Source code for date

"""Date data and manipulation module."""
#
# (C) Pywikibot team, 2003-2022
#
# Distributed under the terms of the MIT license.
#
import calendar
import datetime
import re
from collections import abc, defaultdict
from contextlib import suppress
from functools import singledispatch
from string import digits as _decimalDigits  # noqa: N812
from typing import Optional, Union

import pywikibot.site
from pywikibot import Site
from pywikibot.backports import (
    Any,
    Callable,
    Dict,
    Iterator,
    List,
    Mapping,
    Pattern,
    Sequence,
    Tuple,
)
from pywikibot.textlib import NON_LATIN_DIGITS
from pywikibot.tools import first_lower, first_upper


#
# Different collections of well known formats
#
brMonthNames = ['Genver', "C'hwevrer", 'Meurzh', 'Ebrel', 'Mae', 'Mezheven',
                'Gouere', 'Eost', 'Gwengolo', 'Here', 'Du', 'Kerzu']
enMonthNames = ['January', 'February', 'March', 'April', 'May', 'June',
                'July', 'August', 'September', 'October', 'November',
                'December']
waMonthNames = ['djanvî', 'fevrî', 'måss', 'avri', 'may', 'djun', 'djulete',
                'awousse', 'setimbe', 'octôbe', 'nôvimbe', 'decimbe']
dayMnthFmts = ['Day_' + str(s) for s in enMonthNames]  # e.g. 'Day_January'
yrMnthFmts = ['Year_' + str(s) for s in enMonthNames]  # e.g. 'Year_January'


# the order of these lists is important
adDateFormats = ['YearAD', 'DecadeAD', 'CenturyAD', 'MillenniumAD']
bcDateFormats = ['YearBC', 'DecadeBC', 'CenturyBC', 'MillenniumBC']

dateFormats = bcDateFormats + adDateFormats
decadeFormats = ['DecadeAD', 'DecadeBC']
centuryFormats = ['CenturyAD', 'CenturyBC']
yearFormats = ['YearAD', 'YearBC']
millFormats = ['MillenniumAD', 'MillenniumBC']
snglValsFormats = ['CurrEvents']
tuplst_type = List[Tuple[Callable[[Union[int, str]], Any],
                         Callable[[Union[int, str]], bool]]]
encf_type = Callable[[int], Union[int, Sequence[int]]]
decf_type = Callable[[Sequence[int]], int]

# decoders are three value tuples, with an optional fourth to represent a
# required number of digits

decoder_type = Union[
    Tuple[str, Callable[[int], str], Callable[[str], int]],
    Tuple[str, Callable[[int], str], Callable[[str], int], int]
]


[docs]@singledispatch def multi(value: int, tuplst: tuplst_type) -> Any: """ Run multiple pattern checks for the same entry. For example: 1st century, 2nd century, etc. The tuplst is a list of tuples. Each tuple must contain two functions: first to encode/decode a single value (e.g. simpleInt), second is a predicate function with an integer parameter that returns true or false. When the 2nd function evaluates to true, the 1st function is used. """ # Find a predicate that gives true for this int value, and run a # function for func, pred in tuplst: if pred(value): return func(value) raise ValueError('could not find a matching function')
@multi.register(str) def _(value: str, tuplst: tuplst_type) -> Any: # Try all functions, and test result against predicates for func, pred in tuplst: try: res = func(value) except ValueError: continue if pred(res): return res raise ValueError('could not find a matching function') # # Helper functions that aid with single value no corrections encoding/decoding. # Various filters are item dependent. #
[docs]def dh_noConv(value: int, pattern: str, limit: Callable[[int], bool]) -> str: """Helper for decoding an integer value, no conversion, no rounding.""" return dh(value, pattern, lambda i: i, decSinglVal, limit)
[docs]def dh_dayOfMnth(value: int, pattern: str) -> str: """ Helper for decoding a single integer value. The single integer should be <=31, no conversion, no rounding (used in days of month). """ # For now use January because it has all 31 days return dh_noConv(value, pattern, formatLimits[dayMnthFmts[0]][0])
[docs]def dh_mnthOfYear(value: int, pattern: str) -> str: """ Helper for decoding a single integer value. The value should be >=1000, no conversion, no rounding (used in month of the year) """ return dh_noConv(value, pattern, _formatLimit_MonthOfYear[0])
[docs]def dh_decAD(value: int, pattern: str) -> str: """ Helper for decoding a single integer value. It should be no conversion, round to decimals (used in decades) """ return dh(value, pattern, encDec0, decSinglVal, formatLimits['DecadeAD'][0])
[docs]def dh_decBC(value: int, pattern: str) -> str: """ Helper for decoding a single integer value. It should be no conversion, round to decimals (used in decades) """ return dh(value, pattern, encDec0, decSinglVal, formatLimits['DecadeBC'][0])
[docs]def dh_yearBC(value: int, pattern: str) -> str: """Helper for decoding a year value. The value should have no conversion, no rounding, limits to 3000. """ return dh_noConv(value, pattern, formatLimits['YearBC'][0])
[docs]def dh_yearAD(value: int, pattern: str) -> str: """Helper for decoding a year value. The value should have no conversion, no rounding, limits to 3000. """ return dh_noConv(value, pattern, formatLimits['YearAD'][0])
[docs]def dh_simpleYearAD(value: int) -> str: """Helper for decoding a single integer value. This value should be representing a year with no extra symbols. """ return dh_yearAD(value, '%d')
[docs]def dh_number(value: int, pattern: str) -> str: """Helper for decoding a number.""" return dh_noConv(value, pattern, formatLimits['Number'][0])
[docs]def dh_centuryAD(value: int, pattern: str) -> str: """Helper for decoding an AD century.""" return dh_noConv(value, pattern, formatLimits['CenturyAD'][0])
[docs]def dh_centuryBC(value: int, pattern: str) -> str: """Helper for decoding an BC century.""" return dh_noConv(value, pattern, formatLimits['CenturyBC'][0])
[docs]def dh_millenniumAD(value: int, pattern: str) -> str: """Helper for decoding an AD millennium.""" return dh_noConv(value, pattern, formatLimits['MillenniumAD'][0])
[docs]def dh_millenniumBC(value: int, pattern: str) -> str: """Helper for decoding an BC millennium.""" return dh_noConv(value, pattern, formatLimits['MillenniumBC'][0])
[docs]def decSinglVal(v: Sequence[Any]) -> Any: """Return first item in list v.""" return v[0]
[docs]def encDec0(i: int) -> int: """Round to the nearest decade, decade starts with a '0'-ending year.""" return (i // 10) * 10
[docs]def encDec1(i: int) -> int: """Round to the nearest decade, decade starts with a '1'-ending year.""" return encDec0(i) + 1
[docs]@singledispatch def slh(value: int, lst: Sequence[str]) -> str: """Helper function for simple list value matching. !!!!! The index starts at 1, so 1st element has index 1, not 0 !!!!! Usually it will be used as a lambda call in a map:: lambda v: slh(v, ['January','February',...]) Usage scenarios:: formats['MonthName']['en'](1) => 'January' formats['MonthName']['en']('January') => 1 formats['MonthName']['en']('anything else') => raise ValueError """ return lst[value - 1]
@slh.register(str) def _(value: str, lst: Sequence[str]) -> int: return lst.index(value) + 1
[docs]@singledispatch def dh_singVal(value: int, match: str) -> str: """Helper function to match a single value to a constant.""" return dh_constVal(value, 0, match)
@dh_singVal.register(str) def _(value: str, match: str) -> int: return dh_constVal(value, 0, match) # type: ignore[return-value]
[docs]@singledispatch def dh_constVal(value: int, ind: int, match: str) -> str: """Helper function to match a single value to a constant. formats['CurrEvents']['en'](ind) => 'Current Events' formats['CurrEvents']['en']('Current Events') => ind """ if value == ind: return match raise ValueError(f'unknown value {value}')
@dh_constVal.register(str) def _(value: str, ind: int, match: str) -> int: if value == match: return ind raise ValueError(f'unknown value {value}')
[docs]def alwaysTrue(x: Any) -> bool: """ Return True, always. Used for multiple value selection function to accept all other values. :param x: not used :return: True """ return True
[docs]def monthName(lang: str, ind: int) -> str: """Return the month name for a language.""" return formats['MonthName'][lang](ind)
# Helper for KN: digits representation _knDigits = NON_LATIN_DIGITS['kn'] _knDigitsToLocal = {ord(str(i)): _knDigits[i] for i in range(10)} _knLocalToDigits = {ord(_knDigits[i]): str(i) for i in range(10)} # Helper for Urdu/Persian languages _faDigits = NON_LATIN_DIGITS['fa'] _faDigitsToLocal = {ord(str(i)): _faDigits[i] for i in range(10)} _faLocalToDigits = {ord(_faDigits[i]): str(i) for i in range(10)} # Helper for HI:, MR: _hiDigits = NON_LATIN_DIGITS['hi'] _hiDigitsToLocal = {ord(str(i)): _hiDigits[i] for i in range(10)} _hiLocalToDigits = {ord(_hiDigits[i]): str(i) for i in range(10)} # Helper for BN: _bnDigits = NON_LATIN_DIGITS['bn'] _bnDigitsToLocal = {ord(str(i)): _bnDigits[i] for i in range(10)} _bnLocalToDigits = {ord(_bnDigits[i]): str(i) for i in range(10)} # Helper for GU: _guDigits = NON_LATIN_DIGITS['gu'] _guDigitsToLocal = {ord(str(i)): _guDigits[i] for i in range(10)} _guLocalToDigits = {ord(_guDigits[i]): str(i) for i in range(10)}
[docs]def intToLocalDigitsStr(value: int, digitsToLocalDict: Mapping[int, str] ) -> str: """Encode an integer value into a textual form.""" return str(value).translate(digitsToLocalDict)
