pubmed / pubmed.py
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# coding=utf-8
# Copyright 2020 The HuggingFace Datasets Authors and the current dataset script contributor.
#
# 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.
"""MEDLINE/PubMed data."""
import copy
import xml.etree.ElementTree as ET
import datasets
logger = datasets.logging.get_logger(__name__)
_CITATION = """\
Courtesy of the U.S. National Library of Medicine.
"""
_DESCRIPTION = """\
NLM produces a baseline set of MEDLINE/PubMed citation records in XML format for download on an annual basis. The annual baseline is released in December of each year. Each day, NLM produces update files that include new, revised and deleted citations. See our documentation page for more information.
"""
_HOMEPAGE = "https://www.nlm.nih.gov/databases/download/pubmed_medline.html"
_LICENSE = ""
# The HuggingFace dataset library don't host the datasets but only point to the original files
# This can be an arbitrary nested dict/list of URLs (see below in `_split_generators` method)
# Note these URLs here are used by MockDownloadManager.create_dummy_data_list
_URLs = [f"https://ftp.ncbi.nlm.nih.gov/pubmed/baseline/pubmed23n{i:04d}.xml.gz" for i in range(1, 1167)]
# Copyright Ferry Boender, released under the MIT license.
# Modified by @Narsil to handle more oddities
def deepupdate(target, src):
"""Deep update target dict with src
For each k,v in src: if k doesn't exist in target, it is deep copied from
src to target. Otherwise, if v is a list, target[k] is extended with
src[k]. If v is a set, target[k] is updated with v, If v is a dict,
recursively deep-update it.
Examples:
>>> t = {'name': 'Ferry', 'hobbies': ['programming', 'sci-fi']}
>>> deepupdate(t, {'hobbies': ['gaming']})
>>> print(t)
{'name': 'Ferry', 'hobbies': ['programming', 'sci-fi', 'gaming']}
"""
for k, v in src.items():
if k in target and isinstance(target[k], int) and isinstance(v, str):
try:
v = int(v)
except Exception:
pass
if k in target and type(target[k]) != type(v):
logger.warning(f"Ignoring field {k} it's a {type(v)} and we expect a {type(target[k])}")
continue
if type(v) == list:
if k not in target:
target[k] = copy.deepcopy(v)
elif isinstance(target[k], list):
target[k].extend(v)
elif isinstance(target[k], str):
# Very special case to handle `AbstractText` which sometimes end up
# being a list.
new_v = " ".join(el for el in v if isinstance(el, str))
target[k] = new_v
else:
logger.warning(f"Ignoring field {k} it's a {type(v)} and we expect a {type(target[k])}")
elif type(v) == dict:
if k not in target:
target[k] = copy.deepcopy(v)
elif isinstance(target[k], dict):
deepupdate(target[k], v)
else:
logger.warning(f"Ignoring field {k} it's a {type(v)} and we expect a {type(target[k])}")
elif type(v) == set:
if k not in target:
target[k] = v.copy()
elif isinstance(target[k], set):
target[k].update(v.copy())
else:
logger.warning(f"Ignoring field {k} it's a {type(v)} and we expect a {type(target[k])}")
else:
if isinstance(target[k], (list, tuple, dict)):
logger.warning(f"Ignoring field {k} it's a {type(v)} and we expect a {type(target[k])}")
continue
target[k] = copy.copy(v)
def default_date():
return {"Year": 0, "Month": 0, "Day": 0}
def default_inline_article():
return {
# 'Journal': Journal,
"Abstract": {"AbstractText": ""},
"ArticleTitle": "",
# 'Pagination': {'MedlinePgn': datasets.Value('string')},
"AuthorList": {"Author": []},
"Language": "",
"GrantList": {
"Grant": [],
},
