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dataset_utils.py
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dataset_utils.py
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import math
import os
import sys
import tensorflow as tf
slim = tf.contrib.slim
#State the labels filename
LABELS_FILENAME = 'labels.txt'
#=================================================== Dataset Utils ===================================================
def int64_feature(values):
"""Returns a TF-Feature of int64s.
Args:
values: A scalar or list of values.
Returns:
a TF-Feature.
"""
if not isinstance(values, (tuple, list)):
values = [values]
return tf.train.Feature(int64_list=tf.train.Int64List(value=values))
def bytes_feature(values):
"""Returns a TF-Feature of bytes.
Args:
values: A string.
Returns:
a TF-Feature.
"""
return tf.train.Feature(bytes_list=tf.train.BytesList(value=[values]))
def image_to_tfexample(image_data, image_format, height, width, class_id):
return tf.train.Example(features=tf.train.Features(feature={
'image/encoded': bytes_feature(image_data),
'image/format': bytes_feature(image_format),
'image/class/label': int64_feature(class_id),
'image/height': int64_feature(height),
'image/width': int64_feature(width),
}))
def write_label_file(labels_to_class_names, dataset_dir,
filename=LABELS_FILENAME):
"""Writes a file with the list of class names.
Args:
labels_to_class_names: A map of (integer) labels to class names.
dataset_dir: The directory in which the labels file should be written.
filename: The filename where the class names are written.
"""
labels_filename = os.path.join(dataset_dir, filename)
with tf.gfile.Open(labels_filename, 'w') as f:
for label in labels_to_class_names:
class_name = labels_to_class_names[label]
f.write('%d:%s\n' % (label, class_name))
def has_labels(dataset_dir, filename=LABELS_FILENAME):
"""Specifies whether or not the dataset directory contains a label map file.
Args:
dataset_dir: The directory in which the labels file is found.
filename: The filename where the class names are written.
Returns:
`True` if the labels file exists and `False` otherwise.
"""
return tf.gfile.Exists(os.path.join(dataset_dir, filename))
def read_label_file(dataset_dir, filename=LABELS_FILENAME):
"""Reads the labels file and returns a mapping from ID to class name.
Args:
dataset_dir: The directory in which the labels file is found.
filename: The filename where the class names are written.
Returns:
A map from a label (integer) to class name.
"""
labels_filename = os.path.join(dataset_dir, filename)
with tf.gfile.Open(labels_filename, 'r') as f:
lines = f.read().decode()
lines = lines.split('\n')
lines = filter(None, lines)
labels_to_class_names = {}
for line in lines:
index = line.index(':')
labels_to_class_names[int(line[:index])] = line[index+1:]
return labels_to_class_names
#======================================= Conversion Utils ===================================================
#Create an image reader object for easy reading of the images
class ImageReader(object):
"""Helper class that provides TensorFlow image coding utilities."""
def __init__(self):
# Initializes function that decodes RGB JPEG data.
self._decode_jpeg_data = tf.placeholder(dtype=tf.string)
self._decode_jpeg = tf.image.decode_jpeg(self._decode_jpeg_data, channels=3)
def read_image_dims(self, sess, image_data):
image = self.decode_jpeg(sess, image_data)
return image.shape[0], image.shape[1]
def decode_jpeg(self, sess, image_data):
image = sess.run(self._decode_jpeg,
feed_dict={self._decode_jpeg_data: image_data})
assert len(image.shape) == 3
assert image.shape[2] == 3
return image
def _get_filenames_and_classes(dataset_dir):
"""Returns a list of filenames and inferred class names.
Args:
dataset_dir: A directory containing a set of subdirectories representing
class names. Each subdirectory should contain PNG or JPG encoded images.
Returns:
A list of image file paths, relative to `dataset_dir` and the list of
subdirectories, representing class names.
"""
# print 'DATASET DIR:', dataset_dir
# print 'subdir:', [name for name in os.listdir(dataset_dir)]
# dataset_main_folder_list = []
# for name in os.listdir(dataset_dir):
# if os.path.isdir(name):
# dataset_main_folder_list.append(name)
dataset_main_folder_list = [name for name in os.listdir(dataset_dir) if os.path.isdir(os.path.join(dataset_dir,name))]
dataset_root = os.path.join(dataset_dir, dataset_main_folder_list[0])
directories = []
class_names = []
for filename in os.listdir(dataset_root):
path = os.path.join(dataset_root, filename)
if os.path.isdir(path):
directories.append(path)
class_names.append(filename)
photo_filenames = []
for directory in directories:
for filename in os.listdir(directory):
path = os.path.join(directory, filename)
photo_filenames.append(path)
return photo_filenames, sorted(class_names)
def _get_dataset_filename(dataset_dir, split_name, shard_id, tfrecord_filename, _NUM_SHARDS):
output_filename = '%s_%s_%05d-of-%05d.tfrecord' % (
tfrecord_filename, split_name, shard_id, _NUM_SHARDS)
return os.path.join(dataset_dir, output_filename)
def _convert_dataset(split_name, filenames, class_names_to_ids, dataset_dir, tfrecord_filename, _NUM_SHARDS):
"""Converts the given filenames to a TFRecord dataset.
Args:
split_name: The name of the dataset, either 'train' or 'validation'.
filenames: A list of absolute paths to png or jpg images.
class_names_to_ids: A dictionary from class names (strings) to ids
(integers).
dataset_dir: The directory where the converted datasets are stored.
"""
assert split_name in ['train', 'validation']
num_per_shard = int(math.ceil(len(filenames) / float(_NUM_SHARDS)))
with tf.Graph().as_default():
image_reader = ImageReader()
with tf.Session('') as sess:
for shard_id in range(_NUM_SHARDS):
output_filename = _get_dataset_filename(
dataset_dir, split_name, shard_id, tfrecord_filename = tfrecord_filename, _NUM_SHARDS = _NUM_SHARDS)
with tf.python_io.TFRecordWriter(output_filename) as tfrecord_writer:
start_ndx = shard_id * num_per_shard
end_ndx = min((shard_id+1) * num_per_shard, len(filenames))
for i in range(start_ndx, end_ndx):
sys.stdout.write('\r>> Converting image %d/%d shard %d' % (
i+1, len(filenames), shard_id))
sys.stdout.flush()
# Read the filename:
image_data = tf.gfile.FastGFile(filenames[i], 'r').read()
height, width = image_reader.read_image_dims(sess, image_data)
class_name = os.path.basename(os.path.dirname(filenames[i]))
class_id = class_names_to_ids[class_name]
example = image_to_tfexample(
image_data, 'jpg', height, width, class_id)
tfrecord_writer.write(example.SerializeToString())
sys.stdout.write('\n')
sys.stdout.flush()
def _dataset_exists(dataset_dir, _NUM_SHARDS, output_filename):
for split_name in ['train', 'validation']:
for shard_id in range(_NUM_SHARDS):
tfrecord_filename = _get_dataset_filename(
dataset_dir, split_name, shard_id, output_filename, _NUM_SHARDS)
if not tf.gfile.Exists(tfrecord_filename):
return False
return True