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dataset_tool.py
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dataset_tool.py
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# Copyright (c) 2019, NVIDIA CORPORATION. All rights reserved.
#
# This work is licensed under the Creative Commons Attribution-NonCommercial
# 4.0 International License. To view a copy of this license, visit
# http://creativecommons.org/licenses/by-nc/4.0/ or send a letter to
# Creative Commons, PO Box 1866, Mountain View, CA 94042, USA.
"""Tool for creating multi-resolution TFRecords datasets for StyleGAN and ProGAN."""
# pylint: disable=too-many-lines
import os
import sys
import glob
import argparse
import threading
import six.moves.queue as Queue # pylint: disable=import-error
import traceback
import numpy as np
import tensorflow as tf
import PIL.Image
import dnnlib.tflib as tflib
from training import dataset
#----------------------------------------------------------------------------
def error(msg):
print('Error: ' + msg)
exit(1)
#----------------------------------------------------------------------------
class TFRecordExporter:
def __init__(self, tfrecord_dir, expected_images, print_progress=True, progress_interval=10):
self.tfrecord_dir = tfrecord_dir
self.tfr_prefix = os.path.join(self.tfrecord_dir, os.path.basename(self.tfrecord_dir))
self.expected_images = expected_images
self.cur_images = 0
self.shape = None
self.resolution_log2 = None
self.tfr_writers = []
self.print_progress = print_progress
self.progress_interval = progress_interval
if self.print_progress:
print('Creating dataset "%s"' % tfrecord_dir)
if not os.path.isdir(self.tfrecord_dir):
os.makedirs(self.tfrecord_dir)
assert os.path.isdir(self.tfrecord_dir)
def close(self):
if self.print_progress:
print('%-40s\r' % 'Flushing data...', end='', flush=True)
for tfr_writer in self.tfr_writers:
tfr_writer.close()
self.tfr_writers = []
if self.print_progress:
print('%-40s\r' % '', end='', flush=True)
print('Added %d images.' % self.cur_images)
def choose_shuffled_order(self): # Note: Images and labels must be added in shuffled order.
order = np.arange(self.expected_images)
np.random.RandomState(123).shuffle(order)
return order
def add_image(self, img):
if self.print_progress and self.cur_images % self.progress_interval == 0:
print('%d / %d\r' % (self.cur_images, self.expected_images), end='', flush=True)
if self.shape is None:
self.shape = img.shape
self.resolution_log2 = int(np.log2(self.shape[1]))
assert self.shape[0] in [1, 3]
assert self.shape[1] == self.shape[2]
assert self.shape[1] == 2**self.resolution_log2
tfr_opt = tf.python_io.TFRecordOptions(tf.python_io.TFRecordCompressionType.NONE)
for lod in range(self.resolution_log2 - 1):
tfr_file = self.tfr_prefix + '-r%02d.tfrecords' % (self.resolution_log2 - lod)
self.tfr_writers.append(tf.python_io.TFRecordWriter(tfr_file, tfr_opt))
assert img.shape == self.shape
for lod, tfr_writer in enumerate(self.tfr_writers):
if lod:
img = img.astype(np.float32)
img = (img[:, 0::2, 0::2] + img[:, 0::2, 1::2] + img[:, 1::2, 0::2] + img[:, 1::2, 1::2]) * 0.25
quant = np.rint(img).clip(0, 255).astype(np.uint8)
ex = tf.train.Example(features=tf.train.Features(feature={
'shape': tf.train.Feature(int64_list=tf.train.Int64List(value=quant.shape)),
'data': tf.train.Feature(bytes_list=tf.train.BytesList(value=[quant.tostring()]))}))
tfr_writer.write(ex.SerializeToString())
self.cur_images += 1
def add_labels(self, labels):
if self.print_progress:
print('%-40s\r' % 'Saving labels...', end='', flush=True)
assert labels.shape[0] == self.cur_images
with open(self.tfr_prefix + '-rxx.labels', 'wb') as f:
