"""
A bunch of helpers to parse and normalize strings: external identifiers,
free-form input, titles, etc.
"""
import re
import base64
from typing import Optional
import unicodedata
import ftfy
import langdetect
import pycountry
DOI_REGEX = re.compile(r"^10.\d{3,6}/\S+$")
def clean_doi(raw):
"""
Removes any:
- padding whitespace
- 'doi:' prefix
- URL prefix
Does not try to un-URL-encode
Returns None if not a valid DOI
"""
if not raw:
return None
raw = raw.strip()
if '\u2013' in raw:
# Do not attempt to normalize "en dash" and since FC does not allow
# unicode in DOI, treat this as invalid.
return None
if len(raw.split()) != 1:
return None
if raw.startswith("doi:"):
raw = raw[4:]
if raw.startswith("http://"):
raw = raw[7:]
if raw.startswith("https://"):
raw = raw[8:]
if raw.startswith("doi.org/"):
raw = raw[8:]
if raw.startswith("dx.doi.org/"):
raw = raw[11:]
if raw[7:9] == "//":
raw = raw[:8] + raw[9:]
# fatcatd uses same REGEX, but Rust regex rejects these characters, while
# python doesn't. DOIs are syntaxtually valid, but very likely to be typos;
# for now filter them out.
for c in ('¬', ):
if c in raw:
return None
if not raw.startswith("10."):
return None
if not DOI_REGEX.fullmatch(raw):
return None
# will likely want to expand DOI_REGEX to exclude non-ASCII characters, but
# for now block specific characters so we can get PubMed importer running
# again.
# known characters to skip: ä á \u200e \u2043 \u2012
if not raw.isascii():
return None
return raw
def test_clean_doi():
assert clean_doi("10.1234/asdf ") == "10.1234/asdf"
assert clean_doi("10.1037//0002-9432.72.1.50") == "10.1037/0002-9432.72.1.50"
assert clean_doi("10.1037/0002-9432.72.1.50") == "10.1037/0002-9432.72.1.50"
assert clean_doi("10.23750/abm.v88i2 -s.6506") == None
assert clean_doi("10.17167/mksz.2017.2.129–155") == None
assert clean_doi("http://doi.org/10.1234/asdf ") == "10.1234/asdf"
assert clean_doi("https://dx.doi.org/10.1234/asdf ") == "10.1234/asdf"
assert clean_doi("doi:10.1234/asdf ") == "10.1234/asdf"
assert clean_doi("doi:10.1234/ asdf ") == None
assert clean_doi("10.4149/gpb¬_2017042") == None # "logical negation" character
assert clean_doi("10.6002/ect.2020.häyry") == None # this example via pubmed (pmid:32519616)
assert clean_doi("10.30466/vrf.2019.98547.2350\u200e") == None
assert clean_doi("10.12016/j.issn.2096⁃1456.2017.06.014") == None
assert clean_doi("10.4025/diálogos.v17i2.36030") == None
assert clean_doi("10.19027/jai.10.106‒115") == None
assert clean_doi("10.15673/атбп2312-3125.17/2014.26332") == None
ARXIV_ID_REGEX = re.compile(r"^(\d{4}.\d{4,5}|[a-z\-]+(\.[A-Z]{2})?/\d{7})(v\d+)?$")
def clean_arxiv_id(raw):
"""
Removes any:
- 'arxiv:' prefix
Works with versioned or un-versioned arxiv identifiers.
TODO: version of this function that only works with versioned identifiers?
