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"""TODO: Add a description here.""" |
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import glob |
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import os |
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import pandas as pd |
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import datasets |
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_CITATION = """\ |
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@misc{friedrich2020sofcexp, |
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title={The SOFC-Exp Corpus and Neural Approaches to Information Extraction in the Materials Science Domain}, |
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author={Annemarie Friedrich and Heike Adel and Federico Tomazic and Johannes Hingerl and Renou Benteau and Anika Maruscyk and Lukas Lange}, |
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year={2020}, |
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eprint={2006.03039}, |
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archivePrefix={arXiv}, |
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primaryClass={cs.CL} |
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} |
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""" |
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_DESCRIPTION = """\ |
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The SOFC-Exp corpus consists of 45 open-access scholarly articles annotated by domain experts. |
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A corpus and an inter-annotator agreement study demonstrate the complexity of the suggested |
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named entity recognition and slot filling tasks as well as high annotation quality is presented |
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in the accompanying paper. |
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""" |
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_HOMEPAGE = "https://arxiv.org/abs/2006.03039" |
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_LICENSE = "" |
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_URL = "data.zip" |
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class SOFCMaterialsArticles(datasets.GeneratorBasedBuilder): |
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""" """ |
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VERSION = datasets.Version("1.1.0") |
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def _info(self): |
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features = datasets.Features( |
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{ |
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"text": datasets.Value("string"), |
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"sentence_offsets": datasets.features.Sequence( |
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{"begin_char_offset": datasets.Value("int64"), "end_char_offset": datasets.Value("int64")} |
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), |
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"sentences": datasets.features.Sequence(datasets.Value("string")), |
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"sentence_labels": datasets.features.Sequence(datasets.Value("int64")), |
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"token_offsets": datasets.features.Sequence( |
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{ |
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"offsets": datasets.features.Sequence( |
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{"begin_char_offset": datasets.Value("int64"), "end_char_offset": datasets.Value("int64")} |
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) |
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} |
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), |
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"tokens": datasets.features.Sequence(datasets.features.Sequence(datasets.Value("string"))), |
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"entity_labels": datasets.features.Sequence( |
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datasets.features.Sequence( |
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datasets.features.ClassLabel( |
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names=[ |
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"B-DEVICE", |
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"B-EXPERIMENT", |
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"B-MATERIAL", |
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"B-VALUE", |
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"I-DEVICE", |
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"I-EXPERIMENT", |
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"I-MATERIAL", |
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"I-VALUE", |
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"O", |
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] |
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) |
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) |
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), |
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"slot_labels": datasets.features.Sequence( |
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datasets.features.Sequence( |
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datasets.features.ClassLabel( |
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names=[ |
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"B-anode_material", |
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"B-cathode_material", |
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"B-conductivity", |
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"B-current_density", |
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"B-degradation_rate", |
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"B-device", |
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"B-electrolyte_material", |
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"B-experiment_evoking_word", |
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"B-fuel_used", |
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"B-interlayer_material", |
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"B-interconnect_material", |
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"B-open_circuit_voltage", |
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"B-power_density", |
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"B-resistance", |
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"B-support_material", |
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"B-thickness", |
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"B-time_of_operation", |
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"B-voltage", |
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"B-working_temperature", |
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"I-anode_material", |
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"I-cathode_material", |
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"I-conductivity", |
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"I-current_density", |
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"I-degradation_rate", |
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"I-device", |
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"I-electrolyte_material", |
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"I-experiment_evoking_word", |
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"I-fuel_used", |
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"I-interlayer_material", |
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"I-interconnect_material", |
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"I-open_circuit_voltage", |
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"I-power_density", |
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"I-resistance", |
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"I-support_material", |
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"I-thickness", |
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"I-time_of_operation", |
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"I-voltage", |
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"I-working_temperature", |
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"O", |
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] |
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) |
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) |
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), |
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"links": datasets.Sequence( |
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{ |
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"relation_label": datasets.features.ClassLabel( |
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names=["coreference", "experiment_variation", "same_experiment", "thickness"] |
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), |
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"start_span_id": datasets.Value("int64"), |
