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evaluator.py
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evaluator.py
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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.
# ==============================================================================
"""Detection model evaluator.
This file provides a generic evaluation method that can be used to evaluate a
DetectionModel.
"""
import logging
import tensorflow as tf
from object_detection import eval_util
from object_detection.core import box_list
from object_detection.core import box_list_ops
from object_detection.core import prefetcher
from object_detection.core import standard_fields as fields
from object_detection.utils import ops
slim = tf.contrib.slim
EVAL_METRICS_FN_DICT = {
'pascal_voc_metrics': eval_util.evaluate_detection_results_pascal_voc
}
def _extract_prediction_tensors(model,
create_input_dict_fn,
ignore_groundtruth=False):
"""Restores the model in a tensorflow session.
Args:
model: model to perform predictions with.
create_input_dict_fn: function to create input tensor dictionaries.
ignore_groundtruth: whether groundtruth should be ignored.
Returns:
tensor_dict: A tensor dictionary with evaluations.
"""
input_dict = create_input_dict_fn()
prefetch_queue = prefetcher.prefetch(input_dict, capacity=500)
input_dict = prefetch_queue.dequeue()
original_image = tf.expand_dims(input_dict[fields.InputDataFields.image], 0)
preprocessed_image = model.preprocess(tf.to_float(original_image))
prediction_dict = model.predict(preprocessed_image)
detections = model.postprocess(prediction_dict)
original_image_shape = tf.shape(original_image)
absolute_detection_boxlist = box_list_ops.to_absolute_coordinates(
box_list.BoxList(tf.squeeze(detections['detection_boxes'], axis=0)),
original_image_shape[1], original_image_shape[2])
label_id_offset = 1
tensor_dict = {
'original_image': original_image,
'image_id': input_dict[fields.InputDataFields.source_id],
'detection_boxes': absolute_detection_boxlist.get(),
'detection_scores': tf.squeeze(detections['detection_scores'], axis=0),
'detection_classes': (
tf.squeeze(detections['detection_classes'], axis=0) +
label_id_offset),
}
if 'detection_masks' in detections:
detection_masks = tf.squeeze(detections['detection_masks'],
axis=0)
detection_boxes = tf.squeeze(detections['detection_boxes'],
axis=0)
# TODO: This should be done in model's postprocess function ideally.
detection_masks_reframed = ops.reframe_box_masks_to_image_masks(
detection_masks,
detection_boxes,
original_image_shape[1], original_image_shape[2])
detection_masks_reframed = tf.to_float(tf.greater(detection_masks_reframed,
0.5))
tensor_dict['detection_masks'] = detection_masks_reframed
# load groundtruth fields into tensor_dict
if not ignore_groundtruth:
normalized_gt_boxlist = box_list.BoxList(
input_dict[fields.InputDataFields.groundtruth_boxes])
gt_boxlist = box_list_ops.scale(normalized_gt_boxlist,
tf.shape(original_image)[1],
tf.shape(original_image)[2])
groundtruth_boxes = gt_boxlist.get()
groundtruth_classes = input_dict[fields.InputDataFields.groundtruth_classes]
tensor_dict['groundtruth_boxes'] = groundtruth_boxes
tensor_dict['groundtruth_classes'] = groundtruth_classes
tensor_dict['area'] = input_dict[fields.InputDataFields.groundtruth_area]
tensor_dict['is_crowd'] = input_dict[
fields.InputDataFields.groundtruth_is_crowd]
tensor_dict['difficult'] = input_dict[
fields.InputDataFields.groundtruth_difficult]
if 'detection_masks' in tensor_dict:
tensor_dict['groundtruth_instance_masks'] = input_dict[
fields.InputDataFields.groundtruth_instance_masks]
return tensor_dict
def evaluate(create_input_dict_fn, create_model_fn, eval_config, categories,
checkpoint_dir, eval_dir):
"""Evaluation function for detection models.