That is the behavior of fatcat API
"""
if not raw:
return None
raw = raw.strip()
if raw.lower().startswith("arxiv:"):
raw = raw[6:]
if raw.lower().startswith("https://arxiv.org/abs/"):
raw = raw[22:]
if not ARXIV_ID_REGEX.fullmatch(raw):
return None
return raw
def test_clean_arxiv_id():
assert clean_arxiv_id("0806.2878v1") == "0806.2878v1"
assert clean_arxiv_id("0806.2878") == "0806.2878"
assert clean_arxiv_id("1501.00001v1") == "1501.00001v1"
assert clean_arxiv_id("1501.00001") == "1501.00001"
assert clean_arxiv_id("hep-th/9901001v1") == "hep-th/9901001v1"
assert clean_arxiv_id("hep-th/9901001") == "hep-th/9901001"
assert clean_arxiv_id("math.CA/0611800v2") == "math.CA/0611800v2"
assert clean_arxiv_id("math.CA/0611800") == "math.CA/0611800"
assert clean_arxiv_id("0806.2878v1 ") == "0806.2878v1"
assert clean_arxiv_id("cs/0207047") == "cs/0207047"
assert clean_arxiv_id("https://arxiv.org/abs/0806.2878v1") == "0806.2878v1"
assert clean_arxiv_id("arxiv:0806.2878v1") == "0806.2878v1"
assert clean_arxiv_id("arXiv:0806.2878v1") == "0806.2878v1"
assert clean_arxiv_id("hep-TH/9901001v1") == None
assert clean_arxiv_id("hßp-th/9901001v1") == None
assert clean_arxiv_id("math.CA/06l1800v2") == None
assert clean_arxiv_id("mßth.ca/0611800v2") == None
assert clean_arxiv_id("MATH.CA/0611800v2") == None
assert clean_arxiv_id("0806.2878v23") == "0806.2878v23" # ?
assert clean_arxiv_id("0806.2878v") == None
assert clean_arxiv_id("0806.2878") == "0806.2878"
assert clean_arxiv_id("006.2878v1") == None
assert clean_arxiv_id("0806.v1") == None
assert clean_arxiv_id("08062878v1") == None
def clean_wikidata_qid(raw):
if not raw:
return None
raw = raw.strip()
if len(raw.split()) != 1 or len(raw) < 2:
return None
if raw[0] == 'Q' and raw[1] != '0' and raw[1:].isdigit():
return raw
return None
def test_clean_wikidata_qid():
assert clean_wikidata_qid("Q1234") == "Q1234"
assert clean_wikidata_qid("Q1") == "Q1"
assert clean_wikidata_qid(" Q1234 ") == "Q1234"
assert clean_wikidata_qid(" Q1 234 ") == None
assert clean_wikidata_qid("q1234") == None
assert clean_wikidata_qid("1234 ") == None
assert clean_wikidata_qid("Q0123") == None
assert clean_wikidata_qid("PMC123") == None
assert clean_wikidata_qid("qfba3") == None
assert clean_wikidata_qid("") == None
def clean_pmid(raw):
if not raw:
return None
raw = raw.strip()
if len(raw.split()) != 1:
return None
if raw.isdigit():
return raw
return None
def test_clean_pmid():
assert clean_pmid("1234") == "1234"
assert clean_pmid("1234 ") == "1234"
assert clean_pmid("PMC123") == None
assert clean_pmid("qfba3") == None
assert clean_pmid("") == None
def clean_pmcid(raw):
if not raw:
return None
raw = raw.strip()
if len(raw.split()) != 1:
return None
if raw.startswith("PMC") and raw[3:] and raw[3:].isdigit():
return raw
return None
def clean_sha1(raw):
if not raw:
return None
raw = raw.strip().lower()
if len(raw.split()) != 1:
return None
if len(raw) != 40:
return None
for c in raw:
if c not in "0123456789abcdef":
return None
return raw
def test_clean_sha1():
assert clean_sha1("0fba3fba0e1937aa0297de3836b768b5dfb23d7b") == "0fba3fba0e1937aa0297de3836b768b5dfb23d7b"
assert clean_sha1("0fba3fba0e1937aa0297de3836b768b5dfb23d7b ") == "0fba3fba0e1937aa0297de3836b768b5dfb23d7b"
assert clean_sha1("fba3fba0e1937aa0297de3836b768b5dfb23d7b") == None
assert clean_sha1("qfba3fba0e1937aa0297de3836b768b5dfb23d7b") == None
assert clean_sha1("0fba3fb a0e1937aa0297de3836b768b5dfb23d7b") == None
def clean_sha256(raw):
raw = raw.strip().lower()
if len(raw.split()) != 1:
return None
if len(raw) != 64:
return None
for c in raw:
if c not in "0123456789abcdef":
return None
return raw
def test_clean_sha256():
assert clean_sha256("6cc853f2ae75696b2e45f476c76b946b0fc2df7c52bb38287cb074aceb77bc7f") == "6cc853f2ae75696b2e45f476c76b946b0fc2df7c52bb38287cb074aceb77bc7f"
assert clean_sha256("0fba3fba0e1937aa0297de3836b768b5dfb23d7b") == None
ISSN_REGEX = re.compile(r"^\d{4}-\d{3}[0-9X]$")
def clean_issn(raw):
if not raw:
return None
raw = raw.strip().upper()
if len(raw) != 9:
return None
