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# Copyright (c) 2021, NVIDIA CORPORATION. All rights reserved. | |
# | |
# NVIDIA CORPORATION and its licensors retain all intellectual property | |
# and proprietary rights in and to this software, related documentation | |
# and any modifications thereto. Any use, reproduction, disclosure or | |
# distribution of this software and related documentation without an express | |
# license agreement from NVIDIA CORPORATION is strictly prohibited. | |
import functools | |
import io | |
import json | |
import os | |
import pickle | |
import sys | |
import tarfile | |
import gzip | |
import zipfile | |
from pathlib import Path | |
from typing import Callable, Optional, Tuple, Union | |
import click | |
import numpy as np | |
import PIL.Image | |
from tqdm import tqdm | |
#---------------------------------------------------------------------------- | |
def error(msg): | |
print('Error: ' + msg) | |
sys.exit(1) | |
#---------------------------------------------------------------------------- | |
def maybe_min(a: int, b: Optional[int]) -> int: | |
if b is not None: | |
return min(a, b) | |
return a | |
#---------------------------------------------------------------------------- | |
def file_ext(name: Union[str, Path]) -> str: | |
return str(name).split('.')[-1] | |
#---------------------------------------------------------------------------- | |
def is_image_ext(fname: Union[str, Path]) -> bool: | |
ext = file_ext(fname).lower() | |
return f'.{ext}' in PIL.Image.EXTENSION # type: ignore | |
#---------------------------------------------------------------------------- | |
def open_image_folder(source_dir, *, max_images: Optional[int]): | |
input_images = [str(f) for f in sorted(Path(source_dir).rglob('*')) if is_image_ext(f) and os.path.isfile(f)] | |
# Load labels. | |
labels = {} | |
meta_fname = os.path.join(source_dir, 'dataset.json') | |
if os.path.isfile(meta_fname): | |
with open(meta_fname, 'r') as file: | |
labels = json.load(file)['labels'] | |
if labels is not None: | |
labels = { x[0]: x[1] for x in labels } | |
else: | |
labels = {} | |
max_idx = maybe_min(len(input_images), max_images) | |
def iterate_images(): | |
for idx, fname in enumerate(input_images): | |
arch_fname = os.path.relpath(fname, source_dir) | |
arch_fname = arch_fname.replace('\\', '/') | |
img = np.array(PIL.Image.open(fname)) | |
yield dict(img=img, label=labels.get(arch_fname)) | |
if idx >= max_idx-1: | |
break | |
return max_idx, iterate_images() | |
#---------------------------------------------------------------------------- | |
def open_image_zip(source, *, max_images: Optional[int]): | |
with zipfile.ZipFile(source, mode='r') as z: | |
input_images = [str(f) for f in sorted(z.namelist()) if is_image_ext(f)] | |
# Load labels. | |
labels = {} | |
if 'dataset.json' in z.namelist(): | |
with z.open('dataset.json', 'r') as file: | |
labels = json.load(file)['labels'] | |
if labels is not None: | |
labels = { x[0]: x[1] for x in labels } | |
else: | |
labels = {} | |
max_idx = maybe_min(len(input_images), max_images) | |
def iterate_images(): | |
with zipfile.ZipFile(source, mode='r') as z: | |
for idx, fname in enumerate(input_images): | |
with z.open(fname, 'r') as file: | |
img = PIL.Image.open(file) # type: ignore | |
img = np.array(img) | |
yield dict(img=img, label=labels.get(fname)) | |
if idx >= max_idx-1: | |
break | |
return max_idx, iterate_images() | |
#---------------------------------------------------------------------------- | |
def open_lmdb(lmdb_dir: str, *, max_images: Optional[int]): | |
import cv2 # pip install opencv-python | |
import lmdb # pip install lmdb # pylint: disable=import-error | |
with lmdb.open(lmdb_dir, readonly=True, lock=False).begin(write=False) as txn: | |
max_idx = maybe_min(txn.stat()['entries'], max_images) | |
