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coco_evaluation.py 31.14 KB
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追梦 提交于 2018-07-21 21:27 . add run result
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# Copyright 2017 The TensorFlow Authors. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
# ==============================================================================
"""Class for evaluating object detections with COCO metrics."""
import numpy as np
import tensorflow as tf
from object_detection.core import standard_fields
from object_detection.metrics import coco_tools
from object_detection.utils import object_detection_evaluation
class CocoDetectionEvaluator(object_detection_evaluation.DetectionEvaluator):
"""Class to evaluate COCO detection metrics."""
def __init__(self,
categories,
include_metrics_per_category=False,
all_metrics_per_category=False):
"""Constructor.
Args:
categories: A list of dicts, each of which has the following keys -
'id': (required) an integer id uniquely identifying this category.
'name': (required) string representing category name e.g., 'cat', 'dog'.
include_metrics_per_category: If True, include metrics for each category.
all_metrics_per_category: Whether to include all the summary metrics for
each category in per_category_ap. Be careful with setting it to true if
you have more than handful of categories, because it will pollute
your mldash.
"""
super(CocoDetectionEvaluator, self).__init__(categories)
# _image_ids is a dictionary that maps unique image ids to Booleans which
# indicate whether a corresponding detection has been added.
self._image_ids = {}
self._groundtruth_list = []
self._detection_boxes_list = []
self._category_id_set = set([cat['id'] for cat in self._categories])
self._annotation_id = 1
self._metrics = None
self._include_metrics_per_category = include_metrics_per_category
self._all_metrics_per_category = all_metrics_per_category
def clear(self):
"""Clears the state to prepare for a fresh evaluation."""
self._image_ids.clear()
self._groundtruth_list = []
self._detection_boxes_list = []
def add_single_ground_truth_image_info(self,
image_id,
groundtruth_dict):
"""Adds groundtruth for a single image to be used for evaluation.
If the image has already been added, a warning is logged, and groundtruth is
ignored.
Args:
image_id: A unique string/integer identifier for the image.
groundtruth_dict: A dictionary containing -
InputDataFields.groundtruth_boxes: float32 numpy array of shape
[num_boxes, 4] containing `num_boxes` groundtruth boxes of the format
[ymin, xmin, ymax, xmax] in absolute image coordinates.
InputDataFields.groundtruth_classes: integer numpy array of shape
[num_boxes] containing 1-indexed groundtruth classes for the boxes.
InputDataFields.groundtruth_is_crowd (optional): integer numpy array of
shape [num_boxes] containing iscrowd flag for groundtruth boxes.
"""
if image_id in self._image_ids:
tf.logging.warning('Ignoring ground truth with image id %s since it was '
'previously added', image_id)
return
groundtruth_is_crowd = groundtruth_dict.get(
standard_fields.InputDataFields.groundtruth_is_crowd)
# Drop groundtruth_is_crowd if empty tensor.
if groundtruth_is_crowd is not None and not groundtruth_is_crowd.shape[0]:
groundtruth_is_crowd = None
self._groundtruth_list.extend(
coco_tools.ExportSingleImageGroundtruthToCoco(
image_id=image_id,
next_annotation_id=self._annotation_id,
category_id_set=self._category_id_set,
groundtruth_boxes=groundtruth_dict[
standard_fields.InputDataFields.groundtruth_boxes],
groundtruth_classes=groundtruth_dict[
standard_fields.InputDataFields.groundtruth_classes],
groundtruth_is_crowd=groundtruth_is_crowd))
self._annotation_id += groundtruth_dict[standard_fields.InputDataFields.
groundtruth_boxes].shape[0]
# Boolean to indicate whether a detection has been added for this image.
self._image_ids[image_id] = False
def add_single_detected_image_info(self,
image_id,
detections_dict):
"""Adds detections for a single image to be used for evaluation.
If a detection has already been added for this image id, a warning is
logged, and the detection is skipped.
Args:
image_id: A unique string/integer identifier for the image.
detections_dict: A dictionary containing -
DetectionResultFields.detection_boxes: float32 numpy array of shape
[num_boxes, 4] containing `num_boxes` detection boxes of the format
[ymin, xmin, ymax, xmax] in absolute image coordinates.
DetectionResultFields.detection_scores: float32 numpy array of shape
[num_boxes] containing detection scores for the boxes.
DetectionResultFields.detection_classes: integer numpy array of shape
[num_boxes] containing 1-indexed detection classes for the boxes.
Raises:
ValueError: If groundtruth for the image_id is not available.
