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"""\ |
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Script for loading air traffic control (ATC) speech datasets for automatic speech recognition (ASR). |
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This script has been designed for ATC datasets that are in Kaldi format |
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Required files: text, wav.scp and segments files |
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- Databases |
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- Training: |
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- ATCOSIM, LDC-ATCC and, UWB-ATCC corpora. |
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- Testing: |
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- ATCO2-test-set, ATCOSIM, LDC-ATCC and, UWB-ATCC corpora. |
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""" |
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import os |
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import re |
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import datasets |
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import numpy as np |
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import soundfile as sf |
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from datasets.tasks import AutomaticSpeechRecognition |
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_CITATION = """\ |
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@article{zuluaga2022does, |
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title={How Does Pre-trained Wav2Vec 2.0 Perform on Domain Shifted ASR? An Extensive Benchmark on Air Traffic Control Communications}, |
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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}, |
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journal={2022 IEEE Spoken Language Technology Workshop (SLT), Doha, Qatar}, |
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year={2022} |
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} |
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@article{zuluagabertraffic, |
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title={BERTraffic: BERT-based Joint Speaker Role and Speaker Change Detection for Air Traffic Control Communications (submitted to @ SLT-2022)}, |
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author={Zuluaga-Gomez, Juan and Sarfjoo, Seyyed Saeed and Prasad, Amrutha and Nigmatulina, Iuliia and Motlicek, Petr and Ohneiser, Oliver and Helmke, Hartmut}, |
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journal={2022 IEEE Spoken Language Technology Workshop (SLT), Doha, Qatar}, |
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year={2022} |
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} |
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""" |
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_DESCRIPTION = """\ |
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ATC speech DATASET. This DataLoader works with data in Kaldi format. |
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- We use the following files: text, segments and wav.scp |
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- text --> utt_id transcript |
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- segments --> utt_id recording_id t_begin t_end |
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- wav.scp --> recording_id /path/to/wav/ |
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The default dataset is from ATCO2 project, a 1-hour sample: https://www.replaywell.com/atco2/download/ATCO2-ASRdataset-v1_beta.tgz |
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""" |
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_DATA_URL = "http://catalog.elra.info/en-us/repository/browse/ELRA-S0484/" |
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_HOMEPAGE = "https://github.com/idiap/w2v2-air-traffic" |
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logger = datasets.logging.get_logger(__name__) |
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_SAMPLING_RATE = int(16000) |
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class ATCDataASRConfig(datasets.BuilderConfig): |
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"""BuilderConfig for air traffic control datasets.""" |
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def __init__(self, **kwargs): |
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""" |
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Args: |
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data_dir: `string`, the path to the folder containing the files required to read: json or wav.scp |
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**kwargs: keyword arguments forwarded to super. |
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""" |
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super(ATCDataASRConfig, self).__init__(**kwargs) |
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class ATCDataASR(datasets.GeneratorBasedBuilder): |
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DEFAULT_WRITER_BATCH_SIZE = 256 |
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DEFAULT_CONFIG_NAME = "all" |
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BUILDER_CONFIGS = [ |
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ATCDataASRConfig(name="train", description="ATC train dataset."), |
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ATCDataASRConfig(name="dev", description="ATC dev dataset."), |
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ATCDataASRConfig(name="test", description="ATC test dataset."), |
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ATCDataASRConfig(name="unsupervised", description="ATC unsupervised dataset."), |
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] |
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def _info(self): |
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return datasets.DatasetInfo( |
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description=_DESCRIPTION, |
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features=datasets.Features( |
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{ |
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"id": datasets.Value("string"), |
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"file": datasets.Value("string"), |
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"audio": datasets.features.Audio(sampling_rate=_SAMPLING_RATE), |
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"text": datasets.Value("string"), |
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"segment_start_time": datasets.Value("float"), |
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"segment_end_time": datasets.Value("float"), |
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"duration": datasets.Value("float"), |
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} |
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), |
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supervised_keys=("audio", "text"), |
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homepage=_HOMEPAGE, |
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citation=_CITATION, |
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task_templates=[ |
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AutomaticSpeechRecognition( |
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audio_column="audio", transcription_column="text" |
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) |
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], |
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) |
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def _split_generators(self, dlmanager): |
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"""Returns SplitGenerators.""" |
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split = self.config.name |
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if "unsupervised" in split: |
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split_name = datasets.Split.TEST |
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elif "test" in split or "dev" in split or "dummy" in split: |
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split_name = datasets.Split.TEST |
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else: |
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split_name = datasets.Split.TRAIN |
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filepath = self.config.data_dir |
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return [ |
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datasets.SplitGenerator( |
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name=split_name, |
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gen_kwargs={ |
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"filepath": filepath, |
