Datasets:

Jzuluaga
/

atcosim_corpus

	#!/usr/bin/env python3
	# -- coding: utf-8 --
	#
	# SPDX-FileCopyrightText: Copyright © <2022> Idiap Research Institute <contact@idiap.ch>
	#
	# SPDX-FileContributor: Juan Zuluaga-Gomez <jzuluaga@idiap.ch>
	#
	# SPDX-License-Identifier: MIT-License

	"""\
	Script for loading air traffic control (ATC) speech datasets for automatic speech recognition (ASR).
	This script has been designed for ATC datasets that are in Kaldi format

	Required files: text, wav.scp and segments files

	- Databases
	- Training:
	- ATCOSIM, LDC-ATCC and, UWB-ATCC corpora.
	- Testing:
	- ATCO2-test-set, ATCOSIM, LDC-ATCC and, UWB-ATCC corpora.
	"""

	import os
	import re

	import datasets
	import numpy as np
	import soundfile as sf
	from datasets.tasks import AutomaticSpeechRecognition

	_CITATION = """\
	@article{zuluaga2022does,
	title={How Does Pre-trained Wav2Vec 2.0 Perform on Domain Shifted ASR? An Extensive Benchmark on Air Traffic Control Communications},
	author={Zuluaga-Gomez, Juan and Prasad, Amrutha and Nigmatulina, Iuliia and Sarfjoo, Saeed and Motlicek, Petr and Kleinert, Matthias and Helmke, Hartmut and Ohneiser, Oliver and Zhan, Qingran},
	journal={2022 IEEE Spoken Language Technology Workshop (SLT), Doha, Qatar},
	year={2022}
	}
	@article{zuluagabertraffic,
	title={BERTraffic: BERT-based Joint Speaker Role and Speaker Change Detection for Air Traffic Control Communications (submitted to @ SLT-2022)},
	author={Zuluaga-Gomez, Juan and Sarfjoo, Seyyed Saeed and Prasad, Amrutha and Nigmatulina, Iuliia and Motlicek, Petr and Ohneiser, Oliver and Helmke, Hartmut},
	journal={2022 IEEE Spoken Language Technology Workshop (SLT), Doha, Qatar},
	year={2022}
	}
	"""

	_DESCRIPTION = """\
	ATC speech DATASET. This DataLoader works with data in Kaldi format.
	- We use the following files: text, segments and wav.scp
	- text --> utt_id transcript
	- segments --> utt_id recording_id t_begin t_end
	- wav.scp --> recording_id /path/to/wav/
	The default dataset is from ATCO2 project, a 1-hour sample: https://www.replaywell.com/atco2/download/ATCO2-ASRdataset-v1_beta.tgz
	"""

	_DATA_URL = "http://catalog.elra.info/en-us/repository/browse/ELRA-S0484/"

	_HOMEPAGE = "https://github.com/idiap/w2v2-air-traffic"

	logger = datasets.logging.get_logger(__name__)

	# Our models work with audio data at 16kHZ,
	_SAMPLING_RATE = int(16000)


	class ATCDataASRConfig(datasets.BuilderConfig):
	"""BuilderConfig for air traffic control datasets."""

	def __init__(self, **kwargs):
	"""
	Args:
	data_dir: `string`, the path to the folder containing the files required to read: json or wav.scp
	**kwargs: keyword arguments forwarded to super.
	"""
	super(ATCDataASRConfig, self).__init__(**kwargs)


	class ATCDataASR(datasets.GeneratorBasedBuilder):

	DEFAULT_WRITER_BATCH_SIZE = 256
	DEFAULT_CONFIG_NAME = "all"
	BUILDER_CONFIGS = [
	# TRAIN, DEV AND TEST DATASETS
	ATCDataASRConfig(name="train", description="ATC train dataset."),
	ATCDataASRConfig(name="dev", description="ATC dev dataset."),
	ATCDataASRConfig(name="test", description="ATC test dataset."),
	# UNSUPERVISED DATASETS
	ATCDataASRConfig(name="unsupervised", description="ATC unsupervised dataset."),
	]

	# provide some information about the Dataset we just gathered
	def _info(self):
	return datasets.DatasetInfo(
	description=_DESCRIPTION,
	features=datasets.Features(
	{
	"id": datasets.Value("string"),
	"file": datasets.Value("string"),
	"audio": datasets.features.Audio(sampling_rate=_SAMPLING_RATE),
	"text": datasets.Value("string"),
	"segment_start_time": datasets.Value("float"),
	"segment_end_time": datasets.Value("float"),
	"duration": datasets.Value("float"),
	}
	),
	supervised_keys=("audio", "text"),
	homepage=_HOMEPAGE,
	citation=_CITATION,
	task_templates=[
	AutomaticSpeechRecognition(
	audio_column="audio", transcription_column="text"
	)
	],
	)

	def _split_generators(self, dlmanager):
	"""Returns SplitGenerators."""