"""
if image_id not in self._image_ids:
raise ValueError('Missing groundtruth for image id: {}'.format(image_id))
if self._image_ids[image_id]:
tf.logging.warning('Ignoring detection with image id %s since it was '
'previously added', image_id)
return
self._detection_boxes_list.extend(
coco_tools.ExportSingleImageDetectionBoxesToCoco(
image_id=image_id,
category_id_set=self._category_id_set,
detection_boxes=detections_dict[standard_fields.
DetectionResultFields
.detection_boxes],
detection_scores=detections_dict[standard_fields.
DetectionResultFields.
detection_scores],
detection_classes=detections_dict[standard_fields.
DetectionResultFields.
detection_classes]))
self._image_ids[image_id] = True
def evaluate(self):
"""Evaluates the detection boxes and returns a dictionary of coco metrics.
Returns:
A dictionary holding -
1. summary_metrics:
'DetectionBoxes_Precision/mAP': mean average precision over classes
averaged over IOU thresholds ranging from .5 to .95 with .05
increments.
'DetectionBoxes_Precision/[email protected]': mean average precision at 50% IOU
'DetectionBoxes_Precision/[email protected]': mean average precision at 75% IOU
'DetectionBoxes_Precision/mAP (small)': mean average precision for small
objects (area < 32^2 pixels).
'DetectionBoxes_Precision/mAP (medium)': mean average precision for
medium sized objects (32^2 pixels < area < 96^2 pixels).
'DetectionBoxes_Precision/mAP (large)': mean average precision for large
objects (96^2 pixels < area < 10000^2 pixels).
'DetectionBoxes_Recall/AR@1': average recall with 1 detection.
'DetectionBoxes_Recall/AR@10': average recall with 10 detections.
'DetectionBoxes_Recall/AR@100': average recall with 100 detections.
'DetectionBoxes_Recall/AR@100 (small)': average recall for small objects
with 100.
'DetectionBoxes_Recall/AR@100 (medium)': average recall for medium objects
with 100.
'DetectionBoxes_Recall/AR@100 (large)': average recall for large objects
with 100 detections.
2. per_category_ap: if include_metrics_per_category is True, category
specific results with keys of the form:
'Precision mAP ByCategory/category' (without the supercategory part if
no supercategories exist). For backward compatibility
'PerformanceByCategory' is included in the output regardless of
all_metrics_per_category.
"""
groundtruth_dict = {
'annotations': self._groundtruth_list,
'images': [{'id': image_id} for image_id in self._image_ids],
'categories': self._categories
}
coco_wrapped_groundtruth = coco_tools.COCOWrapper(groundtruth_dict)
coco_wrapped_detections = coco_wrapped_groundtruth.LoadAnnotations(
self._detection_boxes_list)
box_evaluator = coco_tools.COCOEvalWrapper(
coco_wrapped_groundtruth, coco_wrapped_detections, agnostic_mode=False)
box_metrics, box_per_category_ap = box_evaluator.ComputeMetrics(
include_metrics_per_category=self._include_metrics_per_category,
all_metrics_per_category=self._all_metrics_per_category)
box_metrics.update(box_per_category_ap)
box_metrics = {'DetectionBoxes_'+ key: value
for key, value in iter(box_metrics.items())}
return box_metrics
def get_estimator_eval_metric_ops(self, image_id, groundtruth_boxes,
groundtruth_classes,
detection_boxes,
detection_scores, detection_classes,
groundtruth_is_crowd=None,
num_gt_boxes_per_image=None,
num_det_boxes_per_image=None):
"""Returns a dictionary of eval metric ops to use with `tf.EstimatorSpec`.
Note that once value_op is called, the detections and groundtruth added via
update_op are cleared.
This function can take in groundtruth and detections for a batch of images,
or for a single image. For the latter case, the batch dimension for input
tensors need not be present.