if not ISSN_REGEX.fullmatch(raw):
return None
return raw
def test_clean_issn():
assert clean_issn("1234-4567") == "1234-4567"
assert clean_issn("1234-456X") == "1234-456X"
assert clean_issn("134-4567") == None
assert clean_issn("123X-4567") == None
ISBN13_REGEX = re.compile(r"^97(?:8|9)-\d{1,5}-\d{1,7}-\d{1,6}-\d$")
def clean_isbn13(raw):
if not raw:
return None
raw = raw.strip()
if not ISBN13_REGEX.fullmatch(raw):
return None
return raw
def test_clean_isbn13():
assert clean_isbn13("978-1-56619-909-4") == "978-1-56619-909-4"
assert clean_isbn13("978-1-4028-9462-6") == "978-1-4028-9462-6"
assert clean_isbn13("978-1-56619-909-4 ") == "978-1-56619-909-4"
assert clean_isbn13("9781566199094") == None
ORCID_REGEX = re.compile(r"^\d{4}-\d{4}-\d{4}-\d{3}[\dX]$")
def clean_orcid(raw):
if not raw:
return None
raw = raw.strip()
if not ORCID_REGEX.fullmatch(raw):
return None
return raw
def test_clean_orcid():
assert clean_orcid("0123-4567-3456-6789") == "0123-4567-3456-6789"
assert clean_orcid("0123-4567-3456-678X") == "0123-4567-3456-678X"
assert clean_orcid("0123-4567-3456-6789 ") == "0123-4567-3456-6789"
assert clean_orcid("01234567-3456-6780") == None
assert clean_orcid("0x23-4567-3456-6780") == None
def clean_str(thing: Optional[str], force_xml: bool = False) -> Optional[str]:
"""
This function is appropriate to be called on any random, non-markup string,
such as author names, titles, etc.
It will try to clean up common unicode mangles, HTML characters, etc.
This will detect XML/HTML and "do the right thing" (aka, not remove
entities like '&' if there are tags in the string), unless you pass the
'force_xml' parameter, which might be appropriate for, eg, names and
titles, which generally should be projected down to plain text.
Also strips extra whitespace.
"""
if not thing:
return None
fix_entities = 'auto'
if force_xml:
fix_entities = True
fixed = ftfy.fix_text(thing, fix_entities=fix_entities).strip()
if not fixed or len(fixed) <= 1:
# wasn't zero-length before, but is now; return None
return None
return fixed
def test_clean_str():
assert clean_str(None) == None
assert clean_str('') == None
assert clean_str('1') == None
assert clean_str('123') == '123'
assert clean_str('a&b') == 'a&b'
assert clean_str('a&b') == 'a&b'
assert clean_str('a&b', force_xml=True) == 'a&b'
def b32_hex(s):
s = s.strip().split()[0].lower()
if s.startswith("sha1:"):
s = s[5:]
if len(s) != 32:
return s
return base64.b16encode(base64.b32decode(s.upper())).lower().decode('utf-8')
def is_cjk(s):
if not s:
return False
for c in s:
if c.isalpha():
lang_prefix = unicodedata.name(c).split()[0]
return lang_prefix in ('CJK', 'HIRAGANA', 'KATAKANA', 'HANGUL')
return False
def test_is_cjk():
assert is_cjk(None) is False
assert is_cjk('') is False
assert is_cjk('blah') is False
assert is_cjk('岡, 鹿, 梨, 阜, 埼') is True
assert is_cjk('[岡, 鹿, 梨, 阜, 埼]') is True
assert is_cjk('菊') is True
assert is_cjk('岡, 鹿, 梨, 阜, 埼 with eng after') is True
assert is_cjk('水道') is True
assert is_cjk('オウ, イク') is True # kanji
assert is_cjk('ひヒ') is True
assert is_cjk('き゚ゅ') is True
assert is_cjk('ㄴ, ㄹ, ㅁ, ㅂ, ㅅ') is True
MONTH_MAP = {
"jan": 1, "january": 1,
"feb": 2, "febuary": 2,
"mar": 3, "march": 3,
"apr": 4, "april": 4,
"may": 5, "may": 5,
"jun": 6, "june": 6,
"jul": 7, "july": 7,
"aug": 8, "august": 8,
"sep": 9, "september": 9,
"oct": 10, "october": 10,
"nov": 11, "nov": 11,
"dec": 12, "december": 12,
}
def parse_month(raw: Optional[str]) -> Optional[int]:
"""
Parses a string into a month number (1 to 12)
"""
if not raw:
return None
raw = raw.strip().lower()
if raw.isdigit():
raw_int = int(raw)
if raw_int >= 1 and raw_int <= 12:
return raw_int
else:
return None
if raw in MONTH_MAP:
return MONTH_MAP[raw]
return None
def test_parse_month() -> None:
assert parse_month(None) == None
assert parse_month("") == None
assert parse_month("0") == None
assert parse_month("10") == 10
assert parse_month("jan") == 1
assert parse_month("September") == 9
def detect_text_lang(raw: str) -> Optional[str]:
"""
Tries to determine language of, eg, an abstract.
