research/slim/datasets/imagenet.py
# Copyright 2016 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
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# 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.
# ==============================================================================
"""Provides data for the ImageNet ILSVRC 2012 Dataset plus some bounding boxes.
Some images have one or more bounding boxes associated with the label of the
image. See details here: http://image-net.org/download-bboxes
ImageNet is based upon WordNet 3.0. To uniquely identify a synset, we use
"WordNet ID" (wnid), which is a concatenation of POS ( i.e. part of speech )
and SYNSET OFFSET of WordNet. For more information, please refer to the
WordNet documentation[http://wordnet.princeton.edu/wordnet/documentation/].
"There are bounding boxes for over 3000 popular synsets available.
For each synset, there are on average 150 images with bounding boxes."
WARNING: Don't use for object detection, in this case all the bounding boxes
of the image belong to just one class.
"""
from __future__ import absolute_import
from __future__ import division
from __future__ import print_function
import os
from six.moves import urllib
import tensorflow.compat.v1 as tf
import tf_slim as slim
from datasets import dataset_utils
# TODO(nsilberman): Add tfrecord file type once the script is updated.
_FILE_PATTERN = '%s-*'
_SPLITS_TO_SIZES = {
'train': 1281167,
'validation': 50000,
}
_ITEMS_TO_DESCRIPTIONS = {
'image': 'A color image of varying height and width.',
'label': 'The label id of the image, integer between 0 and 999',
'label_text': 'The text of the label.',
'object/bbox': 'A list of bounding boxes.',
'object/label': 'A list of labels, one per each object.',
}
_NUM_CLASSES = 1001
# If set to false, will not try to set label_to_names in dataset
# by reading them from labels.txt or github.
LOAD_READABLE_NAMES = True
def create_readable_names_for_imagenet_labels():
"""Create a dict mapping label id to human readable string.
Returns:
labels_to_names: dictionary where keys are integers from to 1000
and values are human-readable names.
We retrieve a synset file, which contains a list of valid synset labels used
by ILSVRC competition. There is one synset one per line, eg.
# n01440764
# n01443537
We also retrieve a synset_to_human_file, which contains a mapping from synsets
to human-readable names for every synset in Imagenet. These are stored in a
tsv format, as follows:
# n02119247 black fox
# n02119359 silver fox
We assign each synset (in alphabetical order) an integer, starting from 1
(since 0 is reserved for the background class).
Code is based on
https://github.com/tensorflow/models/blob/master/research/inception/inception/data/build_imagenet_data.py#L463
"""
# pylint: disable=g-line-too-long
base_url = 'https://raw.githubusercontent.com/tensorflow/models/master/research/slim/datasets/'
synset_url = '{}/imagenet_lsvrc_2015_synsets.txt'.format(base_url)
synset_to_human_url = '{}/imagenet_metadata.txt'.format(base_url)
filename, _ = urllib.request.urlretrieve(synset_url)
synset_list = [s.strip() for s in open(filename).readlines()]
num_synsets_in_ilsvrc = len(synset_list)
assert num_synsets_in_ilsvrc == 1000
filename, _ = urllib.request.urlretrieve(synset_to_human_url)
synset_to_human_list = open(filename).readlines()
num_synsets_in_all_imagenet = len(synset_to_human_list)
assert num_synsets_in_all_imagenet == 21842
synset_to_human = {}
for s in synset_to_human_list:
parts = s.strip().split('\t')
assert len(parts) == 2
synset = parts[0]
human = parts[1]
synset_to_human[synset] = human
label_index = 1
labels_to_names = {0: 'background'}
for synset in synset_list:
name = synset_to_human[synset]
labels_to_names[label_index] = name
label_index += 1
return labels_to_names
def get_split(split_name, dataset_dir, file_pattern=None, reader=None):
"""Gets a dataset tuple with instructions for reading ImageNet.
Args:
split_name: A train/test split name.
dataset_dir: The base directory of the dataset sources.
file_pattern: The file pattern to use when matching the dataset sources.
It is assumed that the pattern contains a '%s' string so that the split
name can be inserted.
reader: The TensorFlow reader type.
Returns:
A `Dataset` namedtuple.
Raises:
ValueError: if `split_name` is not a valid train/test split.
"""
if split_name not in _SPLITS_TO_SIZES:
raise ValueError('split name %s was not recognized.' % split_name)
if not file_pattern:
file_pattern = _FILE_PATTERN
file_pattern = os.path.join(dataset_dir, file_pattern % split_name)
# Allowing None in the signature so that dataset_factory can use the default.
if reader is None:
reader = tf.TFRecordReader
keys_to_features = {
'image/encoded': tf.FixedLenFeature(
(), tf.string, default_value=''),
'image/format': tf.FixedLenFeature(
(), tf.string, default_value='jpeg'),
'image/class/label': tf.FixedLenFeature(
[], dtype=tf.int64, default_value=-1),
'image/class/text': tf.FixedLenFeature(
[], dtype=tf.string, default_value=''),
'image/object/bbox/xmin': tf.VarLenFeature(
dtype=tf.float32),
'image/object/bbox/ymin': tf.VarLenFeature(
dtype=tf.float32),
'image/object/bbox/xmax': tf.VarLenFeature(
dtype=tf.float32),
'image/object/bbox/ymax': tf.VarLenFeature(
dtype=tf.float32),
'image/object/class/label': tf.VarLenFeature(
dtype=tf.int64),
}
items_to_handlers = {
'image': slim.tfexample_decoder.Image('image/encoded', 'image/format'),
'label': slim.tfexample_decoder.Tensor('image/class/label'),
'label_text': slim.tfexample_decoder.Tensor('image/class/text'),
'object/bbox': slim.tfexample_decoder.BoundingBox(
['ymin', 'xmin', 'ymax', 'xmax'], 'image/object/bbox/'),
'object/label': slim.tfexample_decoder.Tensor('image/object/class/label'),
}
decoder = slim.tfexample_decoder.TFExampleDecoder(
keys_to_features, items_to_handlers)
labels_to_names = None
if LOAD_READABLE_NAMES:
if dataset_utils.has_labels(dataset_dir):
labels_to_names = dataset_utils.read_label_file(dataset_dir)
else:
labels_to_names = create_readable_names_for_imagenet_labels()
dataset_utils.write_label_file(labels_to_names, dataset_dir)
return slim.dataset.Dataset(
data_sources=file_pattern,
reader=reader,
decoder=decoder,
num_samples=_SPLITS_TO_SIZES[split_name],
items_to_descriptions=_ITEMS_TO_DESCRIPTIONS,
num_classes=_NUM_CLASSES,
labels_to_names=labels_to_names)