Args:
image_id: string/integer tensor of shape [batch] with unique identifiers
for the images.
groundtruth_boxes: float32 tensor of shape [batch, num_boxes, 4]
containing `num_boxes` groundtruth boxes of the format
[ymin, xmin, ymax, xmax] in absolute image coordinates.
groundtruth_classes: int32 tensor of shape [batch, num_boxes] containing
1-indexed groundtruth classes for the boxes.
detection_boxes: float32 tensor of shape [batch, num_boxes, 4] containing
`num_boxes` detection boxes of the format [ymin, xmin, ymax, xmax]
in absolute image coordinates.
detection_scores: float32 tensor of shape [batch, num_boxes] containing
detection scores for the boxes.
detection_classes: int32 tensor of shape [batch, num_boxes] containing
1-indexed detection classes for the boxes.
groundtruth_is_crowd: bool tensor of shape [batch, num_boxes] containing
is_crowd annotations. This field is optional, and if not passed, then
all boxes are treated as *not* is_crowd.
num_gt_boxes_per_image: int32 tensor of shape [batch] containing the
number of groundtruth boxes per image. If None, will assume no padding
in groundtruth tensors.
num_det_boxes_per_image: int32 tensor of shape [batch] containing the
number of detection boxes per image. If None, will assume no padding in
the detection tensors.
Returns:
a dictionary of metric names to tuple of value_op and update_op that can
be used as eval metric ops in tf.EstimatorSpec. Note that all update ops
must be run together and similarly all value ops must be run together to
guarantee correct behaviour.
"""
def update_op(
image_id_batched,
groundtruth_boxes_batched,
groundtruth_classes_batched,
groundtruth_is_crowd_batched,
num_gt_boxes_per_image,
detection_boxes_batched,
detection_scores_batched,
detection_classes_batched,
num_det_boxes_per_image):
"""Update operation for adding batch of images to Coco evaluator."""
for (image_id, gt_box, gt_class, gt_is_crowd, num_gt_box, det_box,
det_score, det_class, num_det_box) in zip(
image_id_batched, groundtruth_boxes_batched,
groundtruth_classes_batched, groundtruth_is_crowd_batched,
num_gt_boxes_per_image,
detection_boxes_batched, detection_scores_batched,
detection_classes_batched, num_det_boxes_per_image):
self.add_single_ground_truth_image_info(
image_id,
{'groundtruth_boxes': gt_box[:num_gt_box],
'groundtruth_classes': gt_class[:num_gt_box],
'groundtruth_is_crowd': gt_is_crowd[:num_gt_box]})
self.add_single_detected_image_info(
image_id,
{'detection_boxes': det_box[:num_det_box],
'detection_scores': det_score[:num_det_box],
'detection_classes': det_class[:num_det_box]})
if groundtruth_is_crowd is None:
groundtruth_is_crowd = tf.zeros_like(groundtruth_classes, dtype=tf.bool)
if not image_id.shape.as_list():
# Apply a batch dimension to all tensors.
image_id = tf.expand_dims(image_id, 0)
groundtruth_boxes = tf.expand_dims(groundtruth_boxes, 0)
groundtruth_classes = tf.expand_dims(groundtruth_classes, 0)
groundtruth_is_crowd = tf.expand_dims(groundtruth_is_crowd, 0)
detection_boxes = tf.expand_dims(detection_boxes, 0)
detection_scores = tf.expand_dims(detection_scores, 0)
detection_classes = tf.expand_dims(detection_classes, 0)
if num_gt_boxes_per_image is None:
num_gt_boxes_per_image = tf.shape(groundtruth_boxes)[1:2]
else:
num_gt_boxes_per_image = tf.expand_dims(num_gt_boxes_per_image, 0)
if num_det_boxes_per_image is None:
num_det_boxes_per_image = tf.shape(detection_boxes)[1:2]
else:
num_det_boxes_per_image = tf.expand_dims(num_det_boxes_per_image, 0)
else:
if num_gt_boxes_per_image is None:
num_gt_boxes_per_image = tf.tile(
tf.shape(groundtruth_boxes)[1:2],
multiples=tf.shape(groundtruth_boxes)[0:1])
if num_det_boxes_per_image is None:
num_det_boxes_per_image = tf.tile(
tf.shape(detection_boxes)[1:2],
multiples=tf.shape(detection_boxes)[0:1])
update_op = tf.py_func(update_op, [image_id,
groundtruth_boxes,
groundtruth_classes,
groundtruth_is_crowd,
num_gt_boxes_per_image,
detection_boxes,
detection_scores,
detection_classes,
num_det_boxes_per_image], [])
metric_names = ['DetectionBoxes_Precision/mAP',
'DetectionBoxes_Precision/[email protected]',
'DetectionBoxes_Precision/[email protected]',
'DetectionBoxes_Precision/mAP (large)',
'DetectionBoxes_Precision/mAP (medium)',
'DetectionBoxes_Precision/mAP (small)',
'DetectionBoxes_Recall/AR@1',
'DetectionBoxes_Recall/AR@10',
'DetectionBoxes_Recall/AR@100',
'DetectionBoxes_Recall/AR@100 (large)',
'DetectionBoxes_Recall/AR@100 (medium)',
'DetectionBoxes_Recall/AR@100 (small)']
if self._include_metrics_per_category:
for category_dict in self._categories:
metric_names.append('DetectionBoxes_PerformanceByCategory/mAP/' +
category_dict['name'])
def first_value_func():
self._metrics = self.evaluate()
self.clear()
return np.float32(self._metrics[metric_names[0]])
def value_func_factory(metric_name):
def value_func():
return np.float32(self._metrics[metric_name])