Returns an ISO 631 2-char language code, or None.
"""
if not raw:
return None
try:
lang = langdetect.detect(raw)
lang = lang.split('-')[0]
assert len(lang) == 2
return lang
except (langdetect.lang_detect_exception.LangDetectException, TypeError):
return None
return None
def test_detect_text_lang() -> None:
assert detect_text_lang("") == None
EN_SAMPLE = "this is a string of English text for testing"
assert detect_text_lang(EN_SAMPLE) == "en"
JA_SAMPLE = "モーラの種類は、以下に示すように111程度存在する。ただし、研究者により数え方が少しずつ異なる。"
assert detect_text_lang(JA_SAMPLE) == "ja"
ZH_SAMPLE = "随着分布式清洁能源的普及,通信技术在协调各个分布式电源的控制中显得尤为重要。在电力信息传输的过程中,不同的网络状态下表现出不同的通信特性,严重的甚至会发生信息错乱丢包等行为,这对电网的实时控制产生严重影响。为研究信息系统对电力物理系统的实时影响,搭建了电力信息物理融合仿真平台,运用RT-LAB与OPNET两款实时仿真器,通过TCP/IP进行数据交互,对微电网电压、频率的集中式恢复与分布式恢复问题展开研究。仿真结果表明,该平台能有效地反映通信网络对电网控制的影响,提供了一种可靠的未来电力信息物理融合系统研究技术。随着分布式清洁能源的普及,通信技术在协调各个分布式电源的控制中显得尤为重要。在电力信息传输的过程中,不同的网络状态下表现出不同的通信特性,严重的甚至会发生信息错乱丢包等行为,这对电网的实时控制产生严重影响。为研究信息系统对电力物理系统的实时影响,搭建了电力信息物理融合仿真平台,运用RT-LAB与OPNET两款实时仿真器,通过TCP/IP进行数据交互,对微电网电压、频率的集中式恢复与分布式恢复问题展开研究。仿真结果表明,该平台能有效地反映通信网络对电网控制的影响,提供了一种可靠的未来电力信息物理融合系统研究技术。"
# XXX: why does this detect as `ko` sometimes?
assert detect_text_lang(ZH_SAMPLE) in ("zh", "ko")
def parse_lang_name(raw: Optional[str]) -> Optional[str]:
"""
Parses a language name and returns a 2-char ISO 631 language code.
"""
if not raw:
return None
try:
lang = pycountry.languages.lookup(raw)
if lang.alpha_3 in ("mul", "mis"):
return None
return lang.alpha_2.lower()
except LookupError:
#print(f" unknown language: '{raw}', file=sys.stderr)
return None
except AttributeError:
#print(f" partial language metadata: '{lang}', file=sys.stderr)
return None
return None
def test_parse_lang_name() -> None:
assert parse_lang_name(None) == None
assert parse_lang_name("") == None
assert parse_lang_name("asdf ") == None
assert parse_lang_name("english") == "en"
assert parse_lang_name("ENGLISH") == "en"
assert parse_lang_name("asdf blah") is None
assert parse_lang_name("en") == "en"
assert parse_lang_name("EN") == "en"
assert parse_lang_name("ENG") == "en"
assert parse_lang_name("English") == "en"
assert parse_lang_name("Portuguese") == "pt"
def parse_country_name(s: Optional[str]) -> Optional[str]:
"""
Parses a country name into a ISO country code (2-char).
