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import os |
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import re |
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from typing import Dict, Iterator, List, Tuple |
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import bioc |
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import datasets |
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from bioc import biocxml |
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from .bigbiohub import kb_features |
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from .bigbiohub import text_features |
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from .bigbiohub import BigBioConfig |
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from .bigbiohub import Tasks |
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from .bigbiohub import get_texts_and_offsets_from_bioc_ann |
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_LANGUAGES = ['English'] |
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_PUBMED = True |
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_LOCAL = False |
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_CITATION = """\ |
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@article{Krallinger2015, |
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title = {The CHEMDNER corpus of chemicals and drugs and its annotation principles}, |
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author = { |
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Krallinger, Martin and Rabal, Obdulia and Leitner, Florian and Vazquez, |
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Miguel and Salgado, David and Lu, Zhiyong and Leaman, Robert and Lu, Yanan |
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and Ji, Donghong and Lowe, Daniel M. and Sayle, Roger A. and |
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Batista-Navarro, Riza Theresa and Rak, Rafal and Huber, Torsten and |
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Rockt{\"a}schel, Tim and Matos, S{\'e}rgio and Campos, David and Tang, |
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Buzhou and Xu, Hua and Munkhdalai, Tsendsuren and Ryu, Keun Ho and Ramanan, |
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S. V. and Nathan, Senthil and {\v{Z}}itnik, Slavko and Bajec, Marko and |
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Weber, Lutz and Irmer, Matthias and Akhondi, Saber A. and Kors, Jan A. and |
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Xu, Shuo and An, Xin and Sikdar, Utpal Kumar and Ekbal, Asif and Yoshioka, |
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Masaharu and Dieb, Thaer M. and Choi, Miji and Verspoor, Karin and Khabsa, |
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Madian and Giles, C. Lee and Liu, Hongfang and Ravikumar, Komandur |
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Elayavilli and Lamurias, Andre and Couto, Francisco M. and Dai, Hong-Jie |
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and Tsai, Richard Tzong-Han and Ata, Caglar and Can, Tolga and Usi{\'e}, |
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Anabel and Alves, Rui and Segura-Bedmar, Isabel and Mart{\'i}nez, Paloma |
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and Oyarzabal, Julen and Valencia, Alfonso |
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}, |
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year = 2015, |
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month = {Jan}, |
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day = 19, |
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journal = {Journal of Cheminformatics}, |
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volume = 7, |
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number = 1, |
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pages = {S2}, |
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doi = {10.1186/1758-2946-7-S1-S2}, |
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issn = {1758-2946}, |
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url = {https://doi.org/10.1186/1758-2946-7-S1-S2}, |
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abstract = { |
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The automatic extraction of chemical information from text requires the |
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recognition of chemical entity mentions as one of its key steps. When |
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developing supervised named entity recognition (NER) systems, the |
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availability of a large, manually annotated text corpus is desirable. |
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Furthermore, large corpora permit the robust evaluation and comparison of |
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different approaches that detect chemicals in documents. We present the |
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CHEMDNER corpus, a collection of 10,000 PubMed abstracts that contain a |
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total of 84,355 chemical entity mentions labeled manually by expert |
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chemistry literature curators, following annotation guidelines specifically |
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defined for this task. The abstracts of the CHEMDNER corpus were selected |
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to be representative for all major chemical disciplines. Each of the |
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chemical entity mentions was manually labeled according to its |
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structure-associated chemical entity mention (SACEM) class: abbreviation, |
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family, formula, identifier, multiple, systematic and trivial. The |
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difficulty and consistency of tagging chemicals in text was measured using |
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an agreement study between annotators, obtaining a percentage agreement of |
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91. For a subset of the CHEMDNER corpus (the test set of 3,000 abstracts) |
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we provide not only the Gold Standard manual annotations, but also mentions |
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automatically detected by the 26 teams that participated in the BioCreative |
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IV CHEMDNER chemical mention recognition task. In addition, we release the |
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CHEMDNER silver standard corpus of automatically extracted mentions from |
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17,000 randomly selected PubMed abstracts. A version of the CHEMDNER corpus |
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in the BioC format has been generated as well. We propose a standard for |
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required minimum information about entity annotations for the construction |
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of domain specific corpora on chemical and drug entities. The CHEMDNER |
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corpus and annotation guidelines are available at: |
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ttp://www.biocreative.org/resources/biocreative-iv/chemdner-corpus/ |
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} |
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} |
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""" |
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_DESCRIPTION = """\ |
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We present the CHEMDNER corpus, a collection of 10,000 PubMed abstracts that |
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contain a total of 84,355 chemical entity mentions labeled manually by expert |
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chemistry literature curators, following annotation guidelines specifically |
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defined for this task. The abstracts of the CHEMDNER corpus were selected to be |
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representative for all major chemical disciplines. Each of the chemical entity |