np.save(f, labels.astype(np.float32))
def __enter__(self):
return self
def __exit__(self, *args):
self.close()
#----------------------------------------------------------------------------
class ExceptionInfo(object):
def __init__(self):
self.value = sys.exc_info()[1]
self.traceback = traceback.format_exc()
#----------------------------------------------------------------------------
class WorkerThread(threading.Thread):
def __init__(self, task_queue):
threading.Thread.__init__(self)
self.task_queue = task_queue
def run(self):
while True:
func, args, result_queue = self.task_queue.get()
if func is None:
break
try:
result = func(*args)
except:
result = ExceptionInfo()
result_queue.put((result, args))
#----------------------------------------------------------------------------
class ThreadPool(object):
def __init__(self, num_threads):
assert num_threads >= 1
self.task_queue = Queue.Queue()
self.result_queues = dict()
self.num_threads = num_threads
for _idx in range(self.num_threads):
thread = WorkerThread(self.task_queue)
thread.daemon = True
thread.start()
def add_task(self, func, args=()):
assert hasattr(func, '__call__') # must be a function
if func not in self.result_queues:
self.result_queues[func] = Queue.Queue()
self.task_queue.put((func, args, self.result_queues[func]))
def get_result(self, func): # returns (result, args)
result, args = self.result_queues[func].get()
if isinstance(result, ExceptionInfo):
print('\n\nWorker thread caught an exception:\n' + result.traceback)
raise result.value
return result, args
def finish(self):
for _idx in range(self.num_threads):
self.task_queue.put((None, (), None))
def __enter__(self): # for 'with' statement
return self
def __exit__(self, *excinfo):
self.finish()
def process_items_concurrently(self, item_iterator, process_func=lambda x: x, pre_func=lambda x: x, post_func=lambda x: x, max_items_in_flight=None):
if max_items_in_flight is None: max_items_in_flight = self.num_threads * 4
assert max_items_in_flight >= 1
results = []
retire_idx = [0]
def task_func(prepared, _idx):
return process_func(prepared)
def retire_result():
processed, (_prepared, idx) = self.get_result(task_func)
results[idx] = processed
while retire_idx[0] < len(results) and results[retire_idx[0]] is not None:
yield post_func(results[retire_idx[0]])
results[retire_idx[0]] = None
retire_idx[0] += 1
for idx, item in enumerate(item_iterator):
prepared = pre_func(item)
results.append(None)
self.add_task(func=task_func, args=(prepared, idx))
while retire_idx[0] < idx - max_items_in_flight + 2:
for res in retire_result(): yield res
while retire_idx[0] < len(results):
for res in retire_result(): yield res
#----------------------------------------------------------------------------
def display(tfrecord_dir):
print('Loading dataset "%s"' % tfrecord_dir)
tflib.init_tf({'gpu_options.allow_growth': True})
dset = dataset.TFRecordDataset(tfrecord_dir, max_label_size='full', repeat=False, shuffle_mb=0)
tflib.init_uninitialized_vars()
import cv2 # pip install opencv-python
idx = 0
while True:
try:
images, labels = dset.get_minibatch_np(1)
except tf.errors.OutOfRangeError:
break
if idx == 0:
print('Displaying images')
cv2.namedWindow('dataset_tool')
print('Press SPACE or ENTER to advance, ESC to exit')
print('\nidx = %-8d\nlabel = %s' % (idx, labels[0].tolist()))
cv2.imshow('dataset_tool', images[0].transpose(1, 2, 0)[:, :, ::-1]) # CHW => HWC, RGB => BGR
idx += 1
if cv2.waitKey() == 27:
break
print('\nDisplayed %d images.' % idx)
#----------------------------------------------------------------------------
def extract(tfrecord_dir, output_dir):