[docs]def localDigitsStrToInt(value: str, digitsToLocalDict: Mapping[int, str], localToDigitsDict: Mapping[int, str]) -> int: """Convert digits to integer.""" # First make sure there are no real digits in the string tmp = value.translate(digitsToLocalDict) # Test if tmp == value: return int(value.translate(localToDigitsDict)) # Convert raise ValueError('string contains regular digits')
# Helper for roman numerals number representation _romanNumbers = ['-', 'I', 'II', 'III', 'IV', 'V', 'VI', 'VII', 'VIII', 'IX', 'X', 'XI', 'XII', 'XIII', 'XIV', 'XV', 'XVI', 'XVII', 'XVIII', 'XIX', 'XX', 'XXI', 'XXII', 'XXIII', 'XXIV', 'XXV', 'XXVI', 'XXVII', 'XXVIII', 'XXIX', 'XXX']
[docs]def intToRomanNum(i: int) -> str: """Convert integer to roman numeral.""" if i >= len(_romanNumbers): raise IndexError(f'Roman value {i} is not defined') return _romanNumbers[i]
[docs]def romanNumToInt(v: str) -> int: """Convert roman numeral to integer.""" return _romanNumbers.index(v)
# Each tuple must 3 parts: a list of all possible digits (symbols), encoder # (from int to a str) and decoder (from str to an int) _digitDecoders: Dict[str, decoder_type] = { # %% is a % '%': '%', # %d is a decimal 'd': (_decimalDigits, str, int), # %R is a roman numeral. This allows for only the simplest linear # conversions based on a list of numbers 'R': ('IVX', intToRomanNum, romanNumToInt), # %K is a number in KN:: 'K': (_knDigits, lambda v: intToLocalDigitsStr(v, _knDigitsToLocal), lambda v: localDigitsStrToInt(v, _knDigitsToLocal, _knLocalToDigits)), # %F is a number in FA: 'F': (_faDigits, lambda v: intToLocalDigitsStr(v, _faDigitsToLocal), lambda v: localDigitsStrToInt(v, _faDigitsToLocal, _faLocalToDigits)), # %H is a number in HI: 'H': (_hiDigits, lambda v: intToLocalDigitsStr(v, _hiDigitsToLocal), lambda v: localDigitsStrToInt(v, _hiDigitsToLocal, _hiLocalToDigits)), # %B is a number in BN: 'B': (_bnDigits, lambda v: intToLocalDigitsStr(v, _bnDigitsToLocal), lambda v: localDigitsStrToInt(v, _bnDigitsToLocal, _bnLocalToDigits)), # %G is a number in GU: 'G': (_guDigits, lambda v: intToLocalDigitsStr(v, _guDigitsToLocal), lambda v: localDigitsStrToInt(v, _guDigitsToLocal, _guLocalToDigits)), # %T is a year in TH: -- all years are shifted: 2005 => 'พ.ศ. 2548' 'T': (_decimalDigits, lambda v: str(v + 543), lambda v: int(v) - 543), } # Allows to search for '(%%)|(%d)|(%R)|...", and allows one digit 1-9 to set # the size of zero-padding for numbers _reParameters = re.compile('|'.join(f'(%[1-9]?{s})' for s in _digitDecoders)) # A map of sitecode+pattern to (re matching object and corresponding decoders) _escPtrnCache2 = {}
[docs]def escapePattern2(pattern: str ) -> Tuple[Pattern[str], str, List[Union[decoder_type, decoder_type]]]: """ Convert a string pattern into a regex expression and cache. Allows matching of any _digitDecoders inside the string. Returns a compiled regex object and a list of digit decoders. """ @singledispatch def decode(dec: decoder_type, subpattern: str, newpattern: str, strpattern: str) -> Tuple[str, str]: if len(subpattern) == 3: # enforce mandatory field size newpattern += f'([{dec[0]}]{{{subpattern[1]}}})' # add the number of required digits as the last (4th) # part of the tuple decoders.append(dec + (int(s[1]),)) else: newpattern += f'([{dec[0]}]+)' decoders.append(dec) # All encoders produce a string for strpattern. # This causes problem with the zero padding. # Need to rethink return newpattern, strpattern + '%s' @decode.register(str) def _(dec: str, subpattern: str, newpattern: str, strpattern: str) -> Tuple[str, str]: # Special case for strings that are replaced instead of decoded # Keep the original text for strPattern assert len(subpattern) < 3, ( 'Invalid pattern {}: Cannot use zero padding size ' 'in {}!'.format(pattern, subpattern)) return newpattern + re.escape(dec), strpattern + subpattern if pattern not in _escPtrnCache2: newPattern = '' # match starts at the beginning of the string strPattern = '' decoders: List[decoder_type] = [] for s in _reParameters.split(pattern): if s is None: continue if (len(s) in (2, 3) and s[0] == '%' and s[-1] in _digitDecoders and (len(s) == 2 or s[1] in _decimalDigits)): # Must match a "%2d" or "%d" style dec = _digitDecoders[s[-1]] newPattern, strPattern = decode(dec, s, newPattern, strPattern) else: newPattern += re.escape(s) strPattern += s newPattern += '$' # end of the string compiledPattern = re.compile(newPattern) _escPtrnCache2[pattern] = (compiledPattern, strPattern, decoders) return _escPtrnCache2[pattern]
[docs]@singledispatch def dh(value: int, pattern: str, encf: encf_type, decf: decf_type, filter: Optional[Callable[[int], bool]] = None) -> str: """Function to help with year parsing. Usually it will be used as a lambda call in a map:: lambda v: dh(v, 'pattern string', encf, decf) :param encf: Converts from an integer parameter to another integer or a tuple of integers. Depending on the pattern, each integer will be converted to a proper string representation, and will be passed as a format argument to the pattern:: pattern % encf(value) This function is a complement of decf. :param decf: Converts a tuple/list of non-negative integers found in the original value string into a normalized value. The normalized value can be passed right back into dh() to produce the original string. This function is a complement of encf. dh() interprets %d as a decimal and %s as a roman numeral number. """ _compPattern, strPattern, decoders = escapePattern2(pattern) # Encode an integer value into a textual form. # This will be called from outside as well as recursivelly to verify # parsed value if filter and not filter(value): raise ValueError(f'value {value} is not allowed') params = encf(value) if isinstance(params, (tuple, list)): assert len(params) == len(decoders), ( 'parameter count ({}) does not match decoder count ({})' .format(len(params), len(decoders))) # convert integer parameters into their textual representation str_params = tuple(_make_parameter(decoders[i], param) for i, param in enumerate(params)) return strPattern % str_params assert len(decoders) == 1, ( 'A single parameter does not match {} decoders.' .format(len(decoders))) # convert integer parameter into its textual representation assert isinstance(params, int) return strPattern % _make_parameter(decoders[0], params)
@dh.register(str) def _(value: str, pattern: str, encf: encf_type, decf: decf_type, filter: Optional[Callable[[int], bool]] = None) -> int: compPattern, _strPattern, decoders = escapePattern2(pattern) m = compPattern.match(value) if m: # decode each found value using provided decoder values = [decoder[2](m[i + 1]) for i, decoder in enumerate(decoders)] decValue = decf(values) assert not isinstance(decValue, str), \ 'Decoder must not return a string!' # recursive call to re-encode and see if we get the original # (may through filter exception) if value == dh(decValue, pattern, encf, decf, filter): return decValue raise ValueError("reverse encoding didn't match") def _make_parameter(decoder: decoder_type, param: int) -> str: newValue = decoder[1](param) required_digits = decoder[3] if len(decoder) == 4 else None if required_digits is not None and len(newValue) < required_digits: # force parameter length by taking the first digit in the list and # repeating it required number of times # This converts "205" into "0205" for "%4d" newValue = decoder[0][0] * (required_digits - len(newValue)) + newValue return newValue # All years/decades/centuries/millenniums are designed in such a way # as to allow for easy date to string and string to date conversion. # For example, using any map with either an integer or a string will produce # its opposite value: # Usage scenarios: # formats['DecadeAD']['en'](1980) => '1980s' # formats['DecadeAD']['en']('1980s') => 1980 # formats['DecadeAD']['en']('anything else') => raise ValueError # (or some other exception?) # This is useful when trying to decide if a certain article is a localized date # or not, or generating dates. # See dh() for additional information.