return value_func
# Ensure that the metrics are only evaluated once.
first_value_op = tf.py_func(first_value_func, [], tf.float32)
eval_metric_ops = {metric_names[0]: (first_value_op, update_op)}
with tf.control_dependencies([first_value_op]):
for metric_name in metric_names[1:]:
eval_metric_ops[metric_name] = (tf.py_func(
value_func_factory(metric_name), [], np.float32), update_op)
return eval_metric_ops
def _check_mask_type_and_value(array_name, masks):
"""Checks whether mask dtype is uint8 and the values are either 0 or 1."""
if masks.dtype != np.uint8:
raise ValueError('{} must be of type np.uint8. Found {}.'.format(
array_name, masks.dtype))
if np.any(np.logical_and(masks != 0, masks != 1)):
raise ValueError('{} elements can only be either 0 or 1.'.format(
array_name))
class CocoMaskEvaluator(object_detection_evaluation.DetectionEvaluator):
"""Class to evaluate COCO detection metrics."""
def __init__(self, categories, include_metrics_per_category=False):
"""Constructor.
Args:
categories: A list of dicts, each of which has the following keys -
'id': (required) an integer id uniquely identifying this category.
'name': (required) string representing category name e.g., 'cat', 'dog'.
include_metrics_per_category: If True, include metrics for each category.
"""
super(CocoMaskEvaluator, self).__init__(categories)
self._image_id_to_mask_shape_map = {}
self._image_ids_with_detections = set([])
self._groundtruth_list = []
self._detection_masks_list = []
self._category_id_set = set([cat['id'] for cat in self._categories])
self._annotation_id = 1
self._include_metrics_per_category = include_metrics_per_category
def clear(self):
"""Clears the state to prepare for a fresh evaluation."""
self._image_id_to_mask_shape_map.clear()
self._image_ids_with_detections.clear()
self._groundtruth_list = []
self._detection_masks_list = []
def add_single_ground_truth_image_info(self,
image_id,
groundtruth_dict):
"""Adds groundtruth for a single image to be used for evaluation.
If the image has already been added, a warning is logged, and groundtruth is
ignored.
Args:
image_id: A unique string/integer identifier for the image.
groundtruth_dict: A dictionary containing -
InputDataFields.groundtruth_boxes: float32 numpy array of shape
[num_boxes, 4] containing `num_boxes` groundtruth boxes of the format
[ymin, xmin, ymax, xmax] in absolute image coordinates.
InputDataFields.groundtruth_classes: integer numpy array of shape
[num_boxes] containing 1-indexed groundtruth classes for the boxes.
InputDataFields.groundtruth_instance_masks: uint8 numpy array of shape
[num_boxes, image_height, image_width] containing groundtruth masks
corresponding to the boxes. The elements of the array must be in
{0, 1}.
"""
if image_id in self._image_id_to_mask_shape_map:
tf.logging.warning('Ignoring ground truth with image id %s since it was '
'previously added', image_id)
return
groundtruth_instance_masks = groundtruth_dict[
standard_fields.InputDataFields.groundtruth_instance_masks]
_check_mask_type_and_value(standard_fields.InputDataFields.
groundtruth_instance_masks,
groundtruth_instance_masks)
self._groundtruth_list.extend(
coco_tools.
ExportSingleImageGroundtruthToCoco(
image_id=image_id,
next_annotation_id=self._annotation_id,
category_id_set=self._category_id_set,
groundtruth_boxes=groundtruth_dict[standard_fields.InputDataFields.
groundtruth_boxes],
groundtruth_classes=groundtruth_dict[standard_fields.
InputDataFields.
groundtruth_classes],
groundtruth_masks=groundtruth_instance_masks))
self._annotation_id += groundtruth_dict[standard_fields.InputDataFields.
groundtruth_boxes].shape[0]
self._image_id_to_mask_shape_map[image_id] = groundtruth_dict[
standard_fields.InputDataFields.groundtruth_instance_masks].shape
def add_single_detected_image_info(self,
image_id,
detections_dict):
"""Adds detections for a single image to be used for evaluation.