"PublicationTypeList": {"PublicationType": []},
}
def default_article():
return {
"MedlineCitation": {
"PMID": 0,
"DateCompleted": default_date(),
"NumberOfReferences": 0,
"DateRevised": default_date(),
"Article": default_inline_article(),
"MedlineJournalInfo": {"Country": ""},
"ChemicalList": {"Chemical": []},
"CitationSubset": "",
"MeshHeadingList": {"MeshHeading": []},
},
"PubmedData": {
"ArticleIdList": [{"ArticleId": []}],
"PublicationStatus": "",
"History": {"PubMedPubDate": []},
"ReferenceList": [],
},
}
class Pubmed(datasets.GeneratorBasedBuilder):
"""Pubmed citations records"""
BUILDER_CONFIGS = [
datasets.BuilderConfig(name="2023", description="The 2023 annual record", version=datasets.Version("3.0.0")),
]
# FILLED automatically from features
SIMPLE_KEYS = {"PubmedArticleSet"}
LIST_KEYS = {"PubmedArticle"}
IGNORE_KEYS = set()
def fill_keys_from_features(self, features):
if isinstance(features, dict):
for key, value in features.items():
if isinstance(value, datasets.Sequence):
self.LIST_KEYS.add(key)
self.fill_keys_from_features(value.feature)
else:
self.SIMPLE_KEYS.add(key)
self.fill_keys_from_features(value)
def xml_to_dictionnary(self, parentElement):
data = {}
if parentElement.tag in {"AbstractText", "ArticleTitle"}:
# XXX
# Very special case, it will contain html leading to having very odd structure
tag = parentElement.tag
string = ET.tostring(parentElement).decode("utf-8").strip()
inner_string = string[len(f"<{tag}>") : -len(f"</{tag}>")]
return {parentElement.tag: inner_string}
for child in list(parentElement):
child.text = child.text if (child.text is not None) else " "
key = child.tag
if len(child) == 0:
value = child.text.strip()
else:
value = self.xml_to_dictionnary(child)
if isinstance(value, dict) and set(value.keys()) == {key}:
value = value[key]
if key in data:
old_value = data[key]
if isinstance(old_value, dict):
data[key] = [old_value, value]
elif isinstance(old_value, list):
data[key].append(value)
elif key in self.LIST_KEYS:
data[key] = [value]
elif key in self.SIMPLE_KEYS:
data[key] = value
elif key in self.IGNORE_KEYS:
continue
else:
logger.info(f"Ignoring key {key} from {parentElement.tag}")
self.IGNORE_KEYS.add(key)
# Filling defaults
if parentElement.tag == "MeshHeading" and "QualifierName" not in data:
data["QualifierName"] = ""
elif parentElement.tag == "Author":
if "ForeName" not in data:
data["ForeName"] = ""
if "Initials" not in data:
data["Initials"] = ""
if "LastName" not in data:
data["LastName"] = ""
if "CollectiveName" not in data:
data["CollectiveName"] = ""
elif parentElement.tag == "JournalIssue":
if "Volume" not in data:
data["Volume"] = ""
if "Issue" not in data:
data["Issue"] = ""
elif parentElement.tag == "Grant" and "GrantID" not in data:
data["GrantID"] = ""
return {parentElement.tag: data}
def _info(self):
Date = {
"Year": datasets.Value("int32"),
"Month": datasets.Value("int32"),
"Day": datasets.Value("int32"),
}
MeshHeading = {"DescriptorName": datasets.Value("string"), "QualifierName": datasets.Value("string")}
MedlineJournalInfo = {
"Country": datasets.Value("string"),
# Too inconsistent
# 'MedlineTA': datasets.Value('string'),
# 'NlmUniqueID': datasets.Value('string'),
# 'ISSNLinking': datasets.Value('string'),
}
Chemical = {
"RegistryNumber": datasets.Value("string"),
"NameOfSubstance": datasets.Value("string"),
}
