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eval.py
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eval.py
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# Lint as: python2, python3
# Copyright 2018 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.
# ==============================================================================
"""Evaluation script for the DeepLab model.
See model.py for more details and usage.
"""
import numpy as np
import six
import tensorflow as tf
from tensorflow.contrib import metrics as contrib_metrics
from tensorflow.contrib import quantize as contrib_quantize
from tensorflow.contrib import tfprof as contrib_tfprof
from tensorflow.contrib import training as contrib_training
from deeplab import common
from deeplab import model
from deeplab.datasets import data_generator
flags = tf.app.flags
FLAGS = flags.FLAGS
flags.DEFINE_string('master', '', 'BNS name of the tensorflow server')
# Settings for log directories.
flags.DEFINE_string('eval_logdir', None, 'Where to write the event logs.')
flags.DEFINE_string('checkpoint_dir', None, 'Directory of model checkpoints.')
# Settings for evaluating the model.
flags.DEFINE_integer('eval_batch_size', 1,
'The number of images in each batch during evaluation.')
flags.DEFINE_list('eval_crop_size', '513,513',
'Image crop size [height, width] for evaluation.')
flags.DEFINE_integer('eval_interval_secs', 60 * 5,
'How often (in seconds) to run evaluation.')
# For `xception_65`, use atrous_rates = [12, 24, 36] if output_stride = 8, or
# rates = [6, 12, 18] if output_stride = 16. For `mobilenet_v2`, use None. Note
# one could use different atrous_rates/output_stride during training/evaluation.
flags.DEFINE_multi_integer('atrous_rates', None,
'Atrous rates for atrous spatial pyramid pooling.')
flags.DEFINE_integer('output_stride', 16,
'The ratio of input to output spatial resolution.')
# Change to [0.5, 0.75, 1.0, 1.25, 1.5, 1.75] for multi-scale test.
flags.DEFINE_multi_float('eval_scales', [1.0],
'The scales to resize images for evaluation.')
# Change to True for adding flipped images during test.
flags.DEFINE_bool('add_flipped_images', False,
'Add flipped images for evaluation or not.')
flags.DEFINE_integer(
'quantize_delay_step', -1,
'Steps to start quantized training. If < 0, will not quantize model.')
# Dataset settings.
flags.DEFINE_string('dataset', 'pascal_voc_seg',
'Name of the segmentation dataset.')
flags.DEFINE_string('eval_split', 'val',
'Which split of the dataset used for evaluation')
flags.DEFINE_string('dataset_dir', None, 'Where the dataset reside.')
flags.DEFINE_integer('max_number_of_evaluations', 0,
'Maximum number of eval iterations. Will loop '
'indefinitely upon nonpositive values.')
def main(unused_argv):
tf.logging.set_verbosity(tf.logging.INFO)
dataset = data_generator.Dataset(
dataset_name=FLAGS.dataset,
split_name=FLAGS.eval_split,
dataset_dir=FLAGS.dataset_dir,
batch_size=FLAGS.eval_batch_size,
crop_size=[int(sz) for sz in FLAGS.eval_crop_size],
min_resize_value=FLAGS.min_resize_value,
max_resize_value=FLAGS.max_resize_value,
resize_factor=FLAGS.resize_factor,
model_variant=FLAGS.model_variant,
num_readers=2,
is_training=False,
should_shuffle=False,
should_repeat=False)
tf.gfile.MakeDirs(FLAGS.eval_logdir)
tf.logging.info('Evaluating on %s set', FLAGS.eval_split)
with tf.Graph().as_default():
samples = dataset.get_one_shot_iterator().get_next()
model_options = common.ModelOptions(
outputs_to_num_classes={common.OUTPUT_TYPE: dataset.num_of_classes},
crop_size=[int(sz) for sz in FLAGS.eval_crop_size],
atrous_rates=FLAGS.atrous_rates,
output_stride=FLAGS.output_stride)
# Set shape in order for tf.contrib.tfprof.model_analyzer to work properly.
samples[common.IMAGE].set_shape(
[FLAGS.eval_batch_size,
int(FLAGS.eval_crop_size[0]),
int(FLAGS.eval_crop_size[1]),
3])
if tuple(FLAGS.eval_scales) == (1.0,):
tf.logging.info('Performing single-scale test.')
predictions = model.predict_labels(samples[common.IMAGE], model_options,
image_pyramid=FLAGS.image_pyramid)
else:
tf.logging.info('Performing multi-scale test.')