If a detection has already been added for this image id, a warning is
logged, and the detection is skipped.
Args:
image_id: A unique string/integer identifier for the image.
detections_dict: A dictionary containing -
DetectionResultFields.detection_scores: float32 numpy array of shape
[num_boxes] containing detection scores for the boxes.
DetectionResultFields.detection_classes: integer numpy array of shape
[num_boxes] containing 1-indexed detection classes for the boxes.
DetectionResultFields.detection_masks: optional uint8 numpy array of
shape [num_boxes, image_height, image_width] containing instance
masks corresponding to the boxes. The elements of the array must be
in {0, 1}.
Raises:
ValueError: If groundtruth for the image_id is not available or if
spatial shapes of groundtruth_instance_masks and detection_masks are
incompatible.
"""
if image_id not in self._image_id_to_mask_shape_map:
raise ValueError('Missing groundtruth for image id: {}'.format(image_id))
if image_id in self._image_ids_with_detections:
tf.logging.warning('Ignoring detection with image id %s since it was '
'previously added', image_id)
return
groundtruth_masks_shape = self._image_id_to_mask_shape_map[image_id]
detection_masks = detections_dict[standard_fields.DetectionResultFields.
detection_masks]
if groundtruth_masks_shape[1:] != detection_masks.shape[1:]:
raise ValueError('Spatial shape of groundtruth masks and detection masks '
'are incompatible: {} vs {}'.format(
groundtruth_masks_shape,
detection_masks.shape))
_check_mask_type_and_value(standard_fields.DetectionResultFields.
detection_masks,
detection_masks)
self._detection_masks_list.extend(
coco_tools.ExportSingleImageDetectionMasksToCoco(
image_id=image_id,
category_id_set=self._category_id_set,
detection_masks=detection_masks,
detection_scores=detections_dict[standard_fields.
DetectionResultFields.
detection_scores],
detection_classes=detections_dict[standard_fields.
DetectionResultFields.
detection_classes]))
self._image_ids_with_detections.update([image_id])
def evaluate(self):
"""Evaluates the detection masks and returns a dictionary of coco metrics.
Returns:
A dictionary holding -
1. summary_metrics:
'DetectionMasks_Precision/mAP': mean average precision over classes
averaged over IOU thresholds ranging from .5 to .95 with .05 increments.
'DetectionMasks_Precision/[email protected]': mean average precision at 50% IOU.
'DetectionMasks_Precision/[email protected]': mean average precision at 75% IOU.
'DetectionMasks_Precision/mAP (small)': mean average precision for small
objects (area < 32^2 pixels).
'DetectionMasks_Precision/mAP (medium)': mean average precision for medium
sized objects (32^2 pixels < area < 96^2 pixels).
'DetectionMasks_Precision/mAP (large)': mean average precision for large
objects (96^2 pixels < area < 10000^2 pixels).
'DetectionMasks_Recall/AR@1': average recall with 1 detection.
'DetectionMasks_Recall/AR@10': average recall with 10 detections.
'DetectionMasks_Recall/AR@100': average recall with 100 detections.
'DetectionMasks_Recall/AR@100 (small)': average recall for small objects
with 100 detections.
'DetectionMasks_Recall/AR@100 (medium)': average recall for medium objects
with 100 detections.
'DetectionMasks_Recall/AR@100 (large)': average recall for large objects
with 100 detections.
2. per_category_ap: if include_metrics_per_category is True, category
specific results with keys of the form:
'Precision mAP ByCategory/category' (without the supercategory part if
no supercategories exist). For backward compatibility
'PerformanceByCategory' is included in the output regardless of
all_metrics_per_category.
"""
groundtruth_dict = {
'annotations': self._groundtruth_list,
'images': [{'id': image_id, 'height': shape[1], 'width': shape[2]}
for image_id, shape in self._image_id_to_mask_shape_map.
iteritems()],
'categories': self._categories
}
coco_wrapped_groundtruth = coco_tools.COCOWrapper(
groundtruth_dict, detection_type='segmentation')
coco_wrapped_detection_masks = coco_wrapped_groundtruth.LoadAnnotations(
self._detection_masks_list)
mask_evaluator = coco_tools.COCOEvalWrapper(
coco_wrapped_groundtruth, coco_wrapped_detection_masks,
agnostic_mode=False, iou_type='segm')
mask_metrics, mask_per_category_ap = mask_evaluator.ComputeMetrics(
include_metrics_per_category=self._include_metrics_per_category)
mask_metrics.update(mask_per_category_ap)
mask_metrics = {'DetectionMasks_'+ key: value
for key, value in mask_metrics.iteritems()}
return mask_metrics
def get_estimator_eval_metric_ops(self, image_id, groundtruth_boxes,
groundtruth_classes,
groundtruth_instance_masks,
detection_scores, detection_classes,
detection_masks, groundtruth_is_crowd=None):
"""Returns a dictionary of eval metric ops to use with `tf.EstimatorSpec`.
