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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 os | |
import numpy as np | |
import zipfile | |
import PIL.Image | |
import cv2 | |
import json | |
import torch | |
import dnnlib | |
import glob | |
try: | |
import pyspng | |
except ImportError: | |
pyspng = None | |
from datasets.mask_generator_256 import RandomMask | |
#---------------------------------------------------------------------------- | |
class Dataset(torch.utils.data.Dataset): | |
def __init__(self, | |
name, # Name of the dataset. | |
raw_shape, # Shape of the raw image data (NCHW). | |
max_size = None, # Artificially limit the size of the dataset. None = no limit. Applied before xflip. | |
use_labels = False, # Enable conditioning labels? False = label dimension is zero. | |
xflip = False, # Artificially double the size of the dataset via x-flips. Applied after max_size. | |
random_seed = 0, # Random seed to use when applying max_size. | |
): | |
self._name = name | |
self._raw_shape = list(raw_shape) | |
self._use_labels = use_labels | |
self._raw_labels = None | |
self._label_shape = None | |
# Apply max_size. | |
self._raw_idx = np.arange(self._raw_shape[0], dtype=np.int64) | |
if (max_size is not None) and (self._raw_idx.size > max_size): | |
np.random.RandomState(random_seed).shuffle(self._raw_idx) | |
self._raw_idx = np.sort(self._raw_idx[:max_size]) | |
# Apply xflip. | |
self._xflip = np.zeros(self._raw_idx.size, dtype=np.uint8) | |
if xflip: | |
self._raw_idx = np.tile(self._raw_idx, 2) | |
self._xflip = np.concatenate([self._xflip, np.ones_like(self._xflip)]) | |
def _get_raw_labels(self): | |
if self._raw_labels is None: | |
self._raw_labels = self._load_raw_labels() if self._use_labels else None | |
if self._raw_labels is None: | |
self._raw_labels = np.zeros([self._raw_shape[0], 0], dtype=np.float32) | |
assert isinstance(self._raw_labels, np.ndarray) | |
assert self._raw_labels.shape[0] == self._raw_shape[0] | |
assert self._raw_labels.dtype in [np.float32, np.int64] | |
if self._raw_labels.dtype == np.int64: | |
assert self._raw_labels.ndim == 1 | |
assert np.all(self._raw_labels >= 0) | |
return self._raw_labels | |
def close(self): # to be overridden by subclass | |
pass | |
def _load_raw_image(self, raw_idx): # to be overridden by subclass | |
raise NotImplementedError | |
def _load_raw_labels(self): # to be overridden by subclass | |
raise NotImplementedError | |
def __getstate__(self): | |
return dict(self.__dict__, _raw_labels=None) | |
def __del__(self): | |
try: | |
self.close() | |
except: | |
pass | |
def __len__(self): | |
return self._raw_idx.size | |
def __getitem__(self, idx): | |
image = self._load_raw_image(self._raw_idx[idx]) | |
assert isinstance(image, np.ndarray) | |
assert list(image.shape) == self.image_shape | |
assert image.dtype == np.uint8 | |
if self._xflip[idx]: | |
assert image.ndim == 3 # CHW | |
image = image[:, :, ::-1] | |
return image.copy(), self.get_label(idx) | |
def get_label(self, idx): | |
label = self._get_raw_labels()[self._raw_idx[idx]] | |
if label.dtype == np.int64: | |
onehot = np.zeros(self.label_shape, dtype=np.float32) | |
onehot[label] = 1 | |
label = onehot | |
return label.copy() | |
def get_details(self, idx): | |
d = dnnlib.EasyDict() | |
d.raw_idx = int(self._raw_idx[idx]) | |
d.xflip = (int(self._xflip[idx]) != 0) | |
d.raw_label = self._get_raw_labels()[d.raw_idx].copy() | |
return d | |
def name(self): | |
return self._name | |
def image_shape(self): | |
return list(self._raw_shape[1:]) | |
def num_channels(self): | |
assert len(self.image_shape) == 3 # CHW | |
return self.image_shape[0] | |
def resolution(self): | |
assert len(self.image_shape) == 3 # CHW | |
assert self.image_shape[1] == self.image_shape[2] | |
return self.image_shape[1] | |
def label_shape(self): | |
if self._label_shape is None: | |
raw_labels = self._get_raw_labels() | |
if raw_labels.dtype == np.int64: | |
self._label_shape = [int(np.max(raw_labels)) + 1] | |
else: | |
self._label_shape = raw_labels.shape[1:] | |
return list(self._label_shape) | |
def label_dim(self): | |
assert len(self.label_shape) == 1 | |
return self.label_shape[0] | |
def has_labels(self): | |
return any(x != 0 for x in self.label_shape) | |
def has_onehot_labels(self): | |