def iterate_images(): | |
with lmdb.open(lmdb_dir, readonly=True, lock=False).begin(write=False) as txn: | |
for idx, (_key, value) in enumerate(txn.cursor()): | |
try: | |
try: | |
img = cv2.imdecode(np.frombuffer(value, dtype=np.uint8), 1) | |
if img is None: | |
raise IOError('cv2.imdecode failed') | |
img = img[:, :, ::-1] # BGR => RGB | |
except IOError: | |
img = np.array(PIL.Image.open(io.BytesIO(value))) | |
yield dict(img=img, label=None) | |
if idx >= max_idx-1: | |
break | |
except: | |
print(sys.exc_info()[1]) | |
return max_idx, iterate_images() | |
#---------------------------------------------------------------------------- | |
def open_cifar10(tarball: str, *, max_images: Optional[int]): | |
images = [] | |
labels = [] | |
with tarfile.open(tarball, 'r:gz') as tar: | |
for batch in range(1, 6): | |
member = tar.getmember(f'cifar-10-batches-py/data_batch_{batch}') | |
with tar.extractfile(member) 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) | |
images = images.transpose([0, 2, 3, 1]) # NCHW -> NHWC | |
assert images.shape == (50000, 32, 32, 3) and images.dtype == np.uint8 | |
assert labels.shape == (50000,) and labels.dtype in [np.int32, np.int64] | |
assert np.min(images) == 0 and np.max(images) == 255 | |
assert np.min(labels) == 0 and np.max(labels) == 9 | |
max_idx = maybe_min(len(images), max_images) | |
def iterate_images(): | |
for idx, img in enumerate(images): | |
yield dict(img=img, label=int(labels[idx])) | |
if idx >= max_idx-1: | |
break | |
return max_idx, iterate_images() | |
#---------------------------------------------------------------------------- | |
def open_mnist(images_gz: str, *, max_images: Optional[int]): | |
labels_gz = images_gz.replace('-images-idx3-ubyte.gz', '-labels-idx1-ubyte.gz') | |
assert labels_gz != images_gz | |
images = [] | |
labels = [] | |
with gzip.open(images_gz, 'rb') as f: | |
images = np.frombuffer(f.read(), np.uint8, offset=16) | |
with gzip.open(labels_gz, 'rb') as f: | |
labels = np.frombuffer(f.read(), np.uint8, offset=8) | |
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 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 | |
max_idx = maybe_min(len(images), max_images) | |
def iterate_images(): | |
for idx, img in enumerate(images): | |
yield dict(img=img, label=int(labels[idx])) | |
if idx >= max_idx-1: | |
break | |
return max_idx, iterate_images() | |
#---------------------------------------------------------------------------- | |
def make_transform( | |
transform: Optional[str], | |
output_width: Optional[int], | |
output_height: Optional[int], | |
resize_filter: str | |
) -> Callable[[np.ndarray], Optional[np.ndarray]]: | |
resample = { 'box': PIL.Image.BOX, 'lanczos': PIL.Image.LANCZOS }[resize_filter] | |
def scale(width, height, img): | |
w = img.shape[1] | |
h = img.shape[0] | |
if width == w and height == h: | |
return img | |
img = PIL.Image.fromarray(img) | |
ww = width if width is not None else w | |
hh = height if height is not None else h | |
img = img.resize((ww, hh), resample) | |
return np.array(img) | |
def center_crop(width, height, img): | |
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((width, height), resample) | |
return np.array(img) | |
def center_crop_wide(width, height, img): | |
ch = int(np.round(width * img.shape[0] / img.shape[1])) | |
if img.shape[1] < width or ch < height: | |
return None | |
img = img[(img.shape[0] - ch) // 2 : (img.shape[0] + ch) // 2] | |
img = PIL.Image.fromarray(img, 'RGB') | |
img = img.resize((width, height), resample) | |
img = np.array(img) | |
canvas = np.zeros([width, width, 3], dtype=np.uint8) | |
canvas[(width - height) // 2 : (width + height) // 2, :] = img | |
return canvas | |
if transform is None: | |
return functools.partial(scale, output_width, output_height) | |
