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""" |
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Created on Tue Mar 12 16:13:56 2024 |
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@author: tominhanh |
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""" |
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import pandas as pd |
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from PIL import Image as PilImage |
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import datasets |
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from datasets import DatasetBuilder, GeneratorBasedBuilder, DownloadManager, DatasetInfo, Features, Image, ClassLabel, Value, Sequence, load_dataset, SplitGenerator |
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import os |
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import io |
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from typing import Tuple, Dict, List |
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import numpy as np |
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import zipfile |
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import requests |
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import random |
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from io import BytesIO |
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import csv |
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_CITATION = """\ |
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https://arxiv.org/abs/2102.09099 |
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""" |
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_DESCRIPTION = """\ |
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The comprehensive dataset contains over 220,000 single-rater and multi-rater labeled nuclei from breast cancer images |
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obtained from TCGA, making it one of the largest datasets for nucleus detection, classification, and segmentation in hematoxylin and eosin-stained |
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digital slides of breast cancer. This version of the dataset is a revised single-rater dataset, featuring over 125,000 nucleus csvs. |
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These nuclei were annotated through a collaborative effort involving pathologists, pathology residents, and medical students, using the Digital Slide Archive. |
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""" |
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_HOMEPAGE = "https://sites.google.com/view/nucls/home?authuser=0" |
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_LICENSE = "CC0 1.0 license" |
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_URL = "https://www.dropbox.com/scl/fi/srq574rdgvp7f5gwr60xw/NuCLS_dataset.zip?rlkey=qjc9q8shgvnqpfy4bktbqybd1&dl=1" |
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class NuCLSDataset(GeneratorBasedBuilder): |
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"""The NuCLS dataset.""" |
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VERSION = datasets.Version("1.1.0") |
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def _info(self): |
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"""Returns the dataset info.""" |
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raw_classification = ClassLabel(names=[ |
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'apoptotic_body', 'ductal_epithelium', 'eosinophil','fibroblast', 'lymphocyte', |
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'macrophage', 'mitotic_figure', 'myoepithelium', 'neutrophil', |
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'plasma_cell','tumor', 'unlabeled', 'vascular_endothelium' |
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]) |
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main_classification = ClassLabel(names=[ |
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'AMBIGUOUS', 'lymphocyte', 'macrophage', 'nonTILnonMQ_stromal', |
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'plasma_cell', 'tumor_mitotic', 'tumor_nonMitotic', |
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]) |
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super_classification = ClassLabel(names=[ |
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'AMBIGUOUS','nonTIL_stromal','sTIL', 'tumor_any', |
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]) |
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type = ClassLabel(names=['rectangle', 'polyline']) |
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features = Features({ |
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'rgb_image': Image(decode=True), |
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'mask_image': Image(decode=True), |
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'visualization_image': Image(decode=True), |
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'annotation_coordinates': Features({ |
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'raw_classification': Sequence(Value("string")), |
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'main_classification': Sequence(Value("string")), |
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'super_classification': Sequence(Value("string")), |
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'type': Sequence(Value("string")), |
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'xmin': Sequence(Value('int64')), |
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'ymin': Sequence(Value('int64')), |
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'xmax': Sequence(Value('int64')), |
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'ymax': Sequence(Value('int64')), |
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'coords_x': Sequence(Sequence(Value('int64'))), |
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'coords_y': Sequence(Sequence(Value('int64'))), |
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}) |
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}) |
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return DatasetInfo( |
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description=_DESCRIPTION, |
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features=features, |
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supervised_keys=None, |
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homepage=_HOMEPAGE, |
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license=_LICENSE, |
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citation=_CITATION, |
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) |
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def _split_generators(self, dl_manager: DownloadManager): |
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data_dir = dl_manager.download_and_extract(_URL) |
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base_dir = os.path.join(data_dir, "NuCLS_dataset") |
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rgb_dir = os.path.join(base_dir, "rgb") |
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visualization_dir = os.path.join(base_dir, "visualization") |
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mask_dir = os.path.join(base_dir, "mask") |
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csv_dir = os.path.join(base_dir, "csv") |