[docs]class MonthNames(abc.Mapping): """A Mapping which reads month names from MediaWiki messages.""" # Predefined month names which are needed at import time months = { 'br': lambda v: slh(v, brMonthNames), 'en': lambda v: slh(v, enMonthNames), 'ja': lambda v: slh(v, makeMonthList('%d月')), 'ko': lambda v: slh(v, makeMonthList('%d월')), 'wa': lambda v: slh(v, waMonthNames), 'zh': lambda v: slh(v, makeMonthList('%d月')), } def __getitem__(self, lang: str ) -> Callable[[int], str]: if lang not in self.months: site = Site() # may_long differs keys = ['january', 'february', 'march', 'april', 'may_long', 'june', 'july', 'august', 'september', 'october', 'november', 'december'] months = list(site.mediawiki_messages(keys, lang=lang).values()) self.months[lang] = lambda v: slh(v, months) return self.months[lang] def __iter__(self) -> Iterator[str]: return iter(self.months) def __len__(self) -> int: """Length of preloaded languages with all month names.""" return len(self.months)
[docs]class MonthFormat(abc.MutableMapping): # type: ignore[type-arg] """A Mapping which creates months formats.""" day_formats = { 'af': ('%d {}', True), 'ang': ('%d {}', True), 'ar': ('%d {}', True), 'arz': ('%d {}', True), 'bg': ('%d {}', False), 'bn': ('{} %%B', None), 'ceb': ('{} %d', True), 'csb': ('%d {}a', False), 'cv': ('{}, %d', True), 'cy': ('%d {}', True), 'de': ('%d. {}', True), 'en': ('{} %d', True), 'eo': ('%d-a de {}', False), 'es': ('%d de {}', False), 'eu': ('{}aren %d', True), 'fi': ('%d. {}ta', False), 'fur': ('%d di {}', True), 'fy': ('%d {}', False), 'gl': ('%d de {}', False), 'gsw': ('%d. {}', True), 'he': ('%d ב{}', None), 'hu': ('{} %d.', True), 'ia': ('%d de {}', False), 'id': ('%d {}', True), 'ie': ('%d {}', False), 'io': ('%d di {}', False), 'it': ('%d {}', False), 'jv': ('%d {}', True), 'ka': ('%d {}', None), 'lb': ('%d. {}', True), 'mhr': ('%d {}', False), 'ml': ('{} %d', None), 'ms': ('%d {}', True), 'nap': ("%d 'e {}", False), 'nds': ('%d. {}', True), 'pt': ('%d de {}', True), 'ro': ('%d {}', False), 'sco': ('%d {}', True), 'scn': ('%d di {}', False), 'su': ('%d {}', True), 'sv': ('%d {}', False), 'ta': ('{} %d', None), 'te': ('{} %d', None), 'th': ('%d {}', None), # %%T 'tl': ('{} %d', None), 'tr': ('%d {}', True), 'tt': ('%d. {}', True), 'vec': ('%d de {}', False), 'vo': ('{} %d', False), } year_formats = { 'cs': ('{} %d', None), 'eo': ('{} de %d', None), 'es': ('{} de %d', True), 'it': ('Attualità/Anno %d - {}', True), 'ka': ('{}, %d', None), 'sk': ('{} %d', None), 'th': ('{} พ.ศ. %%T', None), 'tl': ('{} %d', None), } def __init__(self, index: int, format_key: str) -> None: """Initializer of MonthFormat mapping. :param index: month number :param format_key: formats key like Day_January or Year_December """ self.index = index self.variant, _, self.month = format_key.partition('_') self.data: Dict[str, Callable[[int], str]] = {} def __getitem__(self, key: str) -> Callable[[int], str]: if key not in self.data: if self.variant == 'Day': pattern, ucase = self.day_formats.get(key, ('%d. {}', False)) func = 'dh_dayOfMnth' elif self.variant == 'Year': pattern, ucase = self.year_formats.get(key, ('{} %d', True)) func = 'dh_mnthOfYear' else: raise KeyError(f"Wrong variant '{self.variant}'") if ucase: f = first_upper elif ucase is False: f = first_lower else: f = str month_pattern = pattern.format(f(monthName(key, self.index))) expression = f"lambda v: {func}(v, '{month_pattern}')" self.data[key] = eval(expression) return self.data[key] def __setitem__(self, key: str, value: Callable[[int], str]) -> None: self.data[key] = value def __delitem__(self, key: str) -> None: raise NotImplementedError("Deleting of key '{}' is not implemented" .format(key)) def __iter__(self) -> Iterator[str]: return iter(self.data) def __len__(self) -> int: return len(self.data)
def _en_period(period: str): """Create century and millenium format function for ``en`` language.""" return lambda m: multi(m, [ (lambda v: dh_centuryAD(v, '%dst ' + period), lambda p: p == 1 or (p > 20 and p % 10 == 1)), (lambda v: dh_centuryAD(v, '%dnd ' + period), lambda p: p == 2 or (p > 20 and p % 10 == 2)), (lambda v: dh_centuryAD(v, '%drd ' + period), lambda p: p == 3 or (p > 20 and p % 10 == 3)), (lambda v: dh_centuryAD(v, '%dth ' + period), alwaysTrue)]) def _period_with_pattern(period: str, pattern: str): """Create century and millenium format function with pattern.""" return lambda m: multi(m, [ (lambda v: dh_constVal(v, 1, period), lambda p: p == 1), (lambda v: dh(v, pattern, lambda i: i - 1, lambda ii: ii[0] + 1), alwaysTrue)]) formats: Dict[Union[str, int], Mapping[str, Callable[[int], str]]] = { 'MonthName': MonthNames(), 'Number': { 'ar': lambda v: dh_number(v, '%d (عدد)'), 'ary': lambda v: dh_number(v, '%d'), 'be': lambda v: dh_number(v, '%d (лік)'), 'bg': lambda v: dh_number(v, '%d (число)'), 'bs': lambda v: dh_number(v, '%d (broj)'), 'cs': lambda v: dh_number(v, '%d (číslo)'), 'da': lambda v: dh_number(v, '%d (tal)'), 'en': lambda v: dh_number(v, '%d (number)'), 'fa': lambda v: dh_number(v, '%d (عدد)'), 'fi': lambda v: dh_number(v, '%d (luku)'), 'fr': lambda v: dh_number(v, '%d (nombre)'), 'he': lambda v: dh_number(v, '%d (מספר)'), 'hu': lambda v: dh_number(v, '%d (szám)'), 'ia': lambda v: dh_number(v, '%d (numero)'), 'ja': lambda v: dh_number(v, '%d'), 'ko': lambda v: dh_number(v, '%d'), 'ksh': lambda v: dh_number(v, '%d (Zahl)'), 'la': lambda v: dh_number(v, '%d'), 'lt': lambda v: dh_number(v, '%d (skaičius)'), 'nds': lambda v: dh_number(v, '%d (Tall)'), 'nl': lambda v: dh_number(v, '%d (getal)'), 'nn': lambda v: dh_number(v, 'Talet %d'), 'nb': lambda v: dh_number(v, '%d (tall)'), 'nso': lambda v: dh_number(v, '%d (nomoro)'), 'pl': lambda v: dh_number(v, '%d (liczba)'), 'ro': lambda v: dh_number(v, '%d (cifră)'), 'ru': lambda v: dh_number(v, '%d (число)'), 'sk': lambda v: dh_number(v, '%d (číslo)'), 'sl': lambda v: dh_number(v, '%d (število)'), 'sr': lambda v: dh_number(v, '%d (број)'), 'sv': lambda v: dh_number(v, '%d (tal)'), 'th': lambda v: dh_number(v, '%d'), # was %d (จำนวน) 'tl': lambda v: dh_number(v, '%d (bilang)'), 'tr': lambda v: dh_number(v, '%d (sayı)'), 'zh': lambda v: dh_number(v, '%d'), }, 'YearAD': defaultdict(lambda: dh_simpleYearAD, **{ 'bn': lambda v: dh_yearAD(v, '%B'), 'fa': lambda v: dh_yearAD(v, '%F (میلادی)'), 'gan': lambda v: dh_yearAD(v, '%d年'), 'gu': lambda v: dh_yearAD(v, '%G'), 'hi': lambda v: dh_yearAD(v, '%H'), 'hr': lambda v: dh_yearAD(v, '%d.'), 'ja': lambda v: dh_yearAD(v, '%d年'), 'jbo': lambda v: dh_yearAD(v, '%dmoi nanca'), 'kn': lambda v: dh_yearAD(v, '%K'), 'ko': lambda v: dh_yearAD(v, '%d년'), 'ksh': lambda v: dh_yearAD(v, 'Joohr %d'), 'mr': lambda v: dh_yearAD(v, 'ई.स. %H'), 'nan': lambda v: dh_yearAD(v, '%d nî'), 'ru': lambda v: dh_yearAD(v, '%d год'), # 2005 => 'พ.ศ. 2548' 'th': lambda v: dh_yearAD(v, 'พ.