2021-10-13 12:00:23 +02:00
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# Copyright (c) 2021, NVIDIA CORPORATION & AFFILIATES. All rights reserved.
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2021-10-07 11:55:26 +02:00
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#
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# NVIDIA CORPORATION and its licensors retain all intellectual property
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# and proprietary rights in and to this software, related documentation
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# and any modifications thereto. Any use, reproduction, disclosure or
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# distribution of this software and related documentation without an express
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# license agreement from NVIDIA CORPORATION is strictly prohibited.
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"""Streaming images and labels from datasets created with dataset_tool.py."""
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import os
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import numpy as np
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import zipfile
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import PIL.Image
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import json
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import torch
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import dnnlib
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try:
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import pyspng
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except ImportError:
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pyspng = None
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#----------------------------------------------------------------------------
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class Dataset(torch.utils.data.Dataset):
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def __init__(self,
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name, # Name of the dataset.
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raw_shape, # Shape of the raw image data (NCHW).
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max_size = None, # Artificially limit the size of the dataset. None = no limit. Applied before xflip.
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use_labels = False, # Enable conditioning labels? False = label dimension is zero.
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xflip = False, # Artificially double the size of the dataset via x-flips. Applied after max_size.
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random_seed = 0, # Random seed to use when applying max_size.
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):
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self._name = name
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self._raw_shape = list(raw_shape)
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self._use_labels = use_labels
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self._raw_labels = None
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self._label_shape = None
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# Apply max_size.
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self._raw_idx = np.arange(self._raw_shape[0], dtype=np.int64)
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if (max_size is not None) and (self._raw_idx.size > max_size):
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np.random.RandomState(random_seed).shuffle(self._raw_idx)
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self._raw_idx = np.sort(self._raw_idx[:max_size])
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# Apply xflip.
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self._xflip = np.zeros(self._raw_idx.size, dtype=np.uint8)
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if xflip:
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self._raw_idx = np.tile(self._raw_idx, 2)
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self._xflip = np.concatenate([self._xflip, np.ones_like(self._xflip)])
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def _get_raw_labels(self):
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if self._raw_labels is None:
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self._raw_labels = self._load_raw_labels() if self._use_labels else None
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if self._raw_labels is None:
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self._raw_labels = np.zeros([self._raw_shape[0], 0], dtype=np.float32)
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assert isinstance(self._raw_labels, np.ndarray)
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assert self._raw_labels.shape[0] == self._raw_shape[0]
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assert self._raw_labels.dtype in [np.float32, np.int64]
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if self._raw_labels.dtype == np.int64:
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assert self._raw_labels.ndim == 1
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assert np.all(self._raw_labels >= 0)
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return self._raw_labels
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def close(self): # to be overridden by subclass
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pass
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def _load_raw_image(self, raw_idx): # to be overridden by subclass
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raise NotImplementedError
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def _load_raw_labels(self): # to be overridden by subclass
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raise NotImplementedError
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def __getstate__(self):
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return dict(self.__dict__, _raw_labels=None)
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def __del__(self):
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try:
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self.close()
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except:
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pass
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def __len__(self):
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return self._raw_idx.size
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def __getitem__(self, idx):
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image = self._load_raw_image(self._raw_idx[idx])
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assert isinstance(image, np.ndarray)
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assert list(image.shape) == self.image_shape
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assert image.dtype == np.uint8
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if self._xflip[idx]:
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assert image.ndim == 3 # CHW
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image = image[:, :, ::-1]
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return image.copy(), self.get_label(idx)
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def get_label(self, idx):
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label = self._get_raw_labels()[self._raw_idx[idx]]
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if label.dtype == np.int64:
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onehot = np.zeros(self.label_shape, dtype=np.float32)
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onehot[label] = 1
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label = onehot
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return label.copy()
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def get_details(self, idx):
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d = dnnlib.EasyDict()
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d.raw_idx = int(self._raw_idx[idx])
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d.xflip = (int(self._xflip[idx]) != 0)
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d.raw_label = self._get_raw_labels()[d.raw_idx].copy()
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return d
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@property
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def name(self):
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return self._name
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@property
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def image_shape(self):