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mentions was manually labeled according to its structure-associated chemical |
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entity mention (SACEM) class: abbreviation, family, formula, identifier, |
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multiple, systematic and trivial. |
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""" |
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_DATASETNAME = "chemdner" |
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_DISPLAYNAME = "CHEMDNER" |
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_HOMEPAGE = "https://biocreative.bioinformatics.udel.edu/resources/biocreative-iv/chemdner-corpus/" |
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_LICENSE = 'License information unavailable' |
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_URLs = { |
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"source": "https://ftp.ncbi.nlm.nih.gov/pub/lu/BC7-NLM-Chem-track/BC7T2-CHEMDNER-corpus_v2.BioC.xml.gz", |
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"bigbio_kb": "https://ftp.ncbi.nlm.nih.gov/pub/lu/BC7-NLM-Chem-track/BC7T2-CHEMDNER-corpus_v2.BioC.xml.gz", |
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"bigbio_text": "https://ftp.ncbi.nlm.nih.gov/pub/lu/BC7-NLM-Chem-track/BC7T2-CHEMDNER-corpus_v2.BioC.xml.gz", |
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} |
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_SUPPORTED_TASKS = [ |
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Tasks.NAMED_ENTITY_RECOGNITION, |
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Tasks.TEXT_CLASSIFICATION, |
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] |
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_SOURCE_VERSION = "1.0.0" |
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_BIGBIO_VERSION = "1.0.0" |
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class CHEMDNERDataset(datasets.GeneratorBasedBuilder): |
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"""CHEMDNER""" |
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SOURCE_VERSION = datasets.Version(_SOURCE_VERSION) |
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BIGBIO_VERSION = datasets.Version(_BIGBIO_VERSION) |
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BUILDER_CONFIGS = [ |
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BigBioConfig( |
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name="chemdner_source", |
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version=SOURCE_VERSION, |
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description="CHEMDNER source schema", |
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schema="source", |
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subset_id="chemdner", |
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), |
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BigBioConfig( |
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name="chemdner_bigbio_kb", |
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version=BIGBIO_VERSION, |
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description="CHEMDNER BigBio schema (KB)", |
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schema="bigbio_kb", |
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subset_id="chemdner", |
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), |
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BigBioConfig( |
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name="chemdner_bigbio_text", |
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version=BIGBIO_VERSION, |
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description="CHEMDNER BigBio schema (TEXT)", |
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schema="bigbio_text", |
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subset_id="chemdner", |
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), |
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] |
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DEFAULT_CONFIG_NAME = "chemdner_source" |
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def _info(self): |
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if self.config.schema == "source": |
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features = datasets.Features( |
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{ |
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"passages": [ |
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{ |
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"document_id": datasets.Value("string"), |
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"type": datasets.Value("string"), |
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"text": datasets.Value("string"), |
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"offset": datasets.Value("int32"), |
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"entities": [ |
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{ |
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"id": datasets.Value("string"), |
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"offsets": [[datasets.Value("int32")]], |
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"text": [datasets.Value("string")], |
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"type": datasets.Value("string"), |
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"normalized": [ |
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{ |
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"db_name": datasets.Value("string"), |
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"db_id": datasets.Value("string"), |
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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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} |
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) |
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elif self.config.schema == "bigbio_kb": |
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features = kb_features |
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elif self.config.schema == "bigbio_text": |
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features = text_features |
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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=str(_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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my_urls = _URLs[self.config.schema] |
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data_dir = dl_manager.download_and_extract(my_urls) + "/" |
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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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"filepath": os.path.join( |
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data_dir, "BC7T2-CHEMDNER-corpus-training.BioC.xml" |
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), |
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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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"filepath": os.path.join( |
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data_dir, "BC7T2-CHEMDNER-corpus-evaluation.BioC.xml" |
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), |
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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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"filepath": os.path.join( |
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data_dir, "BC7T2-CHEMDNER-corpus-development.BioC.xml" |
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), |
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"split": "dev", |
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}, |
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), |
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] |
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def _get_passages_and_entities( |
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self, d: bioc.BioCDocument |
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) -> Tuple[List[Dict], List[List[Dict]]]: |
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passages: List[Dict] = [] |
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entities: List[List[Dict]] = [] |
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text_total_length = 0 |
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po_start = 0 |
