Datasets:

mstz
/

breast

	from typing import List

	import datasets

	import pandas


	VERSION = datasets.Version("1.0.0")
	_ORIGINAL_FEATURE_NAMES = [
	"id",
	"clump_thickness",
	"uniformity_of_cell_size",
	"uniformity_of_cell_shape",
	"marginal_adhesion",
	"single_epithelial_cell_size",
	"bare_nuclei",
	"bland_chromatin",
	"normal_nucleoli",
	"mitoses",
	"is_cancer"
	]
	_BASE_FEATURE_NAMES = [
	"clump_thickness",
	"uniformity_of_cell_size",
	"uniformity_of_cell_shape",
	"marginal_adhesion",
	"single_epithelial_cell_size",
	"bare_nuclei",
	"bland_chromatin",
	"normal_nucleoli",
	"mitoses",
	"is_cancer"
	]

	DESCRIPTION = "Breast dataset for cancer prediction."
	_HOMEPAGE = "https://archive.ics.uci.edu/ml/datasets/Breast+Cancer+Wisconsin+%28Original%29"
	_URLS = ("https://huggingface.co/datasets/mstz/breast/raw/main/breast-cancer-wisconsin.data")
	_CITATION = """
	@article{wolberg1990multisurface,
	title={Multisurface method of pattern separation for medical diagnosis applied to breast cytology.},
	author={Wolberg, William H and Mangasarian, Olvi L},
	journal={Proceedings of the national academy of sciences},
	volume={87},
	number={23},
	pages={9193--9196},
	year={1990},
	publisher={National Acad Sciences}
	}
	"""

	# Dataset info
	urls_per_split = {
	"train": "https://huggingface.co/datasets/mstz/breast/raw/main/breast-cancer-wisconsin.data",
	}
	features_types_per_config = {
	"cancer": {
	"clump_thickness": datasets.Value("int8"),
	"uniformity_of_cell_size": datasets.Value("int8"),
	"uniformity_of_cell_shape": datasets.Value("int8"),
	"marginal_adhesion": datasets.Value("int8"),
	"single_epithelial_cell_size": datasets.Value("int8"),
	"bare_nuclei": datasets.Value("int8"),
	"bland_chromatin": datasets.Value("int8"),
	"normal_nucleoli": datasets.Value("int8"),
	"mitoses": datasets.Value("int8"),
	"is_cancer": datasets.ClassLabel(num_classes=2, names=("no", "yes"))
	}

	}
	features_per_config = {k: datasets.Features(features_types_per_config[k]) for k in features_types_per_config}


	class BreastConfig(datasets.BuilderConfig):
	def __init__(self, **kwargs):
	super(BreastConfig, self).__init__(version=VERSION, **kwargs)
	self.features = features_per_config[kwargs["name"]]


	class Breast(datasets.GeneratorBasedBuilder):
	# dataset versions
	DEFAULT_CONFIG = "cancer"
	BUILDER_CONFIGS = [
	BreastConfig(name="cancer",
	description="Breast cancer binary classification."),
	]


	def _info(self):
	info = datasets.DatasetInfo(description=DESCRIPTION, citation=_CITATION, homepage=_HOMEPAGE,
	features=features_per_config[self.config.name])

	return info

	def _split_generators(self, dl_manager: datasets.DownloadManager) -> List[datasets.SplitGenerator]:
	downloads = dl_manager.download_and_extract(urls_per_split)

	return [
	datasets.SplitGenerator(name=datasets.Split.TRAIN, gen_kwargs={"filepath": downloads["train"]}),
	]

	def _generate_examples(self, filepath: str):
	if self.config.name == "cancer":
	data = pandas.read_csv(filepath, header=None)
	data.columns=_ORIGINAL_FEATURE_NAMES

	data = self.preprocess(data, config=self.config.name)

	for row_id, row in data.iterrows():
	data_row = dict(row)

	yield row_id, data_row
	else:
	raise ValueError(f"Unknown config: {self.config.name}")

	def preprocess(self, data: pandas.DataFrame, config: str = "cancer") -> pandas.DataFrame:
	data.drop("id", axis="columns", inplace=True)

	data = data[data.bare_nuclei != "?"]
	data = data.astype({f: int for f in data.columns})

	data.columns = _BASE_FEATURE_NAMES
	data.loc[:, "is_cancer"] = data.is_cancer.apply(lambda x: 0 if x == 2 else 1)


	return data