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"end_span_id": datasets.Value("int64"), |
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} |
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), |
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"slots": datasets.features.Sequence( |
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{ |
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"frame_participant_label": datasets.features.ClassLabel( |
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names=[ |
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"anode_material", |
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"cathode_material", |
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"current_density", |
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"degradation_rate", |
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"device", |
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"electrolyte_material", |
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"fuel_used", |
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"interlayer_material", |
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"open_circuit_voltage", |
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"power_density", |
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"resistance", |
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"support_material", |
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"time_of_operation", |
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"voltage", |
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"working_temperature", |
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] |
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), |
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"slot_id": datasets.Value("int64"), |
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} |
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), |
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"spans": datasets.features.Sequence( |
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{ |
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"span_id": datasets.Value("int64"), |
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"entity_label": datasets.features.ClassLabel(names=["", "DEVICE", "MATERIAL", "VALUE"]), |
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"sentence_id": datasets.Value("int64"), |
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"experiment_mention_type": datasets.features.ClassLabel( |
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names=["", "current_exp", "future_work", "general_info", "previous_work"] |
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), |
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"begin_char_offset": datasets.Value("int64"), |
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"end_char_offset": datasets.Value("int64"), |
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} |
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), |
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"experiments": datasets.features.Sequence( |
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{ |
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"experiment_id": datasets.Value("int64"), |
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"span_id": datasets.Value("int64"), |
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"slots": datasets.features.Sequence( |
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{ |
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"frame_participant_label": datasets.features.ClassLabel( |
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names=[ |
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"anode_material", |
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"cathode_material", |
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"current_density", |
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"degradation_rate", |
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"conductivity", |
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"device", |
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"electrolyte_material", |
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"fuel_used", |
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"interlayer_material", |
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"open_circuit_voltage", |
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"power_density", |
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"resistance", |
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"support_material", |
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"time_of_operation", |
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"voltage", |
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"working_temperature", |
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] |
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), |
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"slot_id": datasets.Value("int64"), |
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} |
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), |
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} |
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), |
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} |
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) |
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return datasets.DatasetInfo( |
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description=_DESCRIPTION, |
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features=features, |
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supervised_keys=None, |
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homepage=_HOMEPAGE, |
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license=_LICENSE, |
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citation=_CITATION, |
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) |
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def _split_generators(self, dl_manager): |
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"""Returns SplitGenerators.""" |
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data_dir = dl_manager.download_and_extract(_URL) |
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data_dir = os.path.join(data_dir, "sofc-exp-corpus") |
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return [ |
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datasets.SplitGenerator( |
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name=datasets.Split.TRAIN, |
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gen_kwargs={ |
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"data_dir": data_dir, |
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"split": "train", |
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}, |
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), |
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datasets.SplitGenerator( |
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name=datasets.Split.TEST, |
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gen_kwargs={ |
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"data_dir": data_dir, |
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"split": "test", |
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}, |
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), |
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datasets.SplitGenerator( |
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name=datasets.Split.VALIDATION, |
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gen_kwargs={ |
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"data_dir": data_dir, |
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"split": "dev", |
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}, |
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), |
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] |
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def _generate_examples(self, data_dir, split): |
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"""Yields examples.""" |
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metadata = pd.read_csv(os.path.join(data_dir, "SOFC-Exp-Metadata.csv"), sep="\t") |
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names = metadata[metadata["set"] == split]["name"].tolist() |
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textfile_base_path = os.path.join(data_dir, "texts") |
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annotations_base_path = os.path.join(data_dir, "annotations") |
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sentence_meta_base_path = os.path.join(annotations_base_path, "sentences") |
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tokens_meta_base_path = os.path.join(annotations_base_path, "tokens") |
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ets_meta_base_path = os.path.join(annotations_base_path, "entity_types_and_slots") |
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frame_meta_base_path = os.path.join(annotations_base_path, "frames") |
