
                        box_data=groundtruth_boxes,
                        mask_data=groundtruth_masks)
                    iou = np_box_mask_list_ops.iou(detected_boxlist,
                                                   gt_boxlist)
                else:
                    detected_boxlist = np_box_list.BoxList(
                        np.expand_dims(detected_boxes[max_score_id, :],
                                       axis=0))
                    gt_boxlist = np_box_list.BoxList(groundtruth_boxes)
                    iou = np_box_list_ops.iou(detected_boxlist, gt_boxlist)
                if np.max(iou) >= self.matching_iou_threshold:
                    return 1
        return 0
    def _get_overlaps_and_scores_box_mode(self, detected_boxes,
                                          detected_scores, groundtruth_boxes,
                                          groundtruth_is_group_of_list):
        """Computes overlaps and scores between detected and groudntruth boxes.

    Args:
      detected_boxes: A numpy array of shape [N, 4] representing detected box
          coordinates
      detected_scores: A 1-d numpy array of length N representing classification
          score
      groundtruth_boxes: A numpy array of shape [M, 4] representing ground truth
          box coordinates
      groundtruth_is_group_of_list: A boolean numpy array of length M denoting
          whether a ground truth box has group-of tag. If a groundtruth box
          is group-of box, every detection matching this box is ignored.

    Returns:
      iou: A float numpy array of size [num_detected_boxes, num_gt_boxes]. If
          gt_non_group_of_boxlist.num_boxes() == 0 it will be None.
      ioa: A float numpy array of size [num_detected_boxes, num_gt_boxes]. If
          gt_group_of_boxlist.num_boxes() == 0 it will be None.
      scores: The score of the detected boxlist.
      num_boxes: Number of non-maximum suppressed detected boxes.
    """
        detected_boxlist = np_box_list.BoxList(detected_boxes)
        detected_boxlist.add_field('scores', detected_scores)
        detected_boxlist = np_box_list_ops.non_max_suppression(
            detected_boxlist, self.nms_max_output_boxes,
            self.nms_iou_threshold)
        gt_non_group_of_boxlist = np_box_list.BoxList(
            groundtruth_boxes[~groundtruth_is_group_of_list])
        gt_group_of_boxlist = np_box_list.BoxList(
            groundtruth_boxes[groundtruth_is_group_of_list])
        iou = np_box_list_ops.iou(detected_boxlist, gt_non_group_of_boxlist)
        ioa = np.transpose(
            np_box_list_ops.ioa(gt_group_of_boxlist, detected_boxlist))
        scores = detected_boxlist.get_field('scores')
        num_boxes = detected_boxlist.num_boxes()
        return iou, ioa, scores, num_boxes
 def test_iou(self):
     iou = np_box_list_ops.iou(self.boxlist1, self.boxlist2)
     expected_iou = np.array(
         [[2.0 / 16.0, 0.0, 6.0 / 400.0], [1.0 / 16.0, 0.0, 5.0 / 400.0]],
         dtype=float)
     self.assertAllClose(iou, expected_iou)