This version copied from the chocula repository.
"""
if not s or s in ("Unknown"):
return None
s = s.strip()
if s.lower() in ("usa", "new york (state)", "washington (state)"):
return "us"
if s.lower() in ("russia (federation)", "russia"):
return "ru"
if s == "Québec (Province)":
s = "Canada"
if s == "China (Republic : 1949- )":
return "tw"
if s == "Brunei":
return "bn"
if s.startswith("Congo "):
s = "Congo"
if s.lower() == "iran":
return "ir"
if s.lower() == "bermuda islands":
return "bm"
if s.lower() == "burma":
s = "myanmar"
if s.lower() in ("korea (south)", "south korea"):
return "kr"
if s.lower() in ("england", "scotland", "wales"):
return "uk"
s = s.replace(" (Republic)", "").replace(" (Federation)", "")
try:
country = pycountry.countries.lookup(s)
except LookupError:
country = None
if country:
return country.alpha_2.lower()
try:
sub = pycountry.subdivisions.lookup(s)
except LookupError:
sub = None
s = s.replace(" (State)", "").replace(" (Province)", "")
if sub:
return sub.country_code.lower()
else:
# print(f"unknown country: {s}", file=sys.stderr)
return None
def test_parse_country_name():
assert parse_country_name("") is None
assert parse_country_name("asdf blah") is None
assert parse_country_name("us") == "us"
assert parse_country_name("USA") == "us"
assert parse_country_name("United States of America") == "us"
assert parse_country_name("united States") == "us"
assert parse_country_name("Massachusetts") == "us"
assert parse_country_name("Russia") == "ru"
assert parse_country_name("Japan") == "jp"
# These are very close, but maybe not exactly 1-to-1 with 639-2? Some mix of
# 2/T and 2/B?
# PubMed/MEDLINE and JSTOR use these MARC codes
# https://www.loc.gov/marc/languages/language_name.html
LANG_MAP_MARC = {
'afr': 'af',
'alb': 'sq',
'amh': 'am',
'ara': 'ar',
'arm': 'hy',
'aze': 'az',
'ben': 'bn',
'bos': 'bs',
'bul': 'bg',
'cat': 'ca',
'chi': 'zh',
'cze': 'cs',
'dan': 'da',
'dut': 'nl',
'eng': 'en',
'epo': 'eo',
'est': 'et',
'fin': 'fi',
'fre': 'fr',
'geo': 'ka',
'ger': 'de',
'gla': 'gd',
'gre': 'el',
'heb': 'he',
'hin': 'hi',
'hrv': 'hr',
'hun': 'hu',
'ice': 'is',
'ind': 'id',
'ita': 'it',
'jpn': 'ja',
'kin': 'rw',
'kor': 'ko',
'lat': 'la',
'lav': 'lv',
'lit': 'lt',
'mac': 'mk',
'mal': 'ml',
'mao': 'mi',
'may': 'ms',
'nor': 'no',
'per': 'fa',
'per': 'fa',
'pol': 'pl',
'por': 'pt',
'pus': 'ps',
'rum': 'ro',
'rus': 'ru',
'san': 'sa',
'slo': 'sk',
'slv': 'sl',
'spa': 'es',
'srp': 'sr',
'swe': 'sv',
'tha': 'th',
'tur': 'tr',
'ukr': 'uk',
'urd': 'ur',
'vie': 'vi',
'wel': 'cy',
# additions
'gle': 'ga', # "Irish" (Gaelic)
'jav': 'jv', # Javanese
'welsh': 'cy', # Welsh
'oci': 'oc', # Occitan
# Don't have ISO 639-1 codes
'grc': 'el', # Ancient Greek; map to modern greek
'map': None, # Austronesian (collection)
'syr': None, # Syriac, Modern
'gem': None, # Old Saxon
'non': None, # Old Norse
'emg': None, # Eastern Meohang
'neg': None, # Negidal
'mul': None, # Multiple languages
'und': None, # Undetermined
}