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"""IAM Paragraphs Dataset class."""
import json
from pathlib import Path
from typing import Callable, Dict, List, Optional, Sequence, Tuple
import numpy as np
import torchvision.transforms as T
from loguru import logger as log
from PIL import Image, ImageOps
from tqdm import tqdm
import text_recognizer.metadata.iam_paragraphs as metadata
from text_recognizer.data.base_data_module import BaseDataModule, load_and_print_info
from text_recognizer.data.base_dataset import (
BaseDataset,
convert_strings_to_labels,
split_dataset,
)
from text_recognizer.data.iam import IAM
from text_recognizer.data.tokenizer import Tokenizer
from text_recognizer.data.transforms.pad import Pad
from text_recognizer.data.transforms.paragraph import ParagraphStem
class IAMParagraphs(BaseDataModule):
"""IAM handwriting database paragraphs."""
def __init__(
self,
tokenizer: Tokenizer,
transform: Optional[Callable] = None,
test_transform: Optional[Callable] = None,
target_transform: Optional[Callable] = None,
train_fraction: float = 0.8,
batch_size: int = 16,
num_workers: int = 0,
pin_memory: bool = True,
) -> None:
super().__init__(
tokenizer,
transform,
test_transform,
target_transform,
train_fraction,
batch_size,
num_workers,
pin_memory,
)
self.dims = (1, metadata.IMAGE_HEIGHT, metadata.IMAGE_WIDTH)
self.output_dims = (metadata.MAX_LABEL_LENGTH, 1)
def prepare_data(self) -> None:
"""Create data for training/testing."""
if metadata.PROCESSED_DATA_DIRNAME.exists():
return
log.info("Cropping IAM paragraph regions and saving them along with labels...")
iam = IAM(tokenizer=self.tokenizer)
iam.prepare_data()
properties = {}
for split in ["train", "test"]:
crops, labels = _get_paragraph_crops_and_labels(iam=iam, split=split)
_save_crops_and_labels(crops=crops, labels=labels, split=split)
properties.update(
{
id_: {
"crop_shape": crops[id_].size[::-1],
"label_length": len(label),
"num_lines": _num_lines(label),
}
for id_, label in labels.items()
}
)
with (metadata.PROCESSED_DATA_DIRNAME / "_properties.json").open("w") as f:
json.dump(properties, f, indent=4)
def setup(self, stage: str = None) -> None:
"""Loads the data for training/testing."""
def _load_dataset(
split: str, transform: T.Compose, target_transform: T.Compose
) -> BaseDataset:
crops, labels = _load_processed_crops_and_labels(split)
data = [resize_image(crop, metadata.IMAGE_SCALE_FACTOR) for crop in crops]
targets = convert_strings_to_labels(
strings=labels,
mapping=self.tokenizer.inverse_mapping,
length=self.output_dims[0],
)
return BaseDataset(
data,
targets,
transform=transform,
target_transform=target_transform,
)
log.info(f"Loading IAM paragraph regions and lines for {stage}...")
_validate_data_dims(input_dims=self.dims, output_dims=self.output_dims)
if stage == "fit" or stage is None:
data_train = _load_dataset(
split="train",
transform=self.transform,
target_transform=self.target_transform,
)
self.data_train, self.data_val = split_dataset(
dataset=data_train, fraction=self.train_fraction, seed=metadata.SEED
)
if stage == "test" or stage is None:
self.data_test = _load_dataset(
split="test",
transform=self.test_transform,
target_transform=self.target_transform,
)
def __repr__(self) -> str:
"""Return information about the dataset."""
basic = (
"IAM Paragraphs Dataset\n"
f"Num classes: {len(self.tokenizer)}\n"
f"Input dims: {self.dims}\n"
f"Output dims: {self.output_dims}\n"
)
if not any([self.data_train, self.data_val, self.data_test]):
return basic
x, y = next(iter(self.train_dataloader()))
xt, yt = next(iter(self.test_dataloader()))
x = x[0] if isinstance(x, list) else x
xt = xt[0] if isinstance(xt, list) else xt
data = (
"Train/val/test sizes: "
f"{len(self.data_train)}, "
f"{len(self.data_val)}, "
f"{len(self.data_test)}\n"
"Train Batch x stats: "
f"{(x.shape, x.dtype, x.min(), x.mean(), x.std(), x.max())}\n"
"Train Batch y stats: "
f"{(y.shape, y.dtype, y.min(), y.max())}\n"
"Test Batch x stats: "
f"{(xt.shape, xt.dtype, xt.min(), xt.mean(), xt.std(), xt.max())}\n"
"Test Batch y stats: "
f"{(yt.shape, yt.dtype, yt.min(), yt.max())}\n"
)
return basic + data
def get_dataset_properties() -> Dict:
"""Return properties describing the overall dataset."""
with (metadata.PROCESSED_DATA_DIRNAME / "_properties.json").open("r") as f:
properties = json.load(f)
def _get_property_values(key: str) -> List:
return [value[key] for value in properties.values()]
crop_shapes = np.array(_get_property_values("crop_shape"))
aspect_ratio = crop_shapes[:, 1] / crop_shapes[:, 0]
return {
"label_length": {
"min": min(_get_property_values("label_length")),
"max": max(_get_property_values("label_length")),
},
"num_lines": {
"min": min(_get_property_values("num_lines")),
"max": max(_get_property_values("num_lines")),
},
"crop_shape": {"min": crop_shapes.min(axis=0), "max": crop_shapes.max(axis=0)},
"aspect_ratio": {
"min": aspect_ratio.min(axis=0),
"max": aspect_ratio.max(axis=0),
},
}
def _validate_data_dims(
input_dims: Optional[Tuple[int, ...]], output_dims: Optional[Tuple[int, ...]]
) -> None:
"""Validates input and output dimensions against the properties of the dataset."""
properties = get_dataset_properties()
max_image_shape = properties["crop_shape"]["max"] / metadata.IMAGE_SCALE_FACTOR
if (
input_dims is not None
and input_dims[1] < max_image_shape[0]
and input_dims[2] < max_image_shape[1]
):
raise ValueError(f"{input_dims} less than {max_image_shape}")
if (
output_dims is not None
and output_dims[0] < properties["label_length"]["max"] + 2
):
raise ValueError(
f"{output_dims} less than {properties['label_length']['max'] + 2}"
)
def resize_image(image: Image.Image, scale_factor: int) -> Image.Image:
"""Resize image by scale factor."""
if scale_factor == 1:
return image
return image.resize(
(image.width // scale_factor, image.height // scale_factor),
resample=Image.BILINEAR,
)
def _get_paragraph_crops_and_labels(
iam: IAM, split: str
) -> Tuple[Dict[str, Image.Image], Dict[str, str]]:
"""Load IAM paragraph crops and labels for a given set."""
crops = {}
labels = {}
for form_filename in tqdm(
iam.form_filenames, desc=f"Processing {split} paragraphs"
):
id_ = form_filename.stem
if not iam.split_by_id[id_] == split:
continue
image = Image.open(form_filename)
image = ImageOps.grayscale(image)
image = ImageOps.invert(image)
line_regions = iam.line_regions_by_id[id_]
paragraph_box = [
min([region["x1"] for region in line_regions]),
min([region["y1"] for region in line_regions]),
max([region["x2"] for region in line_regions]),
max([region["y2"] for region in line_regions]),
]
lines = iam.line_strings_by_id[id_]
crops[id_] = image.crop(paragraph_box)
labels[id_] = metadata.NEW_LINE_TOKEN.join(lines)
if len(crops) != len(labels):
raise ValueError(f"Crops ({len(crops)}) does not match labels ({len(labels)})")
return crops, labels
def _save_crops_and_labels(
crops: Dict[str, Image.Image], labels: Dict[str, str], split: str
) -> None:
"""Save crops, labels, and shapes of crops of a split."""
(metadata.PROCESSED_DATA_DIRNAME / split).mkdir(parents=True, exist_ok=True)
with _labels_filename(split).open("w") as f:
json.dump(labels, f, indent=4)
for id_, crop in crops.items():
crop.save(_crop_filename(id_, split))
def _load_processed_crops_and_labels(
split: str,
) -> Tuple[Sequence[Image.Image], Sequence[str]]:
"""Load processed crops and labels for given split."""
with _labels_filename(split).open("r") as f:
labels = json.load(f)
sorted_ids = sorted(labels.keys())
ordered_crops = [
Image.open(_crop_filename(id_, split)).convert("L") for id_ in sorted_ids
]
ordered_labels = [labels[id_] for id_ in sorted_ids]
if len(ordered_crops) != len(ordered_labels):
raise ValueError(
f"Crops ({len(ordered_crops)}) does not match labels ({len(ordered_labels)})"
)
return ordered_crops, ordered_labels
def _labels_filename(split: str) -> Path:
"""Return filename of processed labels."""
return metadata.PROCESSED_DATA_DIRNAME / split / "_labels.json"
def _crop_filename(id: str, split: str) -> Path:
"""Return filename of processed crop."""
return metadata.PROCESSED_DATA_DIRNAME / split / f"{id}.png"
def _num_lines(label: str) -> int:
"""Return the number of lines of text in label."""
return label.count("\n") + 1
def create_iam_paragraphs() -> None:
"""Loads and displays dataset statistics."""
transform = ParagraphStem()
test_transform = ParagraphStem()
target_transform = Pad(metadata.MAX_LABEL_LENGTH, 3)
load_and_print_info(
IAMParagraphs(
transform=transform,
test_transform=test_transform,
target_transform=target_transform,
)
)
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