return self._get_raw_labels().dtype == np.int64 | |
#---------------------------------------------------------------------------- | |
class ImageFolderMaskDataset(Dataset): | |
def __init__(self, | |
path, # Path to directory or zip. | |
resolution = None, # Ensure specific resolution, None = highest available. | |
hole_range=[0,1], | |
**super_kwargs, # Additional arguments for the Dataset base class. | |
): | |
self._path = path | |
self._zipfile = None | |
self._hole_range = hole_range | |
if os.path.isdir(self._path): | |
self._type = 'dir' | |
self._all_fnames = {os.path.relpath(os.path.join(root, fname), start=self._path) for root, _dirs, files in os.walk(self._path) for fname in files} | |
elif self._file_ext(self._path) == '.zip': | |
self._type = 'zip' | |
self._all_fnames = set(self._get_zipfile().namelist()) | |
else: | |
raise IOError('Path must point to a directory or zip') | |
PIL.Image.init() | |
self._image_fnames = sorted(fname for fname in self._all_fnames if self._file_ext(fname) in PIL.Image.EXTENSION) | |
if len(self._image_fnames) == 0: | |
raise IOError('No image files found in the specified path') | |
name = os.path.splitext(os.path.basename(self._path))[0] | |
raw_shape = [len(self._image_fnames)] + list(self._load_raw_image(0).shape) | |
if resolution is not None and (raw_shape[2] != resolution or raw_shape[3] != resolution): | |
raise IOError('Image files do not match the specified resolution') | |
self._load_mask() | |
super().__init__(name=name, raw_shape=raw_shape, **super_kwargs) | |
def _load_mask(self, mpath='/data/liwenbo/datasets/Places365/standard/masks_val_256_eval'): | |
self.masks = sorted(glob.glob(mpath + '/*.png')) | |
def _file_ext(fname): | |
return os.path.splitext(fname)[1].lower() | |
def _get_zipfile(self): | |
assert self._type == 'zip' | |
if self._zipfile is None: | |
self._zipfile = zipfile.ZipFile(self._path) | |
return self._zipfile | |
def _open_file(self, fname): | |
if self._type == 'dir': | |
return open(os.path.join(self._path, fname), 'rb') | |
if self._type == 'zip': | |
return self._get_zipfile().open(fname, 'r') | |
return None | |
def close(self): | |
try: | |
if self._zipfile is not None: | |
self._zipfile.close() | |
finally: | |
self._zipfile = None | |
def __getstate__(self): | |
return dict(super().__getstate__(), _zipfile=None) | |
def _load_raw_image(self, raw_idx): | |
fname = self._image_fnames[raw_idx] | |
with self._open_file(fname) as f: | |
if pyspng is not None and self._file_ext(fname) == '.png': | |
image = pyspng.load(f.read()) | |
else: | |
image = np.array(PIL.Image.open(f)) | |
if image.ndim == 2: | |
image = image[:, :, np.newaxis] # HW => HWC | |
# for grayscale image | |
if image.shape[2] == 1: | |
image = np.repeat(image, 3, axis=2) | |
# restricted to 256x256 | |
res = 256 | |
H, W, C = image.shape | |
if H < res or W < res: | |
top = 0 | |
bottom = max(0, res - H) | |
left = 0 | |
right = max(0, res - W) | |
image = cv2.copyMakeBorder(image, top, bottom, left, right, cv2.BORDER_REFLECT) | |
H, W, C = image.shape | |
h = (H - res) // 2 | |
w = (W - res) // 2 | |
image = image[h:h+res, w:w+res, :] | |
image = np.ascontiguousarray(image.transpose(2, 0, 1)) # HWC => CHW | |
return image | |
def _load_raw_labels(self): | |
fname = 'labels.json' | |
if fname not in self._all_fnames: | |
return None | |
with self._open_file(fname) as f: | |
labels = json.load(f)['labels'] | |
if labels is None: | |
return None | |
labels = dict(labels) | |
labels = [labels[fname.replace('\\', '/')] for fname in self._image_fnames] | |
labels = np.array(labels) | |
labels = labels.astype({1: np.int64, 2: np.float32}[labels.ndim]) | |
return labels | |
def __getitem__(self, idx): | |
image = self._load_raw_image(self._raw_idx[idx]) | |
# for grayscale image | |
if image.shape[0] == 1: | |
image = np.repeat(image, 3, axis=0) | |
assert isinstance(image, np.ndarray) | |
assert list(image.shape) == self.image_shape | |
assert image.dtype == np.uint8 | |
if self._xflip[idx]: | |
assert image.ndim == 3 # CHW | |
image = image[:, :, ::-1] | |
# mask = RandomMask(image.shape[-1], hole_range=self._hole_range) # hole as 0, reserved as 1 | |
mask = cv2.imread(self.masks[idx], cv2.IMREAD_GRAYSCALE).astype(np.float32)[np.newaxis, :, :] / 255.0 | |
return image.copy(), mask, self.get_label(idx) | |