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return list(self._raw_shape[1:])
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@property
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def num_channels(self):
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assert len(self.image_shape) == 3 # CHW
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return self.image_shape[0]
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@property
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def resolution(self):
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assert len(self.image_shape) == 3 # CHW
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assert self.image_shape[1] == self.image_shape[2]
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return self.image_shape[1]
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@property
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def label_shape(self):
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if self._label_shape is None:
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raw_labels = self._get_raw_labels()
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if raw_labels.dtype == np.int64:
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self._label_shape = [int(np.max(raw_labels)) + 1]
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else:
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self._label_shape = raw_labels.shape[1:]
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return list(self._label_shape)
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@property
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def label_dim(self):
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assert len(self.label_shape) == 1
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return self.label_shape[0]
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@property
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def has_labels(self):
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return any(x != 0 for x in self.label_shape)
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@property
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def has_onehot_labels(self):
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return self._get_raw_labels().dtype == np.int64
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#----------------------------------------------------------------------------
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class ImageFolderDataset(Dataset):
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def __init__(self,
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path, # Path to directory or zip.
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resolution = None, # Ensure specific resolution, None = highest available.
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**super_kwargs, # Additional arguments for the Dataset base class.
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):
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self._path = path
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self._zipfile = None
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if os.path.isdir(self._path):
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self._type = 'dir'
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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}
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elif self._file_ext(self._path) == '.zip':
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self._type = 'zip'
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self._all_fnames = set(self._get_zipfile().namelist())
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else:
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raise IOError('Path must point to a directory or zip')
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PIL.Image.init()
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self._image_fnames = sorted(fname for fname in self._all_fnames if self._file_ext(fname) in PIL.Image.EXTENSION)
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if len(self._image_fnames) == 0:
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raise IOError('No image files found in the specified path')
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name = os.path.splitext(os.path.basename(self._path))[0]
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raw_shape = [len(self._image_fnames)] + list(self._load_raw_image(0).shape)
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if resolution is not None and (raw_shape[2] != resolution or raw_shape[3] != resolution):
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raise IOError('Image files do not match the specified resolution')
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super().__init__(name=name, raw_shape=raw_shape, **super_kwargs)
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@staticmethod
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def _file_ext(fname):
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return os.path.splitext(fname)[1].lower()
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def _get_zipfile(self):
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assert self._type == 'zip'
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if self._zipfile is None:
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self._zipfile = zipfile.ZipFile(self._path)
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return self._zipfile
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def _open_file(self, fname):
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if self._type == 'dir':
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return open(os.path.join(self._path, fname), 'rb')
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if self._type == 'zip':
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return self._get_zipfile().open(fname, 'r')
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return None
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def close(self):
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try:
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if self._zipfile is not None:
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self._zipfile.close()
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finally:
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self._zipfile = None
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def __getstate__(self):
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return dict(super().__getstate__(), _zipfile=None)
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def _load_raw_image(self, raw_idx):
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fname = self._image_fnames[raw_idx]
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with self._open_file(fname) as f:
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if pyspng is not None and self._file_ext(fname) == '.png':
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image = pyspng.load(f.read())
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else:
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image = np.array(PIL.Image.open(f))
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if image.ndim == 2:
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image = image[:, :, np.newaxis] # HW => HWC
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image = image.transpose(2, 0, 1) # HWC => CHW
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return image
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def _load_raw_labels(self):
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fname = 'dataset.json'
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if fname not in self._all_fnames:
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return None
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with self._open_file(fname) as f:
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labels = json.load(f)['labels']
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if labels is None:
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return None
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labels = dict(labels)
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labels = [labels[fname.replace('\\', '/')] for fname in self._image_fnames]
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labels = np.array(labels)
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labels = labels.astype({1: np.int64, 2: np.float32}[labels.ndim])
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return labels
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#----------------------------------------------------------------------------
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