ศ. %T'), 'ur': lambda v: dh_yearAD(v, '%dء'), 'zh': lambda v: dh_yearAD(v, '%d年'), }), 'YearBC': { 'af': lambda v: dh_yearBC(v, '%d v.C.'), 'ar': lambda v: dh_yearBC(v, '%d ق م'), 'ast': lambda v: dh_yearBC(v, '%d edC'), 'be': lambda v: dh_yearBC(v, '%d да н.э.'), 'bg': lambda v: dh_yearBC(v, '%d г. пр.н.е.'), 'bs': lambda v: dh_yearBC(v, '%d p.n.e.'), 'ca': lambda v: dh_yearBC(v, '%d aC'), 'cs': lambda v: dh_yearBC(v, '%d př. n. l.'), 'cy': lambda v: dh_yearBC(v, '%d CC'), 'da': lambda v: dh_yearBC(v, '%d f.Kr.'), 'de': lambda v: dh_yearBC(v, '%d v. Chr.'), 'el': lambda v: dh_yearBC(v, '%d π.Χ.'), 'en': lambda v: dh_yearBC(v, '%d BC'), 'eo': lambda v: dh_yearBC(v, '-%d'), 'es': lambda v: dh_yearBC(v, '%d a. C.'), 'et': lambda v: dh_yearBC(v, '%d eKr'), 'eu': lambda v: dh_yearBC(v, 'K. a. %d'), 'fa': lambda v: dh_yearBC(v, '%d (پیش از میلاد)'), 'fi': lambda v: dh_yearBC(v, '%d eaa.'), 'fo': lambda v: dh_yearBC(v, '%d f. Kr.'), 'fr': lambda v: dh_yearBC(v, '%d av. J.-C.'), 'gl': lambda v: dh_yearBC(v, '-%d'), 'he': lambda v: dh_yearBC(v, '%d לפני הספירה'), 'hr': lambda v: dh_yearBC(v, '%d. pr. Kr.'), 'hu': lambda v: dh_yearBC(v, 'I. e. %d'), 'id': lambda v: dh_yearBC(v, '%d SM'), 'io': lambda v: dh_yearBC(v, '%d aK'), 'is': lambda v: dh_yearBC(v, '%d f. Kr.'), 'it': lambda v: dh_yearBC(v, '%d a.C.'), 'ka': lambda v: dh_yearBC(v, 'ძვ. წ. %d'), 'ko': lambda v: dh_yearBC(v, '기원전 %d년'), 'ksh': lambda v: dh_yearBC(v, 'Joohr %d füür Krėßtůß'), 'la': lambda v: dh_yearBC(v, '%d a.C.n.'), 'lb': lambda v: dh_yearBC(v, '-%d'), 'lt': lambda v: dh_yearBC(v, '%d m. pr. m. e.'), 'lv': lambda v: dh_yearBC(v, '%d p.m.ē.'), 'mk': lambda v: dh_yearBC(v, '%d п.н.е.'), 'ms': lambda v: dh_yearBC(v, '%d SM'), 'nap': lambda v: dh_yearBC(v, '%d AC'), 'nds': lambda v: dh_yearBC(v, '%d v. Chr.'), 'nl': lambda v: dh_yearBC(v, '%d v.Chr.'), 'nn': lambda v: dh_yearBC(v, '-%d'), 'nb': lambda v: dh_yearBC(v, '%d f.Kr.'), 'oc': lambda v: dh_yearBC(v, '-%d'), 'pl': lambda v: dh_yearBC(v, '%d p.n.e.'), 'pt': lambda v: dh_yearBC(v, '%d a.C.'), 'ro': lambda v: dh_yearBC(v, '%d î.Hr.'), 'ru': lambda v: dh_yearBC(v, '%d год до н. э.'), 'scn': lambda v: dh_yearBC(v, '%d a.C.'), 'sk': lambda v: dh_yearBC(v, '%d pred Kr.'), 'sl': lambda v: dh_yearBC(v, '%d pr. n. št.'), 'sq': lambda v: dh_yearBC(v, '%d p.e.s.'), 'sr': lambda v: dh_yearBC(v, '%d. п. н. е.'), 'sv': lambda v: dh_yearBC(v, '%d f.Kr.'), 'sw': lambda v: dh_yearBC(v, '%d KK'), 'ta': lambda v: dh_yearBC(v, 'கி.மு %d'), 'tr': lambda v: dh_yearBC(v, 'M.Ö. %d'), 'tt': lambda v: dh_yearBC(v, 'MA %d'), 'uk': lambda v: dh_yearBC(v, '%d до н. е.'), 'ur': lambda v: dh_yearBC(v, '%d ق م'), 'uz': lambda v: dh_yearBC(v, 'Mil. av. %d'), 'vec': lambda v: dh_yearBC(v, '%d a.C.'), 'vo': lambda v: dh_yearBC(v, '%d b.K.'), 'zh': lambda v: dh_yearBC(v, '前%d年'), }, 'DecadeAD': { 'gsw': lambda v: dh_decAD(v, '%der'), 'ar': lambda v: dh_decAD(v, '%d عقد'), 'ang': lambda v: dh_decAD(v, '%de'), 'ast': lambda v: dh_decAD(v, 'Años %d'), 'bg': lambda v: dh_decAD(v, '%d-те'), 'br': lambda v: dh_decAD(v, 'Bloavezhioù %d'), 'bs': lambda v: dh_decAD(v, '%dte'), # Unknown what the pattern is, but 1970 is different 'ca': lambda m: multi(m, [ (lambda v: dh_decAD(v, 'Dècada de %d'), lambda p: p == 1970), (lambda v: dh_decAD(v, 'Dècada del %d'), alwaysTrue)]), # 1970s => '1970-1979' 'cs': lambda m: multi(m, [ (lambda v: dh_constVal(v, 1, '1-9'), lambda p: p == 1), (lambda v: dh(v, '%d-%d', lambda i: (encDec0(i), encDec0(i) + 9), decSinglVal), alwaysTrue)]), 'cy': lambda v: dh_decAD(v, '%dau'), 'da': lambda v: dh_decAD(v, "%d'erne"), 'de': lambda v: dh_decAD(v, '%der'), 'el': lambda v: dh_decAD(v, 'Δεκαετία %d'), 'en': lambda v: dh_decAD(v, '%ds'), 'eo': lambda v: dh_decAD(v, '%d-aj jaroj'), 'es': lambda v: dh_decAD(v, 'Años %d'), 'et': lambda v: dh_decAD(v, '%d. aastad'), 'fa': lambda v: dh_decAD(v, 'دهه %d (میلادی)'), # decades ending in 00 are spelled differently 'fi': lambda m: multi(m, [ (lambda v: dh_constVal(v, 0, 'Ensimmäinen vuosikymmen'), lambda p: p == 0), (lambda v: dh_decAD(v, '%d-luku'), lambda p: (p % 100 != 0)), (lambda v: dh_decAD(v, '%d-vuosikymmen'), alwaysTrue)]), 'fo': lambda v: dh_decAD(v, '%d-árini'), 'fr': lambda v: dh_decAD(v, 'Années %d'), 'ga': lambda v: dh_decAD(v, '%didí'), 'gan': lambda v: dh_decAD(v, '%d年代'), 'he': lambda m: multi(m, [ (lambda v: dh(v, 'שנות ה־%d', lambda i: encDec0(i) % 100, lambda ii: 1900 + ii[0]), lambda p: 1900 <= p < 2000), # This is a dummy value, just to avoid validation testing. (lambda v: dh_decAD(v, '%dth decade'), alwaysTrue)]), # ********** ERROR!!! 'hi': lambda v: dh_decAD(v, '%H का दशक'), # 1970s => 1970-1979 'hr': lambda m: multi(m, [ (lambda v: dh_constVal(v, 1, '1-9'), lambda p: p == 1), (lambda v: dh(v, '%d-%d', lambda i: (encDec0(i), encDec0(i) + 9), lambda ii: ii[0]), alwaysTrue)]), 'hu': lambda m: multi(m, [ (lambda v: dh_constVal(v, 1, '0-s évek'), lambda p: p == 1), (lambda v: dh_decAD(v, '%d-as évek'), lambda p: (p % 100 // 10) in (0, 2, 3, 6, 8)), (lambda v: dh_decAD(v, '%d-es évek'), alwaysTrue)]), 'io': lambda v: dh_decAD(v, '%da yari'), # 1970s => '1971–1980' 'is': lambda v: dh(v, '%d%d', lambda i: (encDec1(i), encDec1(i) + 9), lambda ii: ii[0] - 1), 'it': lambda v: dh_decAD(v, 'Anni %d'), 'ja': lambda v: dh_decAD(v, '%d年代'), 'ka': lambda v: dh_decAD(v, '%d-ები‎'), 'ko': lambda v: dh_decAD(v, '%d년대'), 'ksh': lambda v: dh_decAD(v, '%d-er Joohre'), # 1970s => 'Decennium 198' (1971-1980) 'la': lambda v: dh(v, 'Decennium %d', lambda i: encDec1(i) // 10 + 1, lambda ii: (ii[0] - 1) * 10), # 1970s => 'XX amžiaus 8-as dešimtmetis' (1971-1980) 'lt': lambda v: dh(v, '%R amžiaus %d-as dešimtmetis', lambda i: (encDec1(i) // 100 + 1, encDec1(i) % 100 // 10 + 1), lambda v: (v[0] - 1) * 100 + (v[1] - 1) * 10), # 1970s => 'Ngahurutanga 198' (1971-1980) 'mi': lambda v: dh(v, 'Ngahurutanga %d', lambda i: encDec0(i) // 10 + 1, lambda ii: (ii[0] - 1) * 10), 'mhr': lambda v: dh_decAD(v, '%d ийла'), 'nan': lambda v: dh_decAD(v, '%d nî-tāi'), # 1970s => '1970-1979' 'nl': lambda m: multi(m, [ (lambda v: dh_constVal(v, 1, '1-9'), lambda p: p == 1), (lambda v: dh(v, '%d-%d', lambda i: (encDec0(i), encDec0(i) + 9), decSinglVal), alwaysTrue)]), 'nn': lambda v: dh_decAD(v, '%d0-åra'), # FIXME: not sure of this one 'nb': lambda v: dh_decAD(v, '%d-årene'), 'os': lambda v: dh_decAD(v, '%d-тæ'), # 1970s => 'Lata 70. XX wieku' for anything # except 1900-1919, 2000-2019, # etc, in which case its 'Lata 1900-1909' 'pl': lambda m: multi(m, [ (lambda v: dh(v, 'Lata %d-%d', lambda i: (encDec0(i), encDec0(i) + 9), decSinglVal), lambda p: 0 <= p % 100 < 20), (lambda v: dh(v, 'Lata %d. %R wieku', lambda i: (encDec0(i) % 100, encDec0(i) // 100 + 1), lambda ii: (ii[1] - 1) * 100 + ii[0]), alwaysTrue)]), 'pt': lambda v: dh_decAD(v, 'Década de %d'), 'ro': lambda m: multi(m, [ (lambda v: dh_constVal(v, 0, 'Primul deceniu