if FLAGS.quantize_delay_step >= 0:
raise ValueError(
'Quantize mode is not supported with multi-scale test.')
predictions = model.predict_labels_multi_scale(
samples[common.IMAGE],
model_options=model_options,
eval_scales=FLAGS.eval_scales,
add_flipped_images=FLAGS.add_flipped_images)
predictions = predictions[common.OUTPUT_TYPE]
predictions = tf.reshape(predictions, shape=[-1])
labels = tf.reshape(samples[common.LABEL], shape=[-1])
weights = tf.to_float(tf.not_equal(labels, dataset.ignore_label))
# Set ignore_label regions to label 0, because metrics.mean_iou requires
# range of labels = [0, dataset.num_classes). Note the ignore_label regions
# are not evaluated since the corresponding regions contain weights = 0.
labels = tf.where(
tf.equal(labels, dataset.ignore_label), tf.zeros_like(labels), labels)
predictions_tag = 'miou'
for eval_scale in FLAGS.eval_scales:
predictions_tag += '_' + str(eval_scale)
if FLAGS.add_flipped_images:
predictions_tag += '_flipped'
# Define the evaluation metric.
metric_map = {}
num_classes = dataset.num_of_classes
metric_map['eval/%s_overall' % predictions_tag] = tf.metrics.mean_iou(
labels=labels, predictions=predictions, num_classes=num_classes,
weights=weights)
# IoU for each class.
one_hot_predictions = tf.one_hot(predictions, num_classes)
one_hot_predictions = tf.reshape(one_hot_predictions, [-1, num_classes])
one_hot_labels = tf.one_hot(labels, num_classes)
one_hot_labels = tf.reshape(one_hot_labels, [-1, num_classes])
for c in range(num_classes):
predictions_tag_c = '%s_class_%d' % (predictions_tag, c)
tp, tp_op = tf.metrics.true_positives(
labels=one_hot_labels[:, c], predictions=one_hot_predictions[:, c],
weights=weights)
fp, fp_op = tf.metrics.false_positives(
labels=one_hot_labels[:, c], predictions=one_hot_predictions[:, c],
weights=weights)
fn, fn_op = tf.metrics.false_negatives(
labels=one_hot_labels[:, c], predictions=one_hot_predictions[:, c],
weights=weights)
tp_fp_fn_op = tf.group(tp_op, fp_op, fn_op)
iou = tf.where(tf.greater(tp + fn, 0.0),
tp / (tp + fn + fp),
tf.constant(np.NaN))
metric_map['eval/%s' % predictions_tag_c] = (iou, tp_fp_fn_op)
(metrics_to_values,
metrics_to_updates) = contrib_metrics.aggregate_metric_map(metric_map)
summary_ops = []
for metric_name, metric_value in six.iteritems(metrics_to_values):
op = tf.summary.scalar(metric_name, metric_value)
op = tf.Print(op, [metric_value], metric_name)
summary_ops.append(op)
summary_op = tf.summary.merge(summary_ops)
summary_hook = contrib_training.SummaryAtEndHook(
log_dir=FLAGS.eval_logdir, summary_op=summary_op)
hooks = [summary_hook]
num_eval_iters = None
if FLAGS.max_number_of_evaluations > 0:
num_eval_iters = FLAGS.max_number_of_evaluations
if FLAGS.quantize_delay_step >= 0:
contrib_quantize.create_eval_graph()
contrib_tfprof.model_analyzer.print_model_analysis(
tf.get_default_graph(),
tfprof_options=contrib_tfprof.model_analyzer
.TRAINABLE_VARS_PARAMS_STAT_OPTIONS)
contrib_tfprof.model_analyzer.print_model_analysis(
tf.get_default_graph(),
tfprof_options=contrib_tfprof.model_analyzer.FLOAT_OPS_OPTIONS)
contrib_training.evaluate_repeatedly(
checkpoint_dir=FLAGS.checkpoint_dir,
master=FLAGS.master,
eval_ops=list(metrics_to_updates.values()),
max_number_of_evaluations=num_eval_iters,
hooks=hooks,
eval_interval_secs=FLAGS.eval_interval_secs)
if __name__ == '__main__':
flags.mark_flag_as_required('checkpoint_dir')
flags.mark_flag_as_required('eval_logdir')
flags.mark_flag_as_required('dataset_dir')
tf.app.run()