print('Loading dataset "%s"' % tfrecord_dir)
tflib.init_tf({'gpu_options.allow_growth': True})
dset = dataset.TFRecordDataset(tfrecord_dir, max_label_size=0, repeat=False, shuffle_mb=0)
tflib.init_uninitialized_vars()
print('Extracting images to "%s"' % output_dir)
if not os.path.isdir(output_dir):
os.makedirs(output_dir)
idx = 0
while True:
if idx % 10 == 0:
print('%d\r' % idx, end='', flush=True)
try:
images, _labels = dset.get_minibatch_np(1)
except tf.errors.OutOfRangeError:
break
if images.shape[1] == 1:
img = PIL.Image.fromarray(images[0][0], 'L')
else:
img = PIL.Image.fromarray(images[0].transpose(1, 2, 0), 'RGB')
img.save(os.path.join(output_dir, 'img%08d.png' % idx))
idx += 1
print('Extracted %d images.' % idx)
#----------------------------------------------------------------------------
def compare(tfrecord_dir_a, tfrecord_dir_b, ignore_labels):
max_label_size = 0 if ignore_labels else 'full'
print('Loading dataset "%s"' % tfrecord_dir_a)
tflib.init_tf({'gpu_options.allow_growth': True})
dset_a = dataset.TFRecordDataset(tfrecord_dir_a, max_label_size=max_label_size, repeat=False, shuffle_mb=0)
print('Loading dataset "%s"' % tfrecord_dir_b)
dset_b = dataset.TFRecordDataset(tfrecord_dir_b, max_label_size=max_label_size, repeat=False, shuffle_mb=0)
tflib.init_uninitialized_vars()
print('Comparing datasets')
idx = 0
identical_images = 0
identical_labels = 0
while True:
if idx % 100 == 0:
print('%d\r' % idx, end='', flush=True)
try:
images_a, labels_a = dset_a.get_minibatch_np(1)
except tf.errors.OutOfRangeError:
images_a, labels_a = None, None
try:
images_b, labels_b = dset_b.get_minibatch_np(1)
except tf.errors.OutOfRangeError:
images_b, labels_b = None, None
if images_a is None or images_b is None:
if images_a is not None or images_b is not None:
print('Datasets contain different number of images')
break
if images_a.shape == images_b.shape and np.all(images_a == images_b):
identical_images += 1
else:
print('Image %d is different' % idx)
if labels_a.shape == labels_b.shape and np.all(labels_a == labels_b):
identical_labels += 1
else:
print('Label %d is different' % idx)
idx += 1
print('Identical images: %d / %d' % (identical_images, idx))
if not ignore_labels:
print('Identical labels: %d / %d' % (identical_labels, idx))
#----------------------------------------------------------------------------
def create_mnist(tfrecord_dir, mnist_dir):
print('Loading MNIST from "%s"' % mnist_dir)
import gzip
with gzip.open(os.path.join(mnist_dir, 'train-images-idx3-ubyte.gz'), 'rb') as file:
images = np.frombuffer(file.read(), np.uint8, offset=16)
with gzip.open(os.path.join(mnist_dir, 'train-labels-idx1-ubyte.gz'), 'rb') as file:
labels = np.frombuffer(file.read(), np.uint8, offset=8)
images = images.reshape(-1, 1, 28, 28)
images = np.pad(images, [(0,0), (0,0), (2,2), (2,2)], 'constant', constant_values=0)
assert images.shape == (60000, 1, 32, 32) and images.dtype == np.uint8
assert labels.shape == (60000,) and labels.dtype == np.uint8
assert np.min(images) == 0 and np.max(images) == 255
assert np.min(labels) == 0 and np.max(labels) == 9
onehot = np.zeros((labels.size, np.max(labels) + 1), dtype=np.float32)
onehot[np.arange(labels.size), labels] = 1.0
with TFRecordExporter(tfrecord_dir, images.shape[0]) as tfr:
order = tfr.choose_shuffled_order()
for idx in range(order.size):
tfr.add_image(images[order[idx]])
tfr.add_labels(onehot[order])
#----------------------------------------------------------------------------
def create_mnistrgb(tfrecord_dir, mnist_dir, num_images=1000000, random_seed=123):
print('Loading MNIST from "%s"' % mnist_dir)
import gzip