# Too inconsistent in the data to be used
# Journal = {
# 'ISSN': datasets.Value('string'),
# 'JournalIssue': {
# 'Volume': datasets.Value('string'),
# 'Issue': datasets.Value('string'),
# },
# # 'PubDate': Date,
# 'Title': datasets.Value('string'),
# 'ISOAbbreviation': datasets.Value('string')
# }
Author = {
"LastName": datasets.Value("string"),
"ForeName": datasets.Value("string"),
"Initials": datasets.Value("string"),
"CollectiveName": datasets.Value("string"),
}
Reference = {
"Citation": datasets.Value("string"),
"CitationId": datasets.Value("int32"),
}
Grant = {
"GrantID": datasets.Value("string"),
"Agency": datasets.Value("string"),
"Country": datasets.Value("string"),
}
Article = {
# 'Journal': Journal,
"Abstract": {"AbstractText": datasets.Value("string")},
"ArticleTitle": datasets.Value("string"),
# Too inconistent
# 'Pagination': {'MedlinePgn': datasets.Value('string')},
"AuthorList": {"Author": datasets.Sequence(Author)},
"Language": datasets.Value("string"),
"GrantList": {
"Grant": datasets.Sequence(Grant),
},
"PublicationTypeList": {"PublicationType": datasets.Sequence(datasets.Value("string"))},
}
features = datasets.Features(
{
"MedlineCitation": {
"PMID": datasets.Value("int32"),
"DateCompleted": Date,
"NumberOfReferences": datasets.Value("int32"),
"DateRevised": Date,
"Article": Article,
"MedlineJournalInfo": MedlineJournalInfo,
"ChemicalList": {"Chemical": datasets.Sequence(Chemical)},
"CitationSubset": datasets.Value("string"),
"MeshHeadingList": {
"MeshHeading": datasets.Sequence(MeshHeading),
},
},
"PubmedData": {
"ArticleIdList": datasets.Sequence({"ArticleId": datasets.Sequence(datasets.Value("string"))}),
"PublicationStatus": datasets.Value("string"),
"History": {"PubMedPubDate": datasets.Sequence(Date)},
"ReferenceList": datasets.Sequence(Reference),
},
}
)
self.fill_keys_from_features(features)
return datasets.DatasetInfo(
description=_DESCRIPTION,
features=features,
homepage=_HOMEPAGE,
license=_LICENSE,
citation=_CITATION,
)
def _split_generators(self, dl_manager):
"""Returns SplitGenerators."""
dl_dir = dl_manager.download_and_extract(_URLs)
return [
datasets.SplitGenerator(
name=datasets.Split.TRAIN,
gen_kwargs={"filenames": dl_dir},
),
]
def update_citation(self, article):
"""
ArticleId and ArticleIdList are already used field name so we rewrite and
flatten those as {Citation, CitationId}.
"""
citations = []
try:
list_ = article["PubmedData"]["ReferenceList"]
except Exception:
return
for ref in list_:
if "Reference" not in ref:
continue
for re in ref["Reference"]:
if "Citation" not in re:
continue
citation = re["Citation"]
if "ArticleIdList" not in re:
continue
for r in re["ArticleIdList"]:
if "ArticleId" not in r:
continue
for rr in r["ArticleId"]:
try:
citation = {"Citation": citation, "CitationId": int(rr)}
except Exception:
continue
citations.append(citation)
article["PubmedData"]["ReferenceList"] = citations
def _generate_examples(self, filenames):
"""Yields examples."""
id_ = 0
for filename in filenames:
try:
tree = ET.parse(filename)
root = tree.getroot()
xmldict = self.xml_to_dictionnary(root)
except ET.ParseError:
logger.warning(f"Ignoring file {filename}, it is malformed")
continue
for article in xmldict["PubmedArticleSet"]["PubmedArticle"]:
self.update_citation(article)
new_article = default_article()
try:
deepupdate(new_article, article)
except Exception:
logger.warning(f"Ignoring article {article}, it is malformed")
continue
try:
_ = self.info.features.encode_example(new_article)
except Exception as e:
logger.warning(f"Ignore example because {e}")
continue
yield id_, new_article
id_ += 1