import os
import shutil
from .vision import VisionDataset
from typing import Any, Callable, Optional, Tuple
import numpy as np
from PIL import Image
from .utils import download_url, verify_str_arg, download_and_extract_archive
class SBDataset(VisionDataset):
"""`Semantic Boundaries Dataset <http://home.bharathh.info/pubs/codes/SBD/download.html>`_
The SBD currently contains annotations from 11355 images taken from the PASCAL VOC 2011 dataset.
.. note ::
Please note that the train and val splits included with this dataset are different from
the splits in the PASCAL VOC dataset. In particular some "train" images might be part of
VOC2012 val.
If you are interested in testing on VOC 2012 val, then use `image_set='train_noval'`,
which excludes all val images.
.. warning::
This class needs `scipy <https://docs.scipy.org/doc/>`_ to load target files from `.mat` format.
Args:
root (string): Root directory of the Semantic Boundaries Dataset
image_set (string, optional): Select the image_set to use, ``train``, ``val`` or ``train_noval``.
Image set ``train_noval`` excludes VOC 2012 val images.
mode (string, optional): Select target type. Possible values 'boundaries' or 'segmentation'.
In case of 'boundaries', the target is an array of shape `[num_classes, H, W]`,
where `num_classes=20`.
download (bool, optional): If true, downloads the dataset from the internet and
puts it in root directory. If dataset is already downloaded, it is not
downloaded again.
transforms (callable, optional): A function/transform that takes input sample and its target as entry
and returns a transformed version. Input sample is PIL image and target is a numpy array
if `mode='boundaries'` or PIL image if `mode='segmentation'`.
"""
url = "http://www.eecs.berkeley.edu/Research/Projects/CS/vision/grouping/semantic_contours/benchmark.tgz"
md5 = "82b4d87ceb2ed10f6038a1cba92111cb"
filename = "benchmark.tgz"
voc_train_url = "http://home.bharathh.info/pubs/codes/SBD/train_noval.txt"
voc_split_filename = "train_noval.txt"
voc_split_md5 = "79bff800c5f0b1ec6b21080a3c066722"
def __init__(
self,
root: str,
image_set: str = "train",
mode: str = "boundaries",
download: bool = False,
transforms: Optional[Callable] = None,
) -> None:
try:
from scipy.io import loadmat
self._loadmat = loadmat
except ImportError:
raise RuntimeError("Scipy is not found. This dataset needs to have scipy installed: "
"pip install scipy")
super(SBDataset, self).__init__(root, transforms)
self.image_set = verify_str_arg(image_set, "image_set",
("train", "val", "train_noval"))
self.mode = verify_str_arg(mode, "mode", ("segmentation", "boundaries"))
self.num_classes = 20
sbd_root = self.root
image_dir = os.path.join(sbd_root, 'img')
mask_dir = os.path.join(sbd_root, 'cls')
if download:
download_and_extract_archive(self.url, self.root, filename=self.filename, md5=self.md5)
extracted_ds_root = os.path.join(self.root, "benchmark_RELEASE", "dataset")
for f in ["cls", "img", "inst", "train.txt", "val.txt"]:
old_path = os.path.join(extracted_ds_root, f)
shutil.move(old_path, sbd_root)
download_url(self.voc_train_url, sbd_root, self.voc_split_filename,
self.voc_split_md5)
if not os.path.isdir(sbd_root):
raise RuntimeError('Dataset not found or corrupted.' +
' You can use download=True to download it')
split_f = os.path.join(sbd_root, image_set.rstrip('\n') + '.txt')
with open(os.path.join(split_f), "r") as fh:
file_names = [x.strip() for x in fh.readlines()]
self.images = [os.path.join(image_dir, x + ".jpg") for x in file_names]
self.masks = [os.path.join(mask_dir, x + ".mat") for x in file_names]
assert (len(self.images) == len(self.masks))
self._get_target = self._get_segmentation_target \
if self.mode == "segmentation" else self._get_boundaries_target
def _get_segmentation_target(self, filepath: str) -> Image.Image:
mat = self._loadmat(filepath)
return Image.fromarray(mat['GTcls'][0]['Segmentation'][0])
def _get_boundaries_target(self, filepath: str) -> np.ndarray:
mat = self._loadmat(filepath)
return np.concatenate([np.expand_dims(mat['GTcls'][0]['Boundaries'][0][i][0].toarray(), axis=0)
for i in range(self.num_classes)], axis=0)
def __getitem__(self, index: int) -> Tuple[Any, Any]:
img = Image.open(self.images[index]).convert('RGB')
target = self._get_target(self.masks[index])
if self.transforms is not None:
img, target = self.transforms(img, target)
return img, target
def __len__(self) -> int:
return len(self.images)
def extra_repr(self) -> str:
lines = ["Image set: {image_set}", "Mode: {mode}"]
return '\n'.join(lines).format(**self.__dict__)