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sentence_meta_header = ["sentence_id", "label", "begin_char_offset", "end_char_offset"] |
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tokens_meta_header = ["sentence_id", "token_id", "begin_char_offset", "end_char_offset"] |
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ets_meta_header = [ |
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"sentence_id", |
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"token_id", |
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"begin_char_offset", |
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"end_char_offset", |
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"entity_label", |
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"slot_label", |
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] |
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for id_, name in enumerate(sorted(names)): |
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textfile_path = os.path.join(textfile_base_path, name + ".txt") |
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text = open(textfile_path, encoding="utf-8").read() |
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sentence_meta_path = os.path.join(sentence_meta_base_path, name + ".csv") |
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sentence_meta = pd.read_csv(sentence_meta_path, sep="\t", names=sentence_meta_header) |
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tokens_meta_path = os.path.join(tokens_meta_base_path, name + ".csv") |
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tokens_meta = pd.read_csv(tokens_meta_path, sep="\t", names=tokens_meta_header) |
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ets_meta_path = os.path.join(ets_meta_base_path, name + ".csv") |
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ets_meta = pd.read_csv(ets_meta_path, sep="\t", names=ets_meta_header) |
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entity_labels = ets_meta.groupby("sentence_id").apply(lambda x: x["entity_label"].tolist()).to_list() |
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slot_labels = ets_meta.groupby("sentence_id").apply(lambda x: x["slot_label"].tolist()).to_list() |
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token_offsets = ( |
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tokens_meta.groupby("sentence_id")[["begin_char_offset", "end_char_offset"]] |
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.apply(lambda x: x.to_dict(orient="records")) |
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.tolist() |
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) |
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frames_meta_path = os.path.join(frame_meta_base_path, name + ".csv") |
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frames_meta = open(frames_meta_path, encoding="utf-8").readlines() |
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sentence_offsets = ( |
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sentence_meta[["begin_char_offset", "end_char_offset"]].apply(lambda x: x.to_dict(), axis=1).tolist() |
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) |
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sentence_labels = sentence_meta["label"].tolist() |
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sentences = [text[ost["begin_char_offset"] : ost["end_char_offset"]] for ost in sentence_offsets] |
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tokens = [ |
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[s[tto["begin_char_offset"] : tto["end_char_offset"]] for tto in to] |
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for s, to in zip(sentences, token_offsets) |
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] |
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experiment_starts = [i for i, line in enumerate(frames_meta) if line.startswith("EXPERIMENT")] |
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experiment_start = min(experiment_starts) |
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link_start = min([i for i, line in enumerate(frames_meta) if line.startswith("LINK")]) |
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spans_raw = frames_meta[:experiment_start] |
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spans = [] |
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for span in spans_raw: |
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_, span_id, entity_label_or_exp, sentence_id, begin_char_offset, end_char_offset = span.split("\t") |
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if entity_label_or_exp.startswith("EXPERIMENT"): |
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exp, experiment_mention_type = entity_label_or_exp.split(":") |
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entity_label = "" |
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else: |
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entity_label = entity_label_or_exp |
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exp = "" |
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experiment_mention_type = "" |
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s = { |
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"span_id": span_id, |
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"entity_label": entity_label, |
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"sentence_id": sentence_id, |
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"experiment_mention_type": experiment_mention_type, |
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"begin_char_offset": int(begin_char_offset), |
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"end_char_offset": int(end_char_offset), |
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} |
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spans.append(s) |
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links_raw = [f.rstrip("\n") for f in frames_meta[link_start:]] |
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links = [] |
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for link in links_raw: |
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_, relation_label, start_span_id, end_span_id = link.split("\t") |
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link_out = { |
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"relation_label": relation_label, |
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"start_span_id": int(start_span_id), |
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"end_span_id": int(end_span_id), |
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} |
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links.append(link_out) |
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experiments = [] |
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for start, end in zip(experiment_starts[:-1], experiment_starts[1:]): |
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current_experiment = frames_meta[start:end] |
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_, experiment_id, span_id = current_experiment[0].rstrip("\n").split("\t") |
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exp = {"experiment_id": int(experiment_id), "span_id": int(span_id)} |
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slots = [] |
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for e in current_experiment[1:]: |
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e = e.rstrip("\n") |
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_, frame_participant_label, slot_id = e.split("\t") |
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to_add = {"frame_participant_label": frame_participant_label, "slot_id": int(slot_id)} |
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slots.append(to_add) |
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exp["slots"] = slots |
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experiments.append(exp) |
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yield id_, { |
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"text": text, |
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"sentence_offsets": sentence_offsets, |
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"sentences": sentences, |
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"sentence_labels": sentence_labels, |
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"token_offsets": [{"offsets": to} for to in token_offsets], |
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"tokens": tokens, |
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"entity_labels": entity_labels, |
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"slot_labels": slot_labels, |
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"links": links, |
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"slots": slots, |
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"spans": spans, |
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"experiments": experiments, |
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} |
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