if transform == 'center-crop': | |
if (output_width is None) or (output_height is None): | |
error ('must specify --width and --height when using ' + transform + 'transform') | |
return functools.partial(center_crop, output_width, output_height) | |
if transform == 'center-crop-wide': | |
if (output_width is None) or (output_height is None): | |
error ('must specify --width and --height when using ' + transform + ' transform') | |
return functools.partial(center_crop_wide, output_width, output_height) | |
assert False, 'unknown transform' | |
#---------------------------------------------------------------------------- | |
def open_dataset(source, *, max_images: Optional[int]): | |
if os.path.isdir(source): | |
if source.rstrip('/').endswith('_lmdb'): | |
return open_lmdb(source, max_images=max_images) | |
else: | |
return open_image_folder(source, max_images=max_images) | |
elif os.path.isfile(source): | |
if os.path.basename(source) == 'cifar-10-python.tar.gz': | |
return open_cifar10(source, max_images=max_images) | |
elif os.path.basename(source) == 'train-images-idx3-ubyte.gz': | |
return open_mnist(source, max_images=max_images) | |
elif file_ext(source) == 'zip': | |
return open_image_zip(source, max_images=max_images) | |
else: | |
assert False, 'unknown archive type' | |
else: | |
error(f'Missing input file or directory: {source}') | |
#---------------------------------------------------------------------------- | |
def open_dest(dest: str) -> Tuple[str, Callable[[str, Union[bytes, str]], None], Callable[[], None]]: | |
dest_ext = file_ext(dest) | |
if dest_ext == 'zip': | |
if os.path.dirname(dest) != '': | |
os.makedirs(os.path.dirname(dest), exist_ok=True) | |
zf = zipfile.ZipFile(file=dest, mode='w', compression=zipfile.ZIP_STORED) | |
def zip_write_bytes(fname: str, data: Union[bytes, str]): | |
zf.writestr(fname, data) | |
return '', zip_write_bytes, zf.close | |
else: | |
# If the output folder already exists, check that is is | |
# empty. | |
# | |
# Note: creating the output directory is not strictly | |
# necessary as folder_write_bytes() also mkdirs, but it's better | |
# to give an error message earlier in case the dest folder | |
# somehow cannot be created. | |
if os.path.isdir(dest) and len(os.listdir(dest)) != 0: | |
error('--dest folder must be empty') | |
os.makedirs(dest, exist_ok=True) | |
def folder_write_bytes(fname: str, data: Union[bytes, str]): | |
os.makedirs(os.path.dirname(fname), exist_ok=True) | |
with open(fname, 'wb') as fout: | |
if isinstance(data, str): | |
data = data.encode('utf8') | |
fout.write(data) | |
return dest, folder_write_bytes, lambda: None | |
#---------------------------------------------------------------------------- | |
def convert_dataset( | |
ctx: click.Context, | |
source: str, | |
dest: str, | |
max_images: Optional[int], | |
transform: Optional[str], | |
resize_filter: str, | |
width: Optional[int], | |
height: Optional[int] | |
): | |
"""Convert an image dataset into a dataset archive usable with StyleGAN2 ADA PyTorch. | |
The input dataset format is guessed from the --source argument: | |
\b | |
--source *_lmdb/ Load LSUN dataset | |
--source cifar-10-python.tar.gz Load CIFAR-10 dataset | |
--source train-images-idx3-ubyte.gz Load MNIST dataset | |
--source path/ Recursively load all images from path/ | |
--source dataset.zip Recursively load all images from dataset.zip | |
Specifying the output format and path: | |
\b | |
--dest /path/to/dir Save output files under /path/to/dir | |
--dest /path/to/dataset.zip Save output files into /path/to/dataset.zip | |
The output dataset format can be either an image folder or an uncompressed zip archive. | |
Zip archives makes it easier to move datasets around file servers and clusters, and may | |
offer better training performance on network file systems. | |
