Datasets:

realnetworks-kontxt
/

arctic-hs

	# Copyright 2024 RealNetworks

	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at

	# http://www.apache.org/licenses/LICENSE-2.0

	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.


	from pathlib import Path
	from typing import (
	Any,
	Dict,
	Iterable,
	List,
	Tuple,
	)

	from datasets import (
	Audio,
	BuilderConfig,
	DatasetInfo,
	Features,
	GeneratorBasedBuilder,
	Split,
	SplitGenerator,
	Value,
	)
	from datasets.download.download_manager import (
	ArchiveIterable,
	DownloadManager,
	)
	import pandas as pd


	class ARCTICHSConfig(BuilderConfig):
	def __init__(
	self,
	name,
	**kwargs,
	):
	super(
	ARCTICHSConfig,
	self,
	).__init__(
	name=name,
	**kwargs,
	)

	if self.name.endswith("_symmetric"):
	self.is_symmetric = True
	self.part = "_".join(self.name.split("_")[:-1])
	else:
	self.is_symmetric = False
	self.part = self.name


	class ARCTICHSDataset(GeneratorBasedBuilder):
	DEFAULT_CONFIG_NAME = "cmu_us_symmetric"

	BUILDER_CONFIGS = [
	ARCTICHSConfig(name=name)
	for name in (
	"cmu_non-us",
	"cmu_us",
	"l2",
	"cmu_non-us_symmetric",
	"cmu_us_symmetric",
	"l2_symmetric",
	)
	]

	def get_audio_archive_path(
	self,
	) -> Path:
	return Path("data") / self.config.part / "splits" / f"test.tar.gz"

	def get_metadata_paths(
	self,
	) -> Dict[str, Path]:
	if self.config.part == "cmu_non-us":
	return {
	speaker: Path("data") / self.config.part / "pairs" / f"{speaker}.csv"
	for speaker in (
	"ahw",
	"aup",
	"awb",
	"axb",
	"fem",
	"gka",
	"jmk",
	"ksp",
	"rxr",
	"slp",
	)
	}
	elif self.config.part == "cmu_us":
	return {
	speaker: Path("data") / self.config.part / "pairs" / f"{speaker}.csv"
	for speaker in (
	"aew",
	"bdl",
	"clb",
	"eey",
	"ljm",
	"lnh",
	"rms",
	"slt",
	)
	}
	elif self.config.part == "l2":
	return {
	speaker: Path("data") / self.config.part / "pairs" / f"{speaker}.csv"
	for speaker in (
	"aba",
	"asi",
	"bwc",
	"ebvs",
	"erms",
	"hjk",
	"hkk",
	"hqtv",
	"lxc",
	"mbmps",
	"ncc",
	"njs",
	"pnv",
	"rrbi",
	"ska",
	"svbi",
	"thv",
	"tlv",
	"tni",
	"txhc",
	"ybaa",
	"ydck",
	"ykwk",
	"zhaa",
	)
	}

	def _info(self) -> DatasetInfo:
	return DatasetInfo(
	description="ARCTIC Human-Synthetic test dataset",
	features=Features(
	{
	"audio": Audio(sampling_rate=16000),
	"label": Value("string"),
	}
	),
	supervised_keys=None,
	homepage="https://huggingface.co/datasets/realnetworks-kontxt/arctic-hs",
	license="CC BY 4.0",
	citation="\n".join(
	(
	"@inproceedings{dropuljic-ssdww2v2ivls",
	"author={Dropuljić, Branimir and Šuflaj, Miljenko and Jertec, Andrej and Obadić, Leo}",
	"booktitle={2024 IEEE International Conference on Acoustics, Speech, and Signal Processing Workshops (ICASSPW)}",
	"title={Synthetic speech detection with Wav2Vec 2.0 in various language settings}",
	"year={2024}",
	"volume={}",
	"number={}",
	"pages={1-5}",
	"keywords={Synthetic speech detection;text-to-speech;wav2vec 2.0;spoofing attack;multilingualism}",
	"doi={}", # TODO: Add DOI once known
	"}",
	)
	),
	)

	def _split_generators(
	self,
	download_manager: DownloadManager,
	) -> List[SplitGenerator]:
	archive_iterable = self.get_audio_archive_path()
	archive_iterable = download_manager.download(archive_iterable)
	archive_iterable = download_manager.iter_archive(archive_iterable)

	speaker_to_metadata_path = self.get_metadata_paths()
	speaker_to_metadata_path = download_manager.download(speaker_to_metadata_path)

	return [
	SplitGenerator(
	name=Split.TEST,
	gen_kwargs={
	"archive_iterable": archive_iterable,
	"speaker_to_metadata_path": speaker_to_metadata_path,
	},
	),
	]

	def _generate_examples(
	self,
	archive_iterable: ArchiveIterable,
	speaker_to_metadata_path: Dict[str, Path],
	) -> Iterable[Tuple[int, Dict[str, Any]]]:
	speaker_to_symmetric = dict()
	for speaker, metadata_path in speaker_to_metadata_path.items():
	df = pd.read_csv(metadata_path).astype(
	{
	"name": str,
	"has_human_and_synthetic": bool,
	}
	)

	symmetric_names = df[df["has_human_and_synthetic"]]["name"].tolist()
	symmetric_names = set(symmetric_names)
	if len(symmetric_names) != 0:
	speaker_to_symmetric[speaker] = symmetric_names

	current_index = 0
	for audio_path, audio_file in archive_iterable:
	path = Path(audio_path)

	name = path.name

	# Samples are located in one of 2 folders:
	# - 'human'
	# - 'synthetic`
	#
	# Therefore the label is the name of their parent folder
	label = path.parent.name

	speaker = path.parent.parent.name

	if not self.config.is_symmetric or (
	speaker in speaker_to_symmetric
	and name in speaker_to_symmetric[speaker]
	):
	audio = {
	"path": audio_path,
	"bytes": audio_file.read(),
	}

	yield current_index, {
	"audio": audio,
	"label": label,
	}

	current_index += 1