import datasets import textwrap from sklearn.datasets import fetch_20newsgroups from sklearn.model_selection import train_test_split import pandas as pd _NEWSGROUPS = [ "alt.atheism", "comp.graphics", "comp.os.ms-windows.misc", "comp.sys.ibm.pc.hardware", "comp.sys.mac.hardware", "comp.windows.x", "misc.forsale", "rec.autos", "rec.motorcycles", "rec.sport.baseball", "rec.sport.hockey", "sci.crypt", "sci.electronics", "sci.med", "sci.space", "soc.religion.christian", "talk.politics.guns", "talk.politics.mideast", "talk.politics.misc", "talk.religion.misc", ] _DESCRIPTION = textwrap.dedent( """\ The bydate version of the 20-newsgroup dataset fetched from scikit_learn and split in stratified manner into train, validation and test sets. With and without metadata is made available as individual config names. The test set from the original 20 newsgroup dataset is retained while the original train set is split 80:20 into train and validation sets in stratified manner based on the newsgroup. The 20 different newsgroup are provided as the labels instead of config names as specified in the official huggingface dataset. Newsgroups are specified as labels to provide a simplified setup for text classification task. The 20 different newsgroup functioning as labels are: """ ) _DESCRIPTION += "\n".join(f"({i+1}) {j}" for i, j in enumerate(_NEWSGROUPS)) _HOMEPAGE = "http://qwone.com/~jason/20Newsgroups/" _CITATION = """ @inproceedings{Lang95, author = {Ken Lang}, title = {Newsweeder: Learning to filter netnews} year = {1995} booktitle = {Proceedings of the Twelfth International Conference on Machine Learning} pages = {331-339} } """ _VERSION = datasets.utils.Version("2.0.0") class NewsgroupsConfig(datasets.BuilderConfig): def __init__(self, **kwargs): super(NewsgroupsConfig, self).__init__(version=_VERSION, **kwargs) class Newsgroups(datasets.GeneratorBasedBuilder): BUILDER_CONFIGS = [ NewsgroupsConfig( name="with_metadata", description=textwrap.dedent( """\ The original complete bydate 20-Newsgroups dataset with the headers, footers, and quotes metadata as intact and just the continuous whitespaces (including new-line) replaced by single whitespace characters.""" ), ), NewsgroupsConfig( name="without_metadata", description=textwrap.dedent( """\ The bydate 20-Newsgroups dataset without the headers, footers, and quotes metadata as well as the continuous whitespaces (including new-line) replaced by single whitespace characters.""" ), ), ] def _info(self): features = datasets.Features( { "text": datasets.Value("large_string"), "labels": datasets.features.ClassLabel(names=_NEWSGROUPS), } ) return datasets.DatasetInfo( description=_DESCRIPTION, features=features, supervised_keys=None, homepage=_HOMEPAGE, citation=_CITATION, ) def _split_generators(self, dl_manager): if self.config.name == "with_metadata": train_data = fetch_20newsgroups(subset="train", random_state=42) test_data = fetch_20newsgroups(subset="test", random_state=42) else: train_data = fetch_20newsgroups( subset="train", random_state=42, remove=("headers", "footers", "quotes") ) test_data = fetch_20newsgroups( subset="test", random_state=42, remove=("headers", "footers", "quotes") ) empty_data_idcs = set( [i for i, j in enumerate(train_data.data) if j.strip() == ""] ) train_data.data = [ j for i, j in enumerate(train_data.data) if i not in empty_data_idcs ] train_data.target = [ j for i, j in enumerate(train_data.target) if i not in empty_data_idcs ] empty_data_idcs = set( [i for i, j in enumerate(test_data.data) if j.strip() == ""] ) test_data.data = [ j for i, j in enumerate(test_data.data) if i not in empty_data_idcs ] test_data.target = [ j for i, j in enumerate(test_data.target) if i not in empty_data_idcs ] train_labels = [train_data.target_names[i] for i in train_data.target] test_labels = [test_data.target_names[i] for i in test_data.target] train_df = pd.DataFrame({"text": train_data.data, "labels": train_labels}) test_df = pd.DataFrame({"text": test_data.data, "labels": test_labels}) train_df["text"] = train_df["text"].str.replace("\s+", " ", regex=True) test_df["text"] = test_df["text"].str.replace("\s+", " ", regex=True) train_df, val_df = train_test_split( train_df, test_size=0.2, random_state=42, stratify=train_df["labels"] ) train_df = train_df.reset_index(drop=True) val_df = val_df.reset_index(drop=True) return [ datasets.SplitGenerator( name=datasets.Split.TRAIN, gen_kwargs={"df": train_df} ), datasets.SplitGenerator( name=datasets.Split.VALIDATION, gen_kwargs={"df": val_df} ), datasets.SplitGenerator( name=datasets.Split.TEST, gen_kwargs={"df": test_df} ), ] def _generate_examples(self, df): for idx, row in df.iterrows(): yield idx, row.to_dict()