Images within the dataset archive will be stored as uncompressed PNG. | |
Uncompresed PNGs can be efficiently decoded in the training loop. | |
Class labels are stored in a file called 'dataset.json' that is stored at the | |
dataset root folder. This file has the following structure: | |
\b | |
{ | |
"labels": [ | |
["00000/img00000000.png",6], | |
["00000/img00000001.png",9], | |
... repeated for every image in the datase | |
["00049/img00049999.png",1] | |
] | |
} | |
If the 'dataset.json' file cannot be found, the dataset is interpreted as | |
not containing class labels. | |
Image scale/crop and resolution requirements: | |
Output images must be square-shaped and they must all have the same power-of-two | |
dimensions. | |
To scale arbitrary input image size to a specific width and height, use the | |
--width and --height options. Output resolution will be either the original | |
input resolution (if --width/--height was not specified) or the one specified with | |
--width/height. | |
Use the --transform=center-crop or --transform=center-crop-wide options to apply a | |
center crop transform on the input image. These options should be used with the | |
--width and --height options. For example: | |
\b | |
python dataset_tool.py --source LSUN/raw/cat_lmdb --dest /tmp/lsun_cat \\ | |
--transform=center-crop-wide --width 512 --height=384 | |
""" | |
PIL.Image.init() # type: ignore | |
if dest == '': | |
ctx.fail('--dest output filename or directory must not be an empty string') | |
num_files, input_iter = open_dataset(source, max_images=max_images) | |
archive_root_dir, save_bytes, close_dest = open_dest(dest) | |
transform_image = make_transform(transform, width, height, resize_filter) | |
dataset_attrs = None | |
labels = [] | |
for idx, image in tqdm(enumerate(input_iter), total=num_files): | |
idx_str = f'{idx:08d}' | |
archive_fname = f'{idx_str[:5]}/img{idx_str}.png' | |
# Apply crop and resize. | |
img = transform_image(image['img']) | |
# Transform may drop images. | |
if img is None: | |
continue | |
# Error check to require uniform image attributes across | |
# the whole dataset. | |
channels = img.shape[2] if img.ndim == 3 else 1 | |
cur_image_attrs = { | |
'width': img.shape[1], | |
'height': img.shape[0], | |
'channels': channels | |
} | |
if dataset_attrs is None: | |
dataset_attrs = cur_image_attrs | |
width = dataset_attrs['width'] | |
height = dataset_attrs['height'] | |
if width != height: | |
error(f'Image dimensions after scale and crop are required to be square. Got {width}x{height}') | |
if dataset_attrs['channels'] not in [1, 3]: | |
error('Input images must be stored as RGB or grayscale') | |
if width != 2 ** int(np.floor(np.log2(width))): | |
error('Image width/height after scale and crop are required to be power-of-two') | |
elif dataset_attrs != cur_image_attrs: | |
err = [f' dataset {k}/cur image {k}: {dataset_attrs[k]}/{cur_image_attrs[k]}' for k in dataset_attrs.keys()] | |
error(f'Image {archive_fname} attributes must be equal across all images of the dataset. Got:\n' + '\n'.join(err)) | |
# Save the image as an uncompressed PNG. | |
img = PIL.Image.fromarray(img, { 1: 'L', 3: 'RGB' }[channels]) | |
image_bits = io.BytesIO() | |
img.save(image_bits, format='png', compress_level=0, optimize=False) | |
save_bytes(os.path.join(archive_root_dir, archive_fname), image_bits.getbuffer()) | |
labels.append([archive_fname, image['label']] if image['label'] is not None else None) | |
metadata = { | |
'labels': labels if all(x is not None for x in labels) else None | |
} | |
save_bytes(os.path.join(archive_root_dir, 'dataset.json'), json.dumps(metadata)) | |
close_dest() | |
#---------------------------------------------------------------------------- | |
if __name__ == "__main__": | |
convert_dataset() # pylint: disable=no-value-for-parameter | |