d.Hr.'), lambda p: p == 0), (lambda v: dh_decAD(v, 'Anii %d'), alwaysTrue)]), 'ru': lambda v: dh_decAD(v, '%d-е'), 'scn': lambda v: dh_decAD(v, '%dini'), # 1970 => '70. roky 20. storočia' 'sk': lambda v: dh(v, '%d. roky %d. storočia', lambda i: (encDec0(i) % 100, encDec0(i) // 100 + 1), lambda ii: (ii[1] - 1) * 100 + ii[0]), 'sl': lambda v: dh_decAD(v, '%d.'), 'sq': lambda v: dh_decAD(v, 'Vitet %d'), 'sr': lambda v: dh_decAD(v, '%dе'), 'sv': lambda m: multi(m, [ (lambda v: dh_decAD(v, '%d-talet (decennium)'), lambda p: (p % 100 == 0)), (lambda v: dh_decAD(v, '%d-talet'), alwaysTrue)]), 'tt': lambda v: dh_decAD(v, '%d. yıllar'), 'uk': lambda m: multi(m, [ (lambda v: dh_decAD(v, '%d-ві'), lambda p: p == 0 or (p % 100 == 40)), (lambda v: dh_decAD(v, '%d-ні'), lambda p: p % 1000 == 0), (lambda v: dh_decAD(v, '%d-ті'), alwaysTrue)]), 'ur': lambda v: dh_decAD(v, '%d کی دہائی'), 'wa': lambda v: dh_decAD(v, 'Anêyes %d'), 'zh': lambda v: dh_decAD(v, '%d年代'), }, 'DecadeBC': { 'ar': lambda v: dh_decBC(v, 'عقد %d ق م'), 'de': lambda v: dh_decBC(v, '%der v. Chr.'), 'da': lambda v: dh_decBC(v, "%d'erne f.Kr."), 'en': lambda v: dh_decBC(v, '%ds BC'), 'es': lambda v: dh_decBC(v, 'Años %d adC'), 'et': lambda v: dh_decBC(v, '%d. aastad eKr'), 'eu': lambda v: dh_decBC(v, 'K. a. %dko hamarkada'), # decades ending in 00 are spelled differently 'fi': lambda m: multi(m, [ (lambda v: dh_constVal(v, 0, 'Ensimmäinen vuosikymmen eaa.'), lambda p: p == 0), (lambda v: dh_decBC(v, '%d-luku eaa.'), lambda p: (p % 100 != 0)), (lambda v: dh_decBC(v, '%d-vuosikymmen eaa.'), alwaysTrue)]), 'fr': lambda v: dh_decBC(v, 'Années -%d'), 'he': lambda v: dh_decBC(v, 'שנות ה־%d לפני הספירה'), 'hr': lambda v: dh_decBC(v, '%dih p.n.e.'), 'hu': lambda m: multi(m, [ (lambda v: dh_constVal(v, 0, 'i. e. 0-s évek'), lambda p: p == 0), (lambda v: dh_decBC(v, 'i. e. %d-as évek'), lambda p: (p % 100 // 10) in (0, 2, 3, 6, 8)), (lambda v: dh_decBC(v, 'i. e. %d-es évek'), alwaysTrue)]), 'it': lambda v: dh_decBC(v, 'Anni %d a.C.'), 'ka': lambda v: dh_decBC(v, 'ძვ. წ. %d-ები'), 'ksh': lambda v: dh_decBC(v, '%d-er Joohre füür Krėßtůß'), # uncertain if ksh is right. might go to redirect. # '19-10 v. Chr.' 'nl': lambda m: multi(m, [ (lambda v: dh_constVal(v, 1, '9-1 v.Chr.'), lambda p: p == 1), (lambda v: dh(v, '%d-%d v.Chr.', lambda i: (encDec0(i) + 9, encDec0(i)), lambda ii: ii[1]), alwaysTrue)]), 'pt': lambda v: dh_decBC(v, 'Década de %d a.C.'), 'ro': lambda m: multi(m, [ (lambda v: dh_constVal(v, 0, 'Primul deceniu î.Hr.'), lambda p: p == 0), (lambda v: dh_decBC(v, 'Anii %d î.Hr.'), alwaysTrue)]), 'ru': lambda v: dh_decBC(v, '%d-е до н. э.'), 'sl': lambda v: dh_decBC(v, '%d. pr. n. št.'), 'sv': lambda m: multi(m, [ (lambda v: dh_decBC(v, '%d-talet f.Kr. (decennium)'), lambda p: (p % 100 == 0)), (lambda v: dh_decBC(v, '%d-talet f.Kr.'), alwaysTrue)]), 'tt': lambda v: dh_decBC(v, 'MA %d. yıllar'), 'uk': lambda m: multi(m, [ (lambda v: dh_decBC(v, '%d-ві до Р.Х.'), lambda p: p == 0 or (p % 100 == 40)), (lambda v: dh_decBC(v, '%d-ті до Р.Х.'), alwaysTrue)]), 'ur': lambda v: dh_decBC(v, '%d کی دہائی ق م'), 'zh': lambda v: dh_decBC(v, '前%d年代'), }, 'CenturyAD': { 'af': lambda m: multi(m, [ (lambda v: dh_centuryAD(v, '%dste eeu'), lambda p: p in (1, 8) or (p >= 20)), (lambda v: dh_centuryAD(v, '%dde eeu'), alwaysTrue)]), 'ang': lambda v: dh_centuryAD(v, '%de gēarhundred'), 'ar': lambda v: dh_centuryAD(v, 'القرن %d'), 'ast': lambda v: dh_centuryAD(v, 'Sieglu %R'), 'be': lambda v: dh_centuryAD(v, '%d стагодзьдзе'), 'bg': lambda v: dh_centuryAD(v, '%d век'), 'br': lambda m: multi(m, [ (lambda v: dh_constVal(v, 1, 'Iañ kantved'), lambda p: p == 1), (lambda v: dh_constVal(v, 2, 'Eil kantved'), lambda p: p == 2), (lambda v: dh_centuryAD(v, '%Re kantved'), lambda p: p in (2, 3)), (lambda v: dh_centuryAD(v, '%Rvet kantved'), alwaysTrue)]), 'bs': lambda v: dh_centuryAD(v, '%d. vijek'), 'ca': lambda v: dh_centuryAD(v, 'Segle %R'), 'cs': lambda v: dh_centuryAD(v, '%d. století'), 'cv': lambda v: dh_centuryAD(v, '%R ĕмĕр'), 'cy': lambda m: multi(m, [ (lambda v: dh_centuryAD(v, '%deg ganrif'), lambda p: p in (17, 19)), (lambda v: dh_centuryAD(v, '%dain ganrif'), lambda p: p == 21), (lambda v: dh_centuryAD(v, '%dfed ganrif'), alwaysTrue)]), 'da': lambda v: dh_centuryAD(v, '%d00-tallet'), 'de': lambda v: dh_centuryAD(v, '%d. Jahrhundert'), 'el': lambda m: multi(m, [ (lambda v: dh_centuryAD(v, '%dός αιώνας'), lambda p: p == 20), (lambda v: dh_centuryAD(v, '%dος αιώνας'), alwaysTrue)]), 'en': _en_period('century'), 'eo': lambda v: dh_centuryAD(v, '%d-a jarcento'), 'es': lambda v: dh_centuryAD(v, 'Siglo %R'), 'et': lambda v: dh_centuryAD(v, '%d. sajand'), 'eu': lambda v: dh_centuryAD(v, '%R. mendea'), # %R. mende 'fa': lambda m: multi(m, [ (lambda v: dh_constVal(v, 20, 'سده ۲۰ (میلادی)'), lambda p: p == 20), # This is a dummy value, just to avoid validation testing. # Later, it should be replaced with a proper 'fa' titles (lambda v: dh_centuryAD(v, 'سده %d (میلادی)'), alwaysTrue)]), # ********** ERROR!!! 'fi': _period_with_pattern('Ensimmäinen vuosisata', '%d00-luku'), 'fo': lambda v: dh_centuryAD(v, '%d. øld'), 'fr': lambda m: multi(m, [ (lambda v: dh_centuryAD(v, '%Rer siècle'), lambda p: p == 1), (lambda v: dh_centuryAD(v, '%Re siècle'), alwaysTrue)]), 'fy': lambda v: dh_centuryAD(v, '%de ieu'), 'ga': lambda v: dh_centuryAD(v, '%dú haois'), 'gl': lambda v: dh_centuryAD(v, 'Século %R'), 'gsw': lambda v: dh_centuryAD(v, '%d. Jahrhundert'), 'he': lambda v: dh_centuryAD(v, 'המאה ה־%d'), 'hi': lambda m: multi(m, [ (lambda v: dh_constVal(v, 20, 'बीसवी शताब्दी'), lambda p: p == 20), # This is a dummy value, just to avoid validation testing. # Later, it should be replaced with a proper 'fa' titles (lambda v: dh_centuryAD(v, '%dth century'), alwaysTrue)]), # ********** ERROR!!! 'hr': lambda v: dh_centuryAD(v, '%d. stoljeće'), 'hu': lambda v: dh_centuryAD(v, '%d. század'), 'id': lambda v: dh_centuryAD(v, 'Abad ke-%d'), 'io': lambda v: dh_centuryAD(v, '%dma yar-cento'), 'it': lambda v: dh_centuryAD(v, '%R secolo'), 'is': lambda v: dh_centuryAD(v, '%d. öldin'), 'ja': lambda v: dh_centuryAD(v, '%d世紀'), 'jv': lambda v: dh_centuryAD(v, 'Abad kaping %d'), 'ka': lambda v: dh_centuryAD(v, '%R საუკუნე'), 'ko': lambda v: dh_centuryAD(v, '%d세기'), 'ku': lambda v: dh_centuryAD(v, "Sedsala %d'an"), 'kw': lambda m: multi(m, [ (lambda v: dh_centuryAD(v, '%dsa kansblydhen'), lambda p: p <= 3), (lambda v: dh_centuryAD(v, '%da kansblydhen'), lambda p: p == 4), (lambda v: dh_centuryAD(v, '%des kansblydhen'), lambda p: p == 5), (lambda v: dh_centuryAD(v, '%dns kansblydhen'), lambda p: p >= 20), (lambda v: dh_centuryAD(v, '%dves kansblydhen'), alwaysTrue)]), 'ksh': lambda v: dh_centuryAD(v, '%d. Joohunndot'), 'la': lambda v: dh_centuryAD(v, 'Saeculum %d'), 'lb': lambda v: dh_centuryAD(v, '%d. Joerhonnert'), # Limburgish (li) have individual