Note that once value_op is called, the detections and groundtruth added via
update_op are cleared.
Args:
image_id: Unique string/integer identifier for the image.
groundtruth_boxes: float32 tensor of shape [num_boxes, 4] containing
`num_boxes` groundtruth boxes of the format
[ymin, xmin, ymax, xmax] in absolute image coordinates.
groundtruth_classes: int32 tensor of shape [num_boxes] containing
1-indexed groundtruth classes for the boxes.
groundtruth_instance_masks: uint8 tensor array of shape
[num_boxes, image_height, image_width] containing groundtruth masks
corresponding to the boxes. The elements of the array must be in {0, 1}.
detection_scores: float32 tensor of shape [num_boxes] containing
detection scores for the boxes.
detection_classes: int32 tensor of shape [num_boxes] containing
1-indexed detection classes for the boxes.
detection_masks: uint8 tensor array of shape
[num_boxes, image_height, image_width] containing instance masks
corresponding to the boxes. The elements of the array must be in {0, 1}.
groundtruth_is_crowd: bool tensor of shape [batch, num_boxes] containing
is_crowd annotations. This field is optional, and if not passed, then
all boxes are treated as *not* is_crowd.
Returns:
a dictionary of metric names to tuple of value_op and update_op that can
be used as eval metric ops in tf.EstimatorSpec. Note that all update ops
must be run together and similarly all value ops must be run together to
guarantee correct behaviour.
"""
def update_op(
image_id,
groundtruth_boxes,
groundtruth_classes,
groundtruth_instance_masks,
groundtruth_is_crowd,
detection_scores,
detection_classes,
detection_masks):
self.add_single_ground_truth_image_info(
image_id,
{'groundtruth_boxes': groundtruth_boxes,
'groundtruth_classes': groundtruth_classes,
'groundtruth_instance_masks': groundtruth_instance_masks,
'groundtruth_is_crowd': groundtruth_is_crowd})
self.add_single_detected_image_info(
image_id,
{'detection_scores': detection_scores,
'detection_classes': detection_classes,
'detection_masks': detection_masks})
if groundtruth_is_crowd is None:
groundtruth_is_crowd = tf.zeros_like(groundtruth_classes, dtype=tf.bool)
update_op = tf.py_func(update_op, [image_id,
groundtruth_boxes,
groundtruth_classes,
groundtruth_instance_masks,
groundtruth_is_crowd,
detection_scores,
detection_classes,
detection_masks], [])
metric_names = ['DetectionMasks_Precision/mAP',
'DetectionMasks_Precision/[email protected]',
'DetectionMasks_Precision/[email protected]',
'DetectionMasks_Precision/mAP (large)',
'DetectionMasks_Precision/mAP (medium)',
'DetectionMasks_Precision/mAP (small)',
'DetectionMasks_Recall/AR@1',
'DetectionMasks_Recall/AR@10',
'DetectionMasks_Recall/AR@100',
'DetectionMasks_Recall/AR@100 (large)',
'DetectionMasks_Recall/AR@100 (medium)',
'DetectionMasks_Recall/AR@100 (small)']
if self._include_metrics_per_category:
for category_dict in self._categories:
metric_names.append('DetectionMasks_PerformanceByCategory/mAP/' +
category_dict['name'])
def first_value_func():
self._metrics = self.evaluate()
self.clear()
return np.float32(self._metrics[metric_names[0]])
def value_func_factory(metric_name):
def value_func():
return np.float32(self._metrics[metric_name])
return value_func
# Ensure that the metrics are only evaluated once.
first_value_op = tf.py_func(first_value_func, [], tf.float32)
eval_metric_ops = {metric_names[0]: (first_value_op, update_op)}
with tf.control_dependencies([first_value_op]):
for metric_name in metric_names[1:]:
eval_metric_ops[metric_name] = (tf.py_func(
value_func_factory(metric_name), [], np.float32), update_op)
return eval_metric_ops
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