with gzip.open(os.path.join(mnist_dir, 'train-images-idx3-ubyte.gz'), 'rb') as file:
images = np.frombuffer(file.read(), np.uint8, offset=16)
images = images.reshape(-1, 28, 28)
images = np.pad(images, [(0,0), (2,2), (2,2)], 'constant', constant_values=0)
assert images.shape == (60000, 32, 32) and images.dtype == np.uint8
assert np.min(images) == 0 and np.max(images) == 255
with TFRecordExporter(tfrecord_dir, num_images) as tfr:
rnd = np.random.RandomState(random_seed)
for _idx in range(num_images):
tfr.add_image(images[rnd.randint(images.shape[0], size=3)])
#----------------------------------------------------------------------------
def create_cifar10(tfrecord_dir, cifar10_dir):
print('Loading CIFAR-10 from "%s"' % cifar10_dir)
import pickle
images = []
labels = []
for batch in range(1, 6):
with open(os.path.join(cifar10_dir, 'data_batch_%d' % batch), 'rb') as file:
data = pickle.load(file, encoding='latin1')
images.append(data['data'].reshape(-1, 3, 32, 32))
labels.append(data['labels'])
images = np.concatenate(images)
labels = np.concatenate(labels)
assert images.shape == (50000, 3, 32, 32) and images.dtype == np.uint8
assert labels.shape == (50000,) and labels.dtype == np.int32
assert np.min(images) == 0 and np.max(images) == 255
assert np.min(labels) == 0 and np.max(labels) == 9
onehot = np.zeros((labels.size, np.max(labels) + 1), dtype=np.float32)
onehot[np.arange(labels.size), labels] = 1.0
with TFRecordExporter(tfrecord_dir, images.shape[0]) as tfr:
order = tfr.choose_shuffled_order()
for idx in range(order.size):
tfr.add_image(images[order[idx]])
tfr.add_labels(onehot[order])
#----------------------------------------------------------------------------
def create_cifar100(tfrecord_dir, cifar100_dir):
print('Loading CIFAR-100 from "%s"' % cifar100_dir)
import pickle
with open(os.path.join(cifar100_dir, 'train'), 'rb') as file:
data = pickle.load(file, encoding='latin1')
images = data['data'].reshape(-1, 3, 32, 32)
labels = np.array(data['fine_labels'])
assert images.shape == (50000, 3, 32, 32) and images.dtype == np.uint8
assert labels.shape == (50000,) and labels.dtype == np.int32
assert np.min(images) == 0 and np.max(images) == 255
assert np.min(labels) == 0 and np.max(labels) == 99
onehot = np.zeros((labels.size, np.max(labels) + 1), dtype=np.float32)
onehot[np.arange(labels.size), labels] = 1.0
with TFRecordExporter(tfrecord_dir, images.shape[0]) as tfr:
order = tfr.choose_shuffled_order()
for idx in range(order.size):
tfr.add_image(images[order[idx]])
tfr.add_labels(onehot[order])
#----------------------------------------------------------------------------
def create_svhn(tfrecord_dir, svhn_dir):
print('Loading SVHN from "%s"' % svhn_dir)
import pickle
images = []
labels = []
for batch in range(1, 4):
with open(os.path.join(svhn_dir, 'train_%d.pkl' % batch), 'rb') as file:
data = pickle.load(file, encoding='latin1')
images.append(data[0])
labels.append(data[1])
images = np.concatenate(images)
labels = np.concatenate(labels)
assert images.shape == (73257, 3, 32, 32) and images.dtype == np.uint8
assert labels.shape == (73257,) and labels.dtype == np.uint8
assert np.min(images) == 0 and np.max(images) == 255
assert np.min(labels) == 0 and np.max(labels) == 9
onehot = np.zeros((labels.size, np.max(labels) + 1), dtype=np.float32)
onehot[np.arange(labels.size), labels] = 1.0
with TFRecordExporter(tfrecord_dir, images.shape[0]) as tfr:
order = tfr.choose_shuffled_order()
for idx in range(order.size):
tfr.add_image(images[order[idx]])
tfr.add_labels(onehot[order])
#----------------------------------------------------------------------------