names for each century 'li': lambda v: slh(v, ['Ierste iew', 'Twiede iew', 'Derde iew', 'Veerde iew', 'Viefde iew', 'Zesde iew', 'Zevende iew', 'Achste iew', 'Negende iew', 'Tiende iew', 'Elfde iew', 'Twelfde iew', 'Dertiende iew', 'Veertiende iew', 'Vieftiende iew', 'Zestiende iew', 'Zeventiende iew', 'Achtiende iew', 'Negentiende iew', 'Twintegste iew', 'Einentwintegste iew', 'Twieëntwintegste iew']), 'lt': lambda v: dh_centuryAD(v, '%R amžius'), 'lv': lambda v: dh_centuryAD(v, '%d. gadsimts'), 'mi': lambda v: dh_centuryAD(v, 'Tua %d rau tau'), 'mk': lambda v: dh_centuryAD(v, '%d век'), 'nan': lambda v: dh_centuryAD(v, '%d sè-kí'), 'nds': lambda v: dh_centuryAD(v, '%d. Johrhunnert'), 'nl': lambda v: dh_centuryAD(v, '%de eeuw'), 'nn': _period_with_pattern('1. århundret', '%d00-talet'), 'nb': lambda v: dh_centuryAD(v, '%d. århundre'), 'os': lambda v: dh_centuryAD(v, '%R æнус'), 'pl': lambda v: dh_centuryAD(v, '%R wiek'), 'pt': lambda v: dh_centuryAD(v, 'Século %R'), 'ro': lambda v: dh_centuryAD(v, 'Secolul %R'), 'ru': lambda v: dh_centuryAD(v, '%R век'), 'scn': lambda v: dh_centuryAD(v, 'Sèculu %R'), 'sk': lambda v: dh_centuryAD(v, '%d. storočie'), 'sl': lambda v: dh_centuryAD(v, '%d. stoletje'), 'sr': lambda v: dh_centuryAD(v, '%d. век'), 'sq': lambda v: dh_centuryAD(v, 'Shekulli %R'), 'sv': lambda v: dh(v, '%d00-talet', lambda i: i - 1, lambda ii: ii[0] + 1), 'su': lambda v: dh_centuryAD(v, 'Abad ka-%d'), 'th': lambda v: dh_centuryAD(v, 'คริสต์ศตวรรษที่ %d'), 'tr': lambda v: dh_centuryAD(v, '%d. yüzyıl'), 'tt': lambda v: dh_centuryAD(v, '%d. yöz'), 'uk': lambda v: dh_centuryAD(v, '%d століття'), 'ur': lambda v: dh_centuryAD(v, '%d ویں صدی'), 'vi': lambda v: dh_centuryAD(v, 'Thế kỷ %d'), 'wa': lambda v: dh_centuryAD(v, '%dinme sieke'), 'zh': lambda v: dh_centuryAD(v, '%d世纪'), }, 'CenturyBC': { 'af': lambda m: multi(m, [ (lambda v: dh_centuryBC(v, '%dste eeu v.C.'), lambda p: p in (1, 8) or (p >= 20)), (lambda v: dh_centuryBC(v, '%dde eeu v.C.'), alwaysTrue)]), 'bg': lambda v: dh_centuryBC(v, '%d век пр.н.е.'), 'br': lambda m: multi(m, [ (lambda v: dh_constVal(v, 1, 'Iañ kantved kt JK'), lambda p: p == 1), (lambda v: dh_constVal(v, 2, 'Eil kantved kt JK'), lambda p: p == 2), (lambda v: dh_centuryBC(v, '%Re kantved kt JK'), lambda p: p in (2, 3)), (lambda v: dh_centuryBC(v, '%Rvet kantved kt JK'), alwaysTrue)]), 'ca': lambda v: dh_centuryBC(v, 'Segle %R aC'), 'cs': lambda v: dh_centuryBC(v, '%d. století př. n. l.'), 'da': lambda v: dh_centuryBC(v, '%d. århundrede f.Kr.'), 'de': lambda v: dh_centuryBC(v, '%d. Jahrhundert v. Chr.'), 'el': lambda v: dh_centuryBC(v, '%dος αιώνας π.Χ.'), 'en': _en_period('century BC'), 'eo': lambda v: dh_centuryBC(v, '%d-a jarcento a.K.'), 'es': lambda v: dh_centuryBC(v, 'Siglo %R adC'), 'et': lambda v: dh_centuryBC(v, '%d. aastatuhat eKr'), 'fi': _period_with_pattern('Ensimmäinen vuosisata eaa.', '%d00-luku eaa.'), 'fr': lambda m: multi(m, [ (lambda v: dh_centuryBC(v, '%Rer siècle av. J.-C.'), lambda p: p == 1), (lambda v: dh_centuryBC(v, '%Re siècle av. J.-C.'), alwaysTrue)]), 'he': lambda v: dh_centuryBC(v, 'המאה ה־%d לפני הספירה'), 'hr': lambda v: dh_centuryBC(v, '%d. stoljeće p.n.e.'), 'id': lambda v: dh_centuryBC(v, 'Abad ke-%d SM'), 'io': lambda v: dh_centuryBC(v, '%dma yar-cento aK'), 'it': lambda v: dh_centuryBC(v, '%R secolo AC'), 'ja': lambda v: dh_centuryBC(v, '紀元前%d世紀'), 'ka': lambda v: dh_centuryBC(v, 'ძვ. წ. %R საუკუნე'), 'ko': lambda v: dh_centuryBC(v, '기원전 %d세기'), 'ksh': lambda v: dh_centuryBC(v, '%d. Joohunndot füür Kreůßtůß'), # uncertain if ksh is right. might go to redirect. 'la': lambda v: dh_centuryBC(v, 'Saeculum %d a.C.n.'), 'lb': lambda v: dh_centuryBC(v, '%d. Joerhonnert v. Chr.'), 'nl': lambda v: dh_centuryBC(v, '%de eeuw v.Chr.'), 'nn': _period_with_pattern('1. århundret fvt.', '%d00-talet fvt.'), 'nb': lambda v: dh_centuryBC(v, '%d. århundre f.Kr.'), 'pl': lambda v: dh_centuryBC(v, '%R wiek p.n.e.'), 'pt': lambda v: dh_centuryBC(v, 'Século %R a.C.'), 'ro': lambda m: multi(m, [ (lambda v: dh_constVal(v, 1, 'Secolul I î.Hr.'), lambda p: p == 1), (lambda v: dh_centuryBC(v, 'Secolul al %R-lea î.Hr.'), alwaysTrue)]), 'ru': lambda v: dh_centuryBC(v, '%R век до н. э.'), 'scn': lambda v: dh_centuryBC(v, 'Sèculu %R a.C.'), 'sk': lambda v: dh_centuryBC(v, '%d. storočie pred Kr.'), 'sl': lambda v: dh_centuryBC(v, '%d. stoletje pr. n. št.'), 'sq': lambda v: dh_centuryBC(v, 'Shekulli %R p.e.s.'), 'sr': lambda v: dh_centuryBC(v, '%d. век пне.'), 'sv': lambda v: dh(v, '%d00-talet f.Kr.', lambda i: i - 1, lambda ii: ii[0] + 1), 'tr': lambda v: dh_centuryBC(v, 'MÖ %d. yüzyıl'), 'tt': lambda v: dh_centuryBC(v, 'MA %d. yöz'), 'uk': lambda v: dh_centuryBC(v, '%d століття до Р.Х.'), 'zh': lambda m: multi(m, [ (lambda v: dh_centuryBC(v, '前%d世纪'), lambda p: p < 4), (lambda v: dh_centuryBC(v, '前%d世紀'), alwaysTrue)]), }, 'CenturyAD_Cat': { 'cs': lambda v: dh_centuryAD(v, '%d. století'), 'da': lambda v: dh_centuryAD(v, '%d. århundrede'), 'nb': lambda v: dh(v, '%d-tallet', lambda i: (i - 1) * 100, lambda ii: ii[0] // 100 + 1), }, 'CenturyBC_Cat': { 'cs': lambda v: dh_centuryBC(v, '%d. století př. n. l.'), 'de': lambda v: dh_centuryBC(v, 'Jahr (%d. Jh. v. Chr.)'), 'nb': lambda v: dh(v, '%d-tallet f.Kr.', lambda i: (i - 1) * 100, lambda ii: ii[0] // 100 + 1), }, 'MillenniumAD': { 'bg': lambda v: dh_millenniumAD(v, '%d хилядолетие'), 'ca': lambda v: dh_millenniumAD(v, 'Mil·lenni %R'), 'cs': lambda v: dh_millenniumAD(v, '%d. tisíciletí'), 'de': lambda v: dh_millenniumAD(v, '%d. Jahrtausend'), 'el': lambda v: dh_millenniumAD(v, '%dη χιλιετία'), 'en': _en_period('millennium'), 'es': lambda v: dh_millenniumAD(v, '%R milenio'), 'fa': lambda v: dh_millenniumAD(v, 'هزاره %R (میلادی)'), 'fi': lambda m: multi(m, [ (lambda v: dh_constVal(v, 1, 'Ensimmäinen vuosituhat'), lambda p: p == 1), (lambda v: dh_constVal(v, 2, 'Toinen vuosituhat'), lambda p: p == 2), (lambda v: dh_constVal(v, 3, 'Kolmas vuosituhat'), lambda p: p == 3), (lambda v: dh_constVal(v, 4, 'Neljäs vuosituhat'), lambda p: p == 4), (lambda v: dh_constVal(v, 5, 'Viides vuosituhat'), lambda p: p == 5), (lambda v: dh(v, '%d000-vuosituhat', lambda i: i - 1, lambda ii: ii[0] + 1), alwaysTrue)]), 'fr': lambda m: multi(m, [ (lambda v: dh_millenniumAD(v, '%Rer millénaire'), lambda p: p == 1), (lambda v: dh_millenniumAD(v, '%Re millénaire'), alwaysTrue)]), 'he': lambda m: multi(m, [ (lambda v: dh_millenniumAD(v, 'האלף הראשון %d'), lambda p: p == 1), (lambda v: dh_millenniumAD(v, 'האלף השני %d'), lambda p: p == 2), (lambda v: dh_millenniumAD(v, 'האלף השלישי %d'), lambda p: p == 3), (lambda v: dh_millenniumAD(v, 'האלף הרביעי %d'), lambda p: p == 4), (lambda v: dh_millenniumAD(v, 'האלף החמישי %d '), lambda p: p == 5), (lambda v: dh_millenniumAD(v, 'האלף השישי %d'), lambda p: p == 6), (lambda v: dh_millenniumAD(v, 'האלף השביעי %d'), lambda p: p == 