def test_imgur5k_dataset(num_samples, rotate, mock_imgur5k):
input_size = (512, 512)
ds = datasets.IMGUR5K(
*mock_imgur5k,
train=True,
img_transforms=Resize(input_size),
use_polygons=rotate,
)
assert len(ds) == num_samples - 1 # -1 because of the test set 90 / 10 split
assert repr(ds) == f"IMGUR5K(train={True})"
_validate_dataset(ds, input_size, is_polygons=rotate)
def test_ic03(input_size, num_samples, rotate, mock_ic03_dataset):
# monkeypatch the path to temporary dataset
datasets.IC03.TRAIN = (mock_ic03_dataset, None, "ic03_train.zip")
ds = datasets.IC03(
train=True, download=True, img_transforms=Resize(input_size), use_polygons=rotate,
cache_dir="/".join(mock_ic03_dataset.split("/")[:-2]), cache_subdir=mock_ic03_dataset.split("/")[-2],
)
assert len(ds) == num_samples
assert repr(ds) == f"IC03(train={True})"
_validate_dataset(ds, input_size, is_polygons=rotate)
def test_svt(input_size, num_samples, rotate, mock_svt_dataset):
# monkeypatch the path to temporary dataset
datasets.SVT.URL = mock_svt_dataset
datasets.SVT.SHA256 = None
ds = datasets.SVT(
train=True, download=True, img_transforms=Resize(input_size), use_polygons=rotate,
cache_dir="/".join(mock_svt_dataset.split("/")[:-2]), cache_subdir=mock_svt_dataset.split("/")[-2],
)
assert len(ds) == num_samples
assert repr(ds) == f"SVT(train={True})"
_validate_dataset(ds, input_size, is_polygons=rotate)
def test_artefact_detection(input_size, num_samples, rotate, mock_doc_artefacts):
# monkeypatch the path to temporary dataset
datasets.DocArtefacts.URL = mock_doc_artefacts
datasets.DocArtefacts.SHA256 = None
ds = datasets.DocArtefacts(
train=True, download=True, img_transforms=Resize(input_size), use_polygons=rotate,
cache_dir="/".join(mock_doc_artefacts.split("/")[:-2]), cache_subdir=mock_doc_artefacts.split("/")[-2],
)
assert len(ds) == num_samples
assert repr(ds) == f"DocArtefacts(train={True})"
_validate_dataset(ds, input_size, class_indices=True, is_polygons=rotate)
def test_ic13_dataset(input_size, num_samples, rotate, recognition, mock_ic13):
ds = datasets.IC13(
*mock_ic13,
img_transforms=Resize(input_size),
use_polygons=rotate,
recognition_task=recognition,
)
assert len(ds) == num_samples
if recognition:
_validate_dataset_recognition_part(ds, input_size)
else:
_validate_dataset(ds, input_size, is_polygons=rotate)
def __init__(
self,
output_size: Tuple[int, int],
batch_size: int,
mean: Tuple[float, float, float] = (0.5, 0.5, 0.5),
std: Tuple[float, float, float] = (1.0, 1.0, 1.0),
fp16: bool = False,
**kwargs: Any,
) -> None:
self.batch_size = batch_size
self.resize = Resize(output_size, **kwargs)
# Perform the division by 255 at the same time
self.normalize = Normalize(mean, std)
def test_imgur5k_dataset(input_size, num_samples, rotate, recognition,
mock_imgur5k):
ds = datasets.IMGUR5K(
*mock_imgur5k,
train=True,
img_transforms=Resize(input_size),
use_polygons=rotate,
recognition_task=recognition,
)
assert len(
ds) == num_samples - 1 # -1 because of the test set 90 / 10 split
assert repr(ds) == f"IMGUR5K(train={True})"
if recognition:
_validate_dataset_recognition_part(ds, input_size)
else:
_validate_dataset(ds, input_size, is_polygons=rotate)
def test_iiit5k(input_size, num_samples, rotate, mock_iiit5k_dataset):
# monkeypatch the path to temporary dataset
datasets.IIIT5K.URL = mock_iiit5k_dataset
datasets.IIIT5K.SHA256 = None
ds = datasets.IIIT5K(
train=True,
download=True,
img_transforms=Resize(input_size),
use_polygons=rotate,
cache_dir="/".join(mock_iiit5k_dataset.split("/")[:-2]),
cache_subdir=mock_iiit5k_dataset.split("/")[-2],
)
assert len(ds) == num_samples
assert repr(ds) == f"IIIT5K(train={True})"
img, target = ds[0]
_validate_dataset(ds, input_size, batch_size=1, is_polygons=rotate)
def test_ocrdataset(mock_ocrdataset, use_polygons):
input_size = (512, 512)
ds = datasets.OCRDataset(
*mock_ocrdataset,
img_transforms=Resize(input_size),
use_polygons=use_polygons,
)
assert len(ds) == 3
_validate_dataset(ds, input_size, is_polygons=use_polygons)
# File existence check
img_name, _ = ds.data[0]
move(os.path.join(ds.root, img_name), os.path.join(ds.root, "tmp_file"))
with pytest.raises(FileNotFoundError):
datasets.OCRDataset(*mock_ocrdataset)
move(os.path.join(ds.root, "tmp_file"), os.path.join(ds.root, img_name))
def test_cord(input_size, num_samples, rotate, recognition, mock_cord_dataset):
# monkeypatch the path to temporary dataset
datasets.CORD.TRAIN = (mock_cord_dataset, None)
ds = datasets.CORD(
train=True,
download=True,
img_transforms=Resize(input_size),
use_polygons=rotate,
recognition_task=recognition,
cache_dir="/".join(mock_cord_dataset.split("/")[:-2]),
cache_subdir=mock_cord_dataset.split("/")[-2],
)
assert len(ds) == num_samples
assert repr(ds) == f"CORD(train={True})"
if recognition:
_validate_dataset_recognition_part(ds, input_size)
else:
_validate_dataset(ds, input_size, is_polygons=rotate)
def test_funsd(input_size, num_samples, rotate, recognition,
mock_funsd_dataset):
# monkeypatch the path to temporary dataset
datasets.FUNSD.URL = mock_funsd_dataset
datasets.FUNSD.SHA256 = None
datasets.FUNSD.FILE_NAME = "funsd.zip"
ds = datasets.FUNSD(
train=True,
download=True,
img_transforms=Resize(input_size),
use_polygons=rotate,
recognition_task=recognition,
cache_dir="/".join(mock_funsd_dataset.split("/")[:-2]),
cache_subdir=mock_funsd_dataset.split("/")[-2],
)
assert len(ds) == num_samples
assert repr(ds) == f"FUNSD(train={True})"
if recognition:
_validate_dataset_recognition_part(ds, input_size)
else:
_validate_dataset(ds, input_size, is_polygons=rotate)
def test_charactergenerator():
input_size = (32, 32)
vocab = 'abcdef'
ds = datasets.CharacterGenerator(
vocab=vocab,
num_samples=10,
cache_samples=True,
img_transforms=Resize(input_size),
)
assert len(ds) == 10
image, label = ds[0]
assert isinstance(image, torch.Tensor)
assert image.shape[-2:] == input_size
assert image.dtype == torch.float32
assert isinstance(label, int) and label < len(vocab)
loader = DataLoader(ds, batch_size=2, collate_fn=ds.collate_fn)
images, targets = next(iter(loader))
assert isinstance(images, torch.Tensor) and images.shape == (2, 3, *input_size)
assert isinstance(targets, torch.Tensor) and targets.shape == (2,)
assert targets.dtype == torch.int64