def create_lsun(tfrecord_dir, lmdb_dir, resolution=256, max_images=None):
print('Loading LSUN dataset from "%s"' % lmdb_dir)
import lmdb # pip install lmdb # pylint: disable=import-error
import cv2 # pip install opencv-python
import io
with lmdb.open(lmdb_dir, readonly=True).begin(write=False) as txn:
total_images = txn.stat()['entries'] # pylint: disable=no-value-for-parameter
if max_images is None:
max_images = total_images
with TFRecordExporter(tfrecord_dir, max_images) as tfr:
for _idx, (_key, value) in enumerate(txn.cursor()):
try:
try:
img = cv2.imdecode(np.fromstring(value, dtype=np.uint8), 1)
if img is None:
raise IOError('cv2.imdecode failed')
img = img[:, :, ::-1] # BGR => RGB
except IOError:
img = np.asarray(PIL.Image.open(io.BytesIO(value)))
crop = np.min(img.shape[:2])
img = img[(img.shape[0] - crop) // 2 : (img.shape[0] + crop) // 2, (img.shape[1] - crop) // 2 : (img.shape[1] + crop) // 2]
img = PIL.Image.fromarray(img, 'RGB')
img = img.resize((resolution, resolution), PIL.Image.ANTIALIAS)
img = np.asarray(img)
img = img.transpose([2, 0, 1]) # HWC => CHW
tfr.add_image(img)
except:
print(sys.exc_info()[1])
if tfr.cur_images == max_images:
break
#----------------------------------------------------------------------------
def create_lsun_wide(tfrecord_dir, lmdb_dir, width=512, height=384, max_images=None):
assert width == 2 ** int(np.round(np.log2(width)))
assert height <= width
print('Loading LSUN dataset from "%s"' % lmdb_dir)
import lmdb # pip install lmdb # pylint: disable=import-error
import cv2 # pip install opencv-python
import io
with lmdb.open(lmdb_dir, readonly=True).begin(write=False) as txn:
total_images = txn.stat()['entries'] # pylint: disable=no-value-for-parameter
if max_images is None:
max_images = total_images
with TFRecordExporter(tfrecord_dir, max_images, print_progress=False) as tfr:
for idx, (_key, value) in enumerate(txn.cursor()):
try:
try:
img = cv2.imdecode(np.fromstring(value, dtype=np.uint8), 1)
if img is None:
raise IOError('cv2.imdecode failed')
img = img[:, :, ::-1] # BGR => RGB
except IOError:
img = np.asarray(PIL.Image.open(io.BytesIO(value)))
ch = int(np.round(width * img.shape[0] / img.shape[1]))
if img.shape[1] < width or ch < height:
continue
img = img[(img.shape[0] - ch) // 2 : (img.shape[0] + ch) // 2]
img = PIL.Image.fromarray(img, 'RGB')
img = img.resize((width, height), PIL.Image.ANTIALIAS)
img = np.asarray(img)
img = img.transpose([2, 0, 1]) # HWC => CHW
canvas = np.zeros([3, width, width], dtype=np.uint8)
canvas[:, (width - height) // 2 : (width + height) // 2] = img
tfr.add_image(canvas)
print('\r%d / %d => %d ' % (idx + 1, total_images, tfr.cur_images), end='')
except:
print(sys.exc_info()[1])
if tfr.cur_images == max_images:
break
print()
#----------------------------------------------------------------------------
def create_celeba(tfrecord_dir, celeba_dir, cx=89, cy=121):
print('Loading CelebA from "%s"' % celeba_dir)
glob_pattern = os.path.join(celeba_dir, 'img_align_celeba_png', '*.png')
image_filenames = sorted(glob.glob(glob_pattern))
expected_images = 202599
if len(image_filenames) != expected_images:
error('Expected to find %d images' % expected_images)
with TFRecordExporter(tfrecord_dir, len(image_filenames)) as tfr:
order = tfr.choose_shuffled_order()
for idx in range(order.size):
img = np.asarray(PIL.Image.open(image_filenames[order[idx]]))
assert img.shape == (218, 178, 3)
img = img[cy - 64 : cy + 64, cx - 64 : cx + 64]
img = img.transpose(2, 0, 1) # HWC => CHW
tfr.add_image(img)
#----------------------------------------------------------------------------
def create_from_images(tfrecord_dir, image_dir, shuffle):