Args:
create_input_dict_fn: a function to create a tensor input dictionary.
create_model_fn: a function that creates a DetectionModel.
eval_config: a eval_pb2.EvalConfig protobuf.
categories: a list of category dictionaries. Each dict in the list should
have an integer 'id' field and string 'name' field.
checkpoint_dir: directory to load the checkpoints to evaluate from.
eval_dir: directory to write evaluation metrics summary to.
"""
model = create_model_fn()
if eval_config.ignore_groundtruth and not eval_config.export_path:
logging.fatal('If ignore_groundtruth=True then an export_path is '
'required. Aborting!!!')
tensor_dict = _extract_prediction_tensors(
model=model,
create_input_dict_fn=create_input_dict_fn,
ignore_groundtruth=eval_config.ignore_groundtruth)
def _process_batch(tensor_dict, sess, batch_index, counters, update_op):
"""Evaluates tensors in tensor_dict, visualizing the first K examples.
This function calls sess.run on tensor_dict, evaluating the original_image
tensor only on the first K examples and visualizing detections overlaid
on this original_image.
Args:
tensor_dict: a dictionary of tensors
sess: tensorflow session
batch_index: the index of the batch amongst all batches in the run.
counters: a dictionary holding 'success' and 'skipped' fields which can
be updated to keep track of number of successful and failed runs,
respectively. If these fields are not updated, then the success/skipped
counter values shown at the end of evaluation will be incorrect.
update_op: An update op that has to be run along with output tensors. For
example this could be an op to compute statistics for slim metrics.
Returns:
result_dict: a dictionary of numpy arrays
"""
if batch_index >= eval_config.num_visualizations:
if 'original_image' in tensor_dict:
tensor_dict = {k: v for (k, v) in tensor_dict.items()
if k != 'original_image'}
try:
(result_dict, _) = sess.run([tensor_dict, update_op])
counters['success'] += 1
except tf.errors.InvalidArgumentError:
logging.info('Skipping image')
counters['skipped'] += 1
return {}
global_step = tf.train.global_step(sess, slim.get_global_step())
if batch_index < eval_config.num_visualizations:
tag = 'image-{}'.format(batch_index)
eval_util.visualize_detection_results(
result_dict, tag, global_step, categories=categories,
summary_dir=eval_dir,
export_dir=eval_config.visualization_export_dir,
show_groundtruth=eval_config.visualization_export_dir)
return result_dict
def _process_aggregated_results(result_lists):
eval_metric_fn_key = eval_config.metrics_set
if eval_metric_fn_key not in EVAL_METRICS_FN_DICT:
raise ValueError('Metric not found: {}'.format(eval_metric_fn_key))
return EVAL_METRICS_FN_DICT[eval_metric_fn_key](result_lists,
categories=categories)
variables_to_restore = tf.global_variables()
global_step = slim.get_or_create_global_step()
variables_to_restore.append(global_step)
if eval_config.use_moving_averages:
variable_averages = tf.train.ExponentialMovingAverage(0.0)
variables_to_restore = variable_averages.variables_to_restore()
saver = tf.train.Saver(variables_to_restore)
def _restore_latest_checkpoint(sess):
latest_checkpoint = tf.train.latest_checkpoint(checkpoint_dir)
saver.restore(sess, latest_checkpoint)
eval_util.repeated_checkpoint_run(
tensor_dict=tensor_dict,
update_op=tf.no_op(),
summary_dir=eval_dir,
aggregated_result_processor=_process_aggregated_results,
batch_processor=_process_batch,
checkpoint_dirs=[checkpoint_dir],
variables_to_restore=None,
restore_fn=_restore_latest_checkpoint,
num_batches=eval_config.num_examples,
eval_interval_secs=eval_config.eval_interval_secs,
max_number_of_evaluations=(
1 if eval_config.ignore_groundtruth else
eval_config.max_evals if eval_config.max_evals else
None),
master=eval_config.eval_master,
save_graph=eval_config.save_graph,
save_graph_dir=(eval_dir if eval_config.save_graph else ''))