7), (lambda v: dh_millenniumAD(v, 'האלף השמיני %d'), lambda p: p == 8), (lambda v: dh_millenniumAD(v, 'האלף התשיעי %d'), lambda p: p == 9), (lambda v: dh_millenniumAD(v, 'האלף העשירי %d'), lambda p: p == 10), (lambda v: dh_millenniumAD(v, 'האלף ה־%d'), alwaysTrue)]), 'hu': lambda v: dh_millenniumAD(v, '%d. évezred'), 'it': lambda v: dh_millenniumAD(v, '%R millennio'), 'ja': lambda v: dh_millenniumAD(v, '%d千年紀'), 'ka': lambda v: dh_millenniumAD(v, '%R ათასწლეული'), 'ksh': lambda m: multi(m, [ (lambda v: dh_constVal(v, 1, 'Eetße Johdousend'), lambda p: p == 1), (lambda v: dh_constVal(v, 2, 'Zweijte Johdousend'), lambda p: p == 2), (lambda v: dh_constVal(v, 3, 'Drette Johdousend'), lambda p: p == 3), (lambda v: dh_constVal(v, 4, 'Veete Johdousend'), lambda p: p == 4), (lambda v: dh_constVal(v, 5, 'Föfte Johdousend'), lambda p: p == 5), (lambda v: dh_millenniumAD(v, '%d. Johdousend'), alwaysTrue)]), 'lb': lambda v: dh_millenniumAD(v, '%d. Joerdausend'), 'mhr': lambda v: dh_millenniumAD(v, '%R. курым — '), 'lt': lambda v: dh_millenniumAD(v, '%d tūkstantmetis'), 'pt': lambda v: slh(v, [ 'Primeiro milénio d.C.', 'Segundo milénio d.C.', 'Terceiro milénio d.C.', 'Quarto milénio d.C.']), 'ro': lambda v: slh(v, ['Mileniul I', 'Mileniul al II-lea', 'Mileniul III']), 'ru': lambda v: dh_millenniumAD(v, '%d тысячелетие'), 'sk': lambda v: dh_millenniumAD(v, '%d. tisícročie'), 'sl': lambda v: dh_millenniumAD(v, '%d. tisočletje'), 'sv': lambda v: dh(v, '%d000-talet (millennium)', lambda i: i - 1, lambda ii: ii[0] + 1), 'tt': lambda v: dh_millenniumAD(v, '%d. meñyıllıq'), 'ur': lambda m: multi(m, [ (lambda v: dh_constVal(v, 0, '0000مبم'), lambda p: p == 0), (lambda v: dh_millenniumAD(v, '%d000مبم'), alwaysTrue)]), }, 'MillenniumBC': { 'bg': lambda v: dh_millenniumBC(v, '%d хилядолетие пр.н.е.'), 'ca': lambda v: dh_millenniumBC(v, 'Mil·lenni %R aC'), 'cs': lambda v: dh_millenniumBC(v, '%d. tisíciletí př. n. l.'), 'da': lambda v: dh_millenniumBC(v, '%d. årtusinde f.Kr.'), 'de': lambda v: dh_millenniumBC(v, '%d. Jahrtausend v. Chr.'), 'el': lambda v: dh_millenniumBC(v, '%dη χιλιετία π.Χ.'), 'en': lambda v: dh_millenniumBC(v, '%dst millennium BC'), 'es': lambda v: dh_millenniumBC(v, '%R milenio adC'), 'fi': _period_with_pattern('Ensimmäinen vuosituhat eaa.', '%d000-vuosituhat eaa.'), 'fr': lambda v: dh_millenniumBC(v, '%Rer millénaire av. J.-C.'), 'he': lambda m: multi(m, [ (lambda v: dh_millenniumAD(v, 'האלף הראשון %d לפני הספירה'), lambda p: p == 1), (lambda v: dh_millenniumAD(v, 'האלף השני %d לפני הספירה'), lambda p: p == 2), (lambda v: dh_millenniumAD(v, 'האלף השלישי %d לפני הספירה'), lambda p: p == 3), (lambda v: dh_millenniumAD(v, 'האלף הרביעי %d לפני הספירה'), lambda p: p == 4), (lambda v: dh_millenniumAD(v, 'האלף החמישי %d לפני הספירה'), lambda p: p == 5), (lambda v: dh_millenniumAD(v, 'האלף השישי %d לפני הספירה'), lambda p: p == 6), (lambda v: dh_millenniumAD(v, 'האלף השביעי %d לפני הספירה'), lambda p: p == 7), (lambda v: dh_millenniumAD(v, 'האלף השמיני %d לפני הספירה'), lambda p: p == 8), (lambda v: dh_millenniumAD(v, 'האלף התשיעי %d לפני הספירה'), lambda p: p == 9), (lambda v: dh_millenniumAD(v, 'האלף העשירי %d לפני הספירה'), lambda p: p == 10), (lambda v: dh_millenniumAD(v, 'האלף ה־%d לפני הספירה'), alwaysTrue)]), 'hu': lambda v: dh_millenniumBC(v, 'I. e. %d. évezred'), 'it': lambda v: dh_millenniumBC(v, '%R millennio AC'), 'ja': lambda v: dh_millenniumBC(v, '紀元前%d千年紀'), 'ka': lambda v: dh_millenniumBC(v, 'ძვ. წ. %R ათასწლეული'), 'lb': lambda v: dh_millenniumBC(v, '%d. Joerdausend v. Chr.'), 'nl': lambda v: dh_millenniumBC(v, '%de millennium v.Chr.'), 'pt': lambda v: slh(v, ['Primeiro milénio a.C.', 'Segundo milénio a.C.', 'Terceiro milénio a.C.', 'Quarto milénio a.C.']), 'ro': lambda v: dh_millenniumBC(v, 'Mileniul %R î.Hr.'), 'ru': lambda v: dh_millenniumBC(v, '%d тысячелетие до н. э.'), 'sv': lambda v: dh(v, '%d000-talet f.Kr. (millennium)', lambda i: i - 1, lambda ii: ii[0] + 1), 'tt': lambda v: dh_millenniumBC(v, 'MA %d. meñyıllıq'), 'zh': lambda v: dh_millenniumBC(v, '前%d千年'), }, 'Cat_Year_MusicAlbums': { 'ar': lambda v: dh_yearAD(v, 'ألبومات %d'), 'cs': lambda v: dh_yearAD(v, 'Alba roku %d'), 'en': lambda v: dh_yearAD(v, '%d albums'), 'fa': lambda v: dh_yearAD(v, 'آلبوم‌های %d (میلادی)'), 'fi': lambda v: dh_yearAD(v, 'Vuoden %d albumit'), 'fr': lambda v: dh_yearAD(v, 'Album musical sorti en %d'), 'he': lambda v: dh_yearAD(v, 'אלבומי %d'), 'nb': lambda v: dh_yearAD(v, 'Musikkalbum fra %d'), 'pl': lambda v: dh_yearAD(v, 'Albumy muzyczne wydane w roku %d'), 'sl': lambda v: dh_yearAD(v, 'Albumi iz %d'), 'sv': lambda v: dh_yearAD(v, '%d års musikalbum'), }, 'Cat_BirthsAD': { 'an': lambda v: dh_yearAD(v, '%d (naixencias)'), 'ar': lambda v: dh_yearAD(v, 'مواليد %d'), 'ary': lambda v: dh_yearAD(v, 'زيادة %d'), 'arz': lambda v: dh_yearAD(v, 'مواليد %d'), 'bar': lambda v: dh_yearAD(v, 'Geboren %d'), 'be': lambda v: dh_yearAD(v, 'Нарадзіліся ў %d годзе'), 'be-tarask': lambda v: dh_yearAD(v, 'Нарадзіліся ў %d годзе'), 'bg': lambda v: dh_yearAD(v, 'Родени през %d година'), 'bjn': lambda v: dh_yearAD(v, 'Kalahiran %d'), 'bn': lambda v: dh_yearAD(v, '%B-এ জন্ম'), 'bpy': lambda v: dh_yearAD(v, 'মারি %B-এ উজ্জিসিতা'), 'br': lambda v: dh_yearAD(v, 'Ganedigezhioù %d'), 'bs': lambda v: dh_yearAD(v, '%d rođenja'), 'cbk-zam': lambda v: dh_yearAD(v, 'Nacidos en %d'), 'crh': lambda v: dh_yearAD(v, '%d senesinde doğğanlar'), 'cs': lambda v: dh_yearAD(v, 'Narození %d'), 'cy': lambda v: dh_yearAD(v, 'Genedigaethau %d'), 'da': lambda v: dh_yearAD(v, 'Født i %d'), 'de': lambda v: dh_yearAD(v, 'Geboren %d'), 'dsb': lambda v: dh_yearAD(v, 'Roź. %d'), 'el': lambda v: dh_yearAD(v, 'Γεννήσεις το %d'), 'en': lambda v: dh_yearAD(v, '%d births'), 'eo': lambda v: dh_yearAD(v, 'Naskiĝintoj en %d'), 'es': lambda v: dh_yearAD(v, 'Nacidos en %d'), 'et': lambda v: dh_yearAD(v, 'Sündinud %d'), 'eu': lambda v: dh_yearAD(v, '%dko jaiotzak'), 'fi': lambda v: dh_yearAD(v, 'Vuonna %d syntyneet'), 'fa': lambda v: dh_yearAD(v, 'زادگان %F (میلادی)'), 'fr': lambda v: dh_yearAD(v, 'Naissance en %d'), 'ga': lambda v: dh_yearAD(v, 'Daoine a rugadh i %d'), 'gan': lambda v: dh_yearAD(v, '%d年出世'), 'gv': lambda v: dh_yearAD(v, "Ruggyryn 'sy vlein %d"), 'hsb': lambda v: dh_yearAD(v, 'Rodź. %d'), 'hy': lambda v: dh_yearAD(v, '%d ծնունդներ'), 'id': lambda v: dh_yearAD(v, 'Kelahiran %d'), 'is': lambda v: dh_yearAD(v, 'Fólk fætt árið %d'), 'it': lambda v: dh_yearAD(v, 'Nati nel %d'), 'ja': lambda v: dh_yearAD(v, '%d年生'), 'jv': lambda v: dh_yearAD(v, 'Lair %d'), 'ka': lambda v: dh_yearAD(v, 'დაბადებული %d'), 'kk': lambda v: dh_yearAD(v, '%d жылы туғандар'), 'ko': lambda v: dh_yearAD(v, '%d년 태어남'), 'la': lambda v: dh_yearAD(v, 'Nati %d'), 'lb': lambda v: dh_yearAD(v, 'Gebuer %d'), 'lv': lambda v: dh_yearAD(v, '%d. gadā dzimušiel'), 'mk': lambda v: dh_yearAD(v, 'Родени во %d година'), 'ml': lambda v: dh_yearAD(v, '%d-ൽ ജനിച്ചവർ'), 'mn': lambda v: dh_yearAD(v, '%d онд төрөгсөд'), 'mr': lambda v: dh_yearAD(v, 'इ.