print('Loading images from "%s"' % image_dir)
image_filenames = sorted(glob.glob(os.path.join(image_dir, '*')))
if len(image_filenames) == 0:
error('No input images found')
img = np.asarray(PIL.Image.open(image_filenames[0]))
resolution = img.shape[0]
channels = img.shape[2] if img.ndim == 3 else 1
if img.shape[1] != resolution:
error('Input images must have the same width and height')
if resolution != 2 ** int(np.floor(np.log2(resolution))):
error('Input image resolution must be a power-of-two')
if channels not in [1, 3]:
error('Input images must be stored as RGB or grayscale')
with TFRecordExporter(tfrecord_dir, len(image_filenames)) as tfr:
order = tfr.choose_shuffled_order() if shuffle else np.arange(len(image_filenames))
for idx in range(order.size):
img = np.asarray(PIL.Image.open(image_filenames[order[idx]]))
if channels == 1:
img = img[np.newaxis, :, :] # HW => CHW
else:
img = img.transpose([2, 0, 1]) # HWC => CHW
tfr.add_image(img)
#----------------------------------------------------------------------------
def create_from_hdf5(tfrecord_dir, hdf5_filename, shuffle):
print('Loading HDF5 archive from "%s"' % hdf5_filename)
import h5py # conda install h5py
with h5py.File(hdf5_filename, 'r') as hdf5_file:
hdf5_data = max([value for key, value in hdf5_file.items() if key.startswith('data')], key=lambda lod: lod.shape[3])
with TFRecordExporter(tfrecord_dir, hdf5_data.shape[0]) as tfr:
order = tfr.choose_shuffled_order() if shuffle else np.arange(hdf5_data.shape[0])
for idx in range(order.size):
tfr.add_image(hdf5_data[order[idx]])
npy_filename = os.path.splitext(hdf5_filename)[0] + '-labels.npy'
if os.path.isfile(npy_filename):
tfr.add_labels(np.load(npy_filename)[order])
#----------------------------------------------------------------------------
def execute_cmdline(argv):
prog = argv[0]
parser = argparse.ArgumentParser(
prog = prog,
description = 'Tool for creating multi-resolution TFRecords datasets for StyleGAN and ProGAN.',
epilog = 'Type "%s <command> -h" for more information.' % prog)
subparsers = parser.add_subparsers(dest='command')
subparsers.required = True
def add_command(cmd, desc, example=None):
epilog = 'Example: %s %s' % (prog, example) if example is not None else None
return subparsers.add_parser(cmd, description=desc, help=desc, epilog=epilog)
p = add_command( 'display', 'Display images in dataset.',
'display datasets/mnist')
p.add_argument( 'tfrecord_dir', help='Directory containing dataset')
p = add_command( 'extract', 'Extract images from dataset.',
'extract datasets/mnist mnist-images')
p.add_argument( 'tfrecord_dir', help='Directory containing dataset')
p.add_argument( 'output_dir', help='Directory to extract the images into')
p = add_command( 'compare', 'Compare two datasets.',
'compare datasets/mydataset datasets/mnist')
p.add_argument( 'tfrecord_dir_a', help='Directory containing first dataset')
p.add_argument( 'tfrecord_dir_b', help='Directory containing second dataset')
p.add_argument( '--ignore_labels', help='Ignore labels (default: 0)', type=int, default=0)
p = add_command( 'create_mnist', 'Create dataset for MNIST.',
'create_mnist datasets/mnist ~/downloads/mnist')
p.add_argument( 'tfrecord_dir', help='New dataset directory to be created')
p.add_argument( 'mnist_dir', help='Directory containing MNIST')
p = add_command( 'create_mnistrgb', 'Create dataset for MNIST-RGB.',
'create_mnistrgb datasets/mnistrgb ~/downloads/mnist')
p.add_argument( 'tfrecord_dir', help='New dataset directory to be created')
p.add_argument( 'mnist_dir', help='Directory containing MNIST')
p.add_argument( '--num_images', help='Number of composite images to create (default: 1000000)', type=int, default=1000000)