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for i, p in enumerate(d.passages): |
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eo = p.offset - text_total_length |
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text_total_length += len(p.text) + 1 |
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po_end = po_start + len(p.text) |
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dp = { |
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"text": p.text, |
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"type": p.infons.get("type"), |
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"offsets": [(po_start, po_end)], |
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"offset": p.offset, |
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} |
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po_start = po_end + 1 |
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passages.append(dp) |
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pe = [] |
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for a in p.annotations: |
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a_type = a.infons.get("type") |
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if ( |
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self.config.schema == "bigbio_kb" |
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and a_type == "MeSH_Indexing_Chemical" |
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): |
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continue |
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if ( |
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a.text == None or a.text == "" |
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) and self.config.schema == "bigbio_kb": |
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continue |
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offsets, text = get_texts_and_offsets_from_bioc_ann(a) |
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da = { |
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"type": a_type, |
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"offsets": [(start - eo, end - eo) for (start, end) in offsets], |
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"text": text, |
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"id": a.id, |
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"normalized": self._get_normalized(a), |
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} |
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pe.append(da) |
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entities.append(pe) |
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return passages, entities |
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def _get_normalized(self, a: bioc.BioCAnnotation) -> List[Dict]: |
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""" |
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Get normalization DB and ID from annotation identifiers |
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""" |
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identifiers = a.infons.get("identifier") |
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if identifiers is not None: |
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identifiers = re.split(r",|;", identifiers) |
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identifiers = [i for i in identifiers if i != "-"] |
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normalized = [i.split(":") for i in identifiers] |
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normalized = [ |
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{"db_name": elems[0], "db_id": elems[1]} for elems in normalized |
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] |
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else: |
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normalized = [] |
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return normalized |
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def _get_textcls_example(self, d: bioc.BioCDocument) -> Dict: |
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example = {"document_id": d.id, "text": [], "labels": []} |
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for p in d.passages: |
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example["text"].append(p.text) |
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for a in p.annotations: |
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if a.infons.get("type") == "MeSH_Indexing_Chemical": |
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example["labels"].append(a.infons.get("identifier")) |
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example["text"] = " ".join(example["text"]) |
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return example |
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def _generate_examples( |
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self, |
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filepath: str, |
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split: str, |
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) -> Iterator[Tuple[int, Dict]]: |
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"""Yields examples as (key, example) tuples.""" |
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reader = biocxml.BioCXMLDocumentReader(str(filepath)) |
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if self.config.schema == "source": |
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for uid, doc in enumerate(reader): |
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passages, passages_entities = self._get_passages_and_entities(doc) |
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for p, pe in zip(passages, passages_entities): |
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p.pop("offsets") |
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p["document_id"] = doc.id |
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p["entities"] = pe |
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yield uid, {"passages": passages} |
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elif self.config.schema == "bigbio_kb": |
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uid = 0 |
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for idx, doc in enumerate(reader): |
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passages, passages_entities = self._get_passages_and_entities(doc) |
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uid += 1 |
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entities = [e for pe in passages_entities for e in pe] |
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for p in passages: |
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p.pop("offset") |
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p["text"] = (p["text"],) |
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p["id"] = uid |
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uid += 1 |
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for e in entities: |
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e["id"] = uid |
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uid += 1 |
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yield idx, { |
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"id": uid, |
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"document_id": doc.id, |
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"passages": passages, |
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"entities": entities, |
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"events": [], |
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"coreferences": [], |
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"relations": [], |
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} |
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elif self.config.schema == "bigbio_text": |
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uid = 0 |
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for idx, doc in enumerate(reader): |
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example = self._get_textcls_example(doc) |
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example["id"] = uid |
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uid += 1 |
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yield idx, example |
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