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"split": split, |
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}, |
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) |
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] |
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def _generate_examples(self, filepath, split): |
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"""You need to pass a path with the kaldi data, the folder should have |
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audio: wav.scp, |
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transcripts: text, |
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timing information: segments |
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""" |
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logger.info("Generating examples located in: %s", filepath) |
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text_file = os.path.join(filepath, "text") |
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wavscp = os.path.join(filepath, "wav.scp") |
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segments = os.path.join(filepath, "segments") |
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id_ = "" |
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text_dict, wav_dict = {}, {} |
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segments_dict, utt2wav_id = {}, {} |
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line = 0 |
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with open(text_file) as text_f: |
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for line in text_f: |
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if len(line.split(" ")) > 1: |
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id_, transcript = line.split(" ", maxsplit=1) |
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transcript = _remove_special_characters(transcript) |
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if len(transcript.split(" ")) == 0: |
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continue |
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if len(transcript) < 2: |
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continue |
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text_dict[id_] = transcript |
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else: |
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if not "test_unsup" in self.config.name: |
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continue |
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id_ = line.rstrip().split(" ")[0] |
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text_dict[id_] = "" |
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with open(wavscp) as text_f: |
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for line in text_f: |
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if line: |
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if len(line.split()) < 2: |
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continue |
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id_, wavpath = line.split(" ", maxsplit=1) |
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wavpath = [ |
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x |
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for x in wavpath.split(" ") |
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if ".wav" in x or ".WAV" in x or ".flac" in x or ".sph" in x |
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][0].rstrip() |
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segment, sampling_rate = sf.read(wavpath, dtype=np.int16) |
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wav_dict[id_] = [wavpath.rstrip(), segment, sampling_rate] |
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with open(segments) as text_f: |
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for line in text_f: |
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if line: |
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if len(line.split()) < 4: |
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continue |
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id_, wavid_, start, end = line.rstrip().split(" ") |
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segments_dict[id_] = start.rstrip(), end.rstrip() |
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utt2wav_id[id_] = wavid_ |
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for rec_id, text in text_dict.items(): |
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if rec_id in utt2wav_id and rec_id in segments_dict: |
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wavpath, segment, sampling_rate = wav_dict[utt2wav_id[rec_id]] |
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seg_start, seg_end = segments_dict[rec_id] |
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seg_start, seg_end = float(seg_start), float(seg_end) |
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duration = round((seg_end - seg_start), 3) |
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samples = _extract_audio_segment( |
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segment, sampling_rate, float(seg_start), float(seg_end) |
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) |
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example = { |
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"audio": { |
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"path": wavpath, |
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"array": samples, |
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"sampling_rate": sampling_rate, |
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}, |
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"id": rec_id, |
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"file": wavpath, |
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"text": text, |
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"segment_start_time": format(float(seg_start), ".3f"), |
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"segment_end_time": format(float(seg_end), ".3f"), |
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"duration": format(float(duration), ".3f"), |
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} |
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yield rec_id, example |
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def _remove_special_characters(text): |
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"""Function to remove some special chars/symbols from the given transcript""" |
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text = text.split(" ") |
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text = " ".join( |
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[ |
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x for x in text |
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if "[" not in x and "]" not in x and "<" not in x and ">" not in x |
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] |
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) |
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chars_to_ignore_regex2 = '[\{\[\]\<\>\/\,\?\.\!\u00AC\;\:"\\%\\\]|[0-9]' |
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text = re.sub(chars_to_ignore_regex2, "", text).lower() |
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sentence = text.replace("\u2013", "-") |
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sentence = sentence.replace("\u2014", "-") |
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sentence = sentence.replace("\u2018", "'") |
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sentence = sentence.replace("\u201C", "") |
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sentence = sentence.replace("\u201D", "") |
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sentence = sentence.replace("ñ", "n") |
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sentence = sentence.replace(" - ", " ") |
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sentence = sentence.replace("-", "") |
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sentence = sentence.replace("'", " ") |
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return sentence.lower().rstrip() |
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def _extract_audio_segment(segment, sampling_rate, start_sec, end_sec): |
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"""Extracts segment of audio samples (as an ndarray) from the given segment.""" |
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start_sample = int(start_sec * sampling_rate) |
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end_sample = min(int(end_sec * sampling_rate), segment.shape[0]) |
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samples = segment[start_sample:end_sample] |
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return samples |
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