p.add_argument( '--random_seed', help='Random seed (default: 123)', type=int, default=123)
p = add_command( 'create_cifar10', 'Create dataset for CIFAR-10.',
'create_cifar10 datasets/cifar10 ~/downloads/cifar10')
p.add_argument( 'tfrecord_dir', help='New dataset directory to be created')
p.add_argument( 'cifar10_dir', help='Directory containing CIFAR-10')
p = add_command( 'create_cifar100', 'Create dataset for CIFAR-100.',
'create_cifar100 datasets/cifar100 ~/downloads/cifar100')
p.add_argument( 'tfrecord_dir', help='New dataset directory to be created')
p.add_argument( 'cifar100_dir', help='Directory containing CIFAR-100')
p = add_command( 'create_svhn', 'Create dataset for SVHN.',
'create_svhn datasets/svhn ~/downloads/svhn')
p.add_argument( 'tfrecord_dir', help='New dataset directory to be created')
p.add_argument( 'svhn_dir', help='Directory containing SVHN')
p = add_command( 'create_lsun', 'Create dataset for single LSUN category.',
'create_lsun datasets/lsun-car-100k ~/downloads/lsun/car_lmdb --resolution 256 --max_images 100000')
p.add_argument( 'tfrecord_dir', help='New dataset directory to be created')
p.add_argument( 'lmdb_dir', help='Directory containing LMDB database')
p.add_argument( '--resolution', help='Output resolution (default: 256)', type=int, default=256)
p.add_argument( '--max_images', help='Maximum number of images (default: none)', type=int, default=None)
p = add_command( 'create_lsun_wide', 'Create LSUN dataset with non-square aspect ratio.',
'create_lsun_wide datasets/lsun-car-512x384 ~/downloads/lsun/car_lmdb --width 512 --height 384')
p.add_argument( 'tfrecord_dir', help='New dataset directory to be created')
p.add_argument( 'lmdb_dir', help='Directory containing LMDB database')
p.add_argument( '--width', help='Output width (default: 512)', type=int, default=512)
p.add_argument( '--height', help='Output height (default: 384)', type=int, default=384)
p.add_argument( '--max_images', help='Maximum number of images (default: none)', type=int, default=None)
p = add_command( 'create_celeba', 'Create dataset for CelebA.',
'create_celeba datasets/celeba ~/downloads/celeba')
p.add_argument( 'tfrecord_dir', help='New dataset directory to be created')
p.add_argument( 'celeba_dir', help='Directory containing CelebA')
p.add_argument( '--cx', help='Center X coordinate (default: 89)', type=int, default=89)
p.add_argument( '--cy', help='Center Y coordinate (default: 121)', type=int, default=121)
p = add_command( 'create_from_images', 'Create dataset from a directory full of images.',
'create_from_images datasets/mydataset myimagedir')
p.add_argument( 'tfrecord_dir', help='New dataset directory to be created')
p.add_argument( 'image_dir', help='Directory containing the images')
p.add_argument( '--shuffle', help='Randomize image order (default: 1)', type=int, default=1)
p = add_command( 'create_from_hdf5', 'Create dataset from legacy HDF5 archive.',
'create_from_hdf5 datasets/celebahq ~/downloads/celeba-hq-1024x1024.h5')
p.add_argument( 'tfrecord_dir', help='New dataset directory to be created')
p.add_argument( 'hdf5_filename', help='HDF5 archive containing the images')
p.add_argument( '--shuffle', help='Randomize image order (default: 1)', type=int, default=1)
args = parser.parse_args(argv[1:] if len(argv) > 1 else ['-h'])
func = globals()[args.command]
del args.command
func(**vars(args))
#----------------------------------------------------------------------------
if __name__ == "__main__":
execute_cmdline(sys.argv)
#----------------------------------------------------------------------------