स. %H मधील जन्म'), 'ms': lambda v: dh_yearAD(v, 'Kelahiran %d'), 'mt': lambda v: dh_yearAD(v, 'Twieldu fl-%d'), 'nah': lambda v: dh_yearAD(v, 'Ōtlācatqueh xiuhpan %d'), 'new': lambda v: dh_yearAD(v, '%Hय् बुगु'), 'nn': lambda v: dh_yearAD(v, 'Fødde i %d'), 'nb': lambda v: dh_yearAD(v, 'Fødsler i %d'), 'oc': lambda v: dh_yearAD(v, 'Naissença en %d'), 'pdc': lambda v: dh_yearAD(v, 'Gebore %d'), 'pl': lambda v: dh_yearAD(v, 'Urodzeni w %d'), 'qu': lambda v: dh_yearAD(v, 'Paqarisqa %d'), 'ro': lambda v: dh_yearAD(v, 'Nașteri în %d'), 'ru': lambda v: dh_yearAD(v, 'Родившиеся в %d году'), 'sah': lambda v: dh_yearAD(v, '%d сыллаахха төрөөбүттэр'), 'se': lambda v: dh_yearAD(v, 'Riegádeamit %d'), 'sh': lambda v: dh_yearAD(v, 'Rođeni %d.'), 'sk': lambda v: dh_yearAD(v, 'Narodenia v %d'), 'sl': lambda v: dh_yearAD(v, 'Rojeni leta %d'), 'sq': lambda v: dh_yearAD(v, 'Lindje %d'), 'sr': lambda v: dh_yearAD(v, 'Рођени %d.'), 'sv': lambda v: dh_yearAD(v, 'Födda %d'), 'sw': lambda v: dh_yearAD(v, 'Waliozaliwa %d'), 'szl': lambda v: dh_yearAD(v, 'Rodzyńi we %d'), 'ta': lambda v: dh_yearAD(v, '%d பிறப்புகள்'), 'te': lambda v: dh_yearAD(v, '%d జననాలు'), 'th': lambda v: dh_yearAD(v, 'บุคคลที่เกิดในปี พ.ศ. %T'), 'tl': lambda v: dh_yearAD(v, 'Ipinanganak noong %d'), 'tr': lambda v: dh_yearAD(v, '%d doğumlular'), 'tt': lambda v: dh_yearAD(v, '%d елда туганнар'), 'uk': lambda v: dh_yearAD(v, 'Народились %d'), 'ur': lambda v: dh_yearAD(v, '%dء کی پیدائشیں'), 'vi': lambda v: dh_yearAD(v, 'Sinh %d'), 'war': lambda v: dh_yearAD(v, 'Mga natawo han %d'), 'yo': lambda v: dh_yearAD(v, 'Àwọn ọjọ́ìbí ní %d'), 'yue': lambda v: dh_yearAD(v, '%d年出世'), 'zh': lambda v: dh_yearAD(v, '%d年出生'), }, 'Cat_DeathsAD': { 'an': lambda v: dh_yearAD(v, '%d (muertes)'), 'ay': lambda v: dh_yearAD(v, 'Jiwäwi %d'), 'ar': lambda v: dh_yearAD(v, 'وفيات %d'), 'arz': lambda v: dh_yearAD(v, 'وفيات %d'), 'ba': lambda v: dh_yearAD(v, '%d йылда үлгәндәр'), 'bar': lambda v: dh_yearAD(v, 'Gestorben %d'), 'be': lambda v: dh_yearAD(v, 'Памерлі ў %d годзе'), 'be-tarask': lambda v: dh_yearAD(v, 'Памерлі ў %d годзе'), 'bg': lambda v: dh_yearAD(v, 'Починали през %d година'), 'bn': lambda v: dh_yearAD(v, '%B-এ মৃত্যু'), 'br': lambda v: dh_yearAD(v, 'Marvioù %d'), 'bs': lambda v: dh_yearAD(v, '%d smrti'), 'crh': lambda v: dh_yearAD(v, '%d senesinde ölgenler'), 'cs': lambda v: dh_yearAD(v, 'Úmrtí %d'), 'cy': lambda v: dh_yearAD(v, 'Marwolaethau %d'), 'da': lambda v: dh_yearAD(v, 'Døde i %d'), 'de': lambda v: dh_yearAD(v, 'Gestorben %d'), 'dsb': lambda v: dh_yearAD(v, 'Wum. %d'), 'el': lambda v: dh_yearAD(v, 'Θάνατοι το %d'), 'en': lambda v: dh_yearAD(v, '%d deaths'), 'eo': lambda v: dh_yearAD(v, 'Mortintoj en %d'), 'es': lambda v: dh_yearAD(v, 'Fallecidos en %d'), 'et': lambda v: dh_yearAD(v, 'Surnud %d'), 'eu': lambda v: dh_yearAD(v, '%deko heriotzak'), 'fa': lambda v: dh_yearAD(v, 'درگذشتگان %F (میلادی)'), 'fi': lambda v: dh_yearAD(v, 'Vuonna %d kuolleet'), 'fr': lambda v: dh_yearAD(v, 'Décès en %d'), 'ga': lambda v: dh_yearAD(v, 'Básanna i %d'), 'gan': lambda v: dh_yearAD(v, '%d年過世'), 'gv': lambda v: dh_yearAD(v, "Baaseyn 'sy vlein %d"), 'hif': lambda v: dh_yearAD(v, '%d maut'), 'hsb': lambda v: dh_yearAD(v, 'Zemr. %d'), 'hy': lambda v: dh_yearAD(v, '%d մահեր'), 'id': lambda v: dh_yearAD(v, 'Kematian %d'), 'is': lambda v: dh_yearAD(v, 'Fólk dáið árið %d'), 'it': lambda v: dh_yearAD(v, 'Morti nel %d'), 'ja': lambda v: dh_yearAD(v, '%d年没'), 'jv': lambda v: dh_yearAD(v, 'Pati %d'), 'ka': lambda v: dh_yearAD(v, 'გარდაცვლილი %d'), 'kk': lambda v: dh_yearAD(v, '%d жылы қайтыс болғандар'), 'ko': lambda v: dh_yearAD(v, '%d년 죽음'), 'krc': lambda v: dh_yearAD(v, '%d джылда ёлгенле'), 'ky': lambda v: dh_yearAD(v, '%d жылы кайтыш болгандар'), 'la': lambda v: dh_yearAD(v, 'Mortui %d'), 'lb': lambda v: dh_yearAD(v, 'Gestuerwen %d'), 'lv': lambda v: dh_yearAD(v, '%d. gadā mirušie'), 'mk': lambda v: dh_yearAD(v, 'Починати во %d година'), 'ml': lambda v: dh_yearAD(v, '%d-ൽ മരിച്ചവർ'), 'mn': lambda v: dh_yearAD(v, '%d онд нас барагсад'), 'ms': lambda v: dh_yearAD(v, 'Kematian %d'), 'mt': lambda v: dh_yearAD(v, 'Mietu fl-%d'), 'nah': lambda v: dh_yearAD(v, '%d miquiztli'), 'nn': lambda v: dh_yearAD(v, 'Døde i %d'), 'nb': lambda v: dh_yearAD(v, 'Dødsfall i %d'), 'oc': lambda v: dh_yearAD(v, 'Decès en %d'), 'pdc': lambda v: dh_yearAD(v, 'Gschtaerewe %d'), 'pl': lambda v: dh_yearAD(v, 'Zmarli w %d'), 'pt': lambda v: dh_yearAD(v, 'Mortos em %d'), 'qu': lambda v: dh_yearAD(v, 'Wañusqa %d'), 'ro': lambda v: dh_yearAD(v, 'Decese în %d'), 'ru': lambda v: dh_yearAD(v, 'Умершие в %d году'), 'sah': lambda v: dh_yearAD(v, '%d сыллаахха өлбүттэр'), 'se': lambda v: dh_yearAD(v, 'Jápmimat %d'), 'sh': lambda v: dh_yearAD(v, 'Umrli %d.'), 'sk': lambda v: dh_yearAD(v, 'Úmrtia v %d'), 'sl': lambda v: dh_yearAD(v, 'Umrli leta %d'), 'sq': lambda v: dh_yearAD(v, 'Vdekje %d'), 'sr': lambda v: dh_yearAD(v, 'Умрли %d.'), 'sv': lambda v: dh_yearAD(v, 'Avlidna %d'), 'sw': lambda v: dh_yearAD(v, 'Waliofariki %d'), 'szl': lambda v: dh_yearAD(v, 'Umarći we %d'), 'ta': lambda v: dh_yearAD(v, '%d இறப்புகள்'), 'te': lambda v: dh_yearAD(v, '%d మరణాలు'), 'th': lambda v: dh_yearAD(v, 'บุคคลที่เสียชีวิตในปี พ.ศ. %T'), 'tl': lambda v: dh_yearAD(v, 'Namatay noong %d'), 'tr': lambda v: dh_yearAD(v, '%d yılında ölenler'), 'tt': lambda v: dh_yearAD(v, '%d елда вафатлар'), 'uk': lambda v: dh_yearAD(v, 'Померли %d'), 'ur': lambda v: dh_yearAD(v, '%dء کی وفیات'), 'vi': lambda v: dh_yearAD(v, 'Mất %d'), 'war': lambda v: dh_yearAD(v, 'Mga namatay han %d'), 'yo': lambda v: dh_yearAD(v, 'Àwọn ọjọ́aláìsí ní %d'), 'yue': lambda v: dh_yearAD(v, '%d年死'), 'zh': lambda v: dh_yearAD(v, '%d年逝世'), }, 'Cat_BirthsBC': { 'ar': lambda v: dh_yearBC(v, 'مواليد %d ق م'), 'arz': lambda v: dh_yearBC(v, 'مواليد %d ق م'), 'en': lambda v: dh_yearBC(v, '%d BC births'), 'nb': lambda v: dh_yearBC(v, 'Fødsler i %d f.Kr.'), }, 'Cat_DeathsBC': { 'ar': lambda v: dh_yearBC(v, 'وفيات %d ق م'), 'arz': lambda v: dh_yearBC(v, 'وفيات %d ق م'), 'en': lambda v: dh_yearBC(v, '%d BC deaths'), 'fr': lambda v: dh_yearBC(v, 'Décès en -%d'), 'nb': lambda v: dh_yearBC(v, 'Dødsfall i %d f.Kr.'), }, 'CurrEvents': { 'an': lambda v: dh_singVal(v, 'Autualidá'), 'ang': lambda v: dh_singVal(v, 'Efenealde belimpas'), 'ar': lambda v: dh_singVal(v, 'أحداث جارية'), 'ary': lambda v: dh_singVal(v, 'آخر الأحداث'), 'arz': lambda v: dh_singVal(v, 'احداث دلوقتى'), 'be': lambda v: dh_singVal(v, 'Бягучыя падзеі'), 'bg': lambda v: dh_singVal(v, 'Текущи събития'), 'ca': lambda v: dh_singVal(v, 'Viquipèdia:Actualitat'), 'cs': lambda v: dh_singVal(v, 'Portál:Aktuality'), 'da': lambda v: dh_singVal(v, 'Aktuelle begivenheder'), 'de': lambda v: dh_singVal(v, 'Aktuelle Ereignisse'), 'el': lambda v: dh_singVal(