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unique_filenames = [os.path.splitext(f)[0] for f in os.listdir(rgb_dir)] |
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random.shuffle(unique_filenames) |
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split_idx = int(0.8 * len(unique_filenames)) |
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train_filenames = unique_filenames[:split_idx] |
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test_filenames = unique_filenames[split_idx:] |
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train_filepaths = self._map_filenames_to_paths(train_filenames, rgb_dir, visualization_dir, mask_dir, csv_dir) |
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test_filepaths = self._map_filenames_to_paths(test_filenames, rgb_dir, visualization_dir, mask_dir, csv_dir) |
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return [ |
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datasets.SplitGenerator( |
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name=datasets.Split.TRAIN, |
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gen_kwargs={"filepaths": train_filepaths} |
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), |
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datasets.SplitGenerator( |
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name=datasets.Split.TEST, |
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gen_kwargs={"filepaths": test_filepaths} |
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), |
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] |
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def _map_filenames_to_paths(self, filenames, rgb_dir, visualization_dir, mask_dir, csv_dir): |
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"""Maps filenames to file paths for each split.""" |
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filepaths = {} |
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for filename in filenames: |
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filepaths[filename] = { |
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'rgb': os.path.join(rgb_dir, filename + '.png'), |
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'visualization': os.path.join(visualization_dir, filename + '.png'), |
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'mask': os.path.join(mask_dir, filename + '.png'), |
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'csv': os.path.join(csv_dir, filename + '.csv'), |
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} |
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return filepaths |
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def _generate_examples(self, filepaths): |
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"""Yield examples as (key, example) tuples.""" |
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for key, paths in filepaths.items(): |
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rgb_image = self._read_image_file(paths['rgb']) |
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mask_image = self._read_image_file(paths['mask']) |
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visualization_image = self._read_image_file(paths['visualization']) |
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annotation_coordinates = self._read_csv_file(paths['csv']) |
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yield key, { |
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'rgb_image': rgb_image, |
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'mask_image': mask_image, |
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'visualization_image': visualization_image, |
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'annotation_coordinates': annotation_coordinates, |
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} |
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def _read_image_file(self, file_path: str, ) -> bytes: |
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"""Reads an image file and returns it as a bytes_like object.""" |
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try: |
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with open(file_path, 'rb') as f: |
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return f.read() |
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except Exception as e: |
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print(f"Error reading image file {file_path}: {e}") |
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return None |
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def _read_csv_file(self, filepath): |
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"""Reads the annotation CSV file and formats the data.""" |
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with open(filepath, 'r', encoding='utf-8') as csvfile: |
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reader = csv.DictReader(csvfile) |
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annotations = { |
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'raw_classification': [], |
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'main_classification': [], |
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'super_classification': [], |
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'type': [], |
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'xmin': [], |
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'ymin': [], |
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'xmax': [], |
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'ymax': [], |
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'coords_x': [], |
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'coords_y': [] |
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} |
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for row in reader: |
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annotations['raw_classification'].append(row.get('raw_classification', '')) |
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annotations['main_classification'].append(row.get('main_classification', '')) |
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annotations['super_classification'].append(row.get('super_classification', '')) |
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annotations['type'].append(row.get('type', '')) |
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annotations['xmin'].append(int(row.get('xmin', 0))) |
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annotations['ymin'].append(int(row.get('ymin', 0))) |
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annotations['xmax'].append(int(row.get('xmax', 0))) |
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annotations['ymax'].append(int(row.get('ymax', 0))) |
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coords_x = row.get('coords_x', '') |
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coords_y = row.get('coords_y', '') |
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annotations['coords_x'].append([int(coord) if coord.isdigit() else 0 for coord in coords_x.split(',')]) |
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annotations['coords_y'].append([int(coord) if coord.isdigit() else 0 for coord in coords_y.split(',')]) |
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return annotations |
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