	split = self.config.name

	# UNSUPERVISED set (used only for decoding)
	if "unsupervised" in split:
	split_name = datasets.Split.TEST
	elif "test" in split or "dev" in split or "dummy" in split:
	split_name = datasets.Split.TEST
	# The last option left is: Train set
	else:
	split_name = datasets.Split.TRAIN

	# you need to pass a data directory where the Kaldi folder is stored
	filepath = self.config.data_dir

	return [
	datasets.SplitGenerator(
	name=split_name,
	# These kwargs will be passed to _generate_examples
	gen_kwargs={
	"filepath": filepath,
	"split": split,
	},
	)
	]

	def _generate_examples(self, filepath, split):
	"""You need to pass a path with the kaldi data, the folder should have
	audio: wav.scp,
	transcripts: text,
	timing information: segments
	"""

	logger.info("Generating examples located in: %s", filepath)

	text_file = os.path.join(filepath, "text")
	wavscp = os.path.join(filepath, "wav.scp")
	segments = os.path.join(filepath, "segments")

	id_ = ""
	text_dict, wav_dict = {}, {}
	segments_dict, utt2wav_id = {}, {}

	line = 0
	# get the text file
	with open(text_file) as text_f:
	for line in text_f:
	if len(line.split(" ")) > 1:
	id_, transcript = line.split(" ", maxsplit=1)
	transcript = _remove_special_characters(transcript)
	if len(transcript.split(" ")) == 0:
	continue
	if len(transcript) < 2:
	continue
	text_dict[id_] = transcript
	else: # line is empty
	# if unsupervised set, then it's normal. else, continue
	if not "test_unsup" in self.config.name:
	continue
	id_ = line.rstrip().split(" ")[0]
	text_dict[id_] = ""

	# get wav.scp and load data into memory
	with open(wavscp) as text_f:
	for line in text_f:
	if line:
	if len(line.split()) < 2:
	continue
	id_, wavpath = line.split(" ", maxsplit=1)
	# only selects the part that ends of wav, flac or sph
	wavpath = [
	x
	for x in wavpath.split(" ")
	if ".wav" in x or ".WAV" in x or ".flac" in x or ".sph" in x
	][0].rstrip()

	# make the output
	segment, sampling_rate = sf.read(wavpath, dtype=np.int16)
	wav_dict[id_] = [wavpath.rstrip(), segment, sampling_rate]

	# get segments dictionary
	with open(segments) as text_f:
	for line in text_f:
	if line:
	if len(line.split()) < 4:
	continue
	id_, wavid_, start, end = line.rstrip().split(" ")
	segments_dict[id_] = start.rstrip(), end.rstrip()
	utt2wav_id[id_] = wavid_

	for rec_id, text in text_dict.items():
	if rec_id in utt2wav_id and rec_id in segments_dict:

	# get audio data from memory and the path of the file
	wavpath, segment, sampling_rate = wav_dict[utt2wav_id[rec_id]]
	# get timing information
	seg_start, seg_end = segments_dict[rec_id]
	seg_start, seg_end = float(seg_start), float(seg_end)
	duration = round((seg_end - seg_start), 3)

	# get the samples, bytes, already cropping by segment,
	samples = _extract_audio_segment(
	segment, sampling_rate, float(seg_start), float(seg_end)
	)

	# output data for given dataset
	example = {
	"audio": {
	"path": wavpath,
	"array": samples,
	"sampling_rate": sampling_rate,
	},
	"id": rec_id,
	"file": wavpath,
	"text": text,
	"segment_start_time": format(float(seg_start), ".3f"),
	"segment_end_time": format(float(seg_end), ".3f"),
	"duration": format(float(duration), ".3f"),
	}

	yield rec_id, example


	def _remove_special_characters(text):
	"""Function to remove some special chars/symbols from the given transcript"""

	text = text.split(" ")
	# first remove words between [] and <>
	text = " ".join(
	[
	x
	for x in text
	if "[" not in x and "]" not in x and "<" not in x and ">" not in x
	]
	)

	# regex with predifined symbols to ignore/remove,
	chars_to_ignore_regex2 = '[\{\[\]\<\>\/\,\?\.\!\u00AC\;\:"\\%\\\]\|[0-9]'

	text = re.sub(chars_to_ignore_regex2, "", text).lower()
	sentence = text.replace("\u2013", "-")
	sentence = sentence.replace("\u2014", "-")
	sentence = sentence.replace("\u2018", "'")
	sentence = sentence.replace("\u201C", "")
	sentence = sentence.replace("\u201D", "")
	sentence = sentence.replace("ñ", "n")
	sentence = sentence.replace(" - ", " ")
	sentence = sentence.replace("-", "")
	sentence = sentence.replace("'", " ")
	return sentence.lower().rstrip()


	def _extract_audio_segment(segment, sampling_rate, start_sec, end_sec):
	"""Extracts segment of audio samples (as an ndarray) from the given segment."""
	# The dataset only contains mono audio.
	start_sample = int(start_sec * sampling_rate)
	end_sample = min(int(end_sec * sampling_rate), segment.shape[0])
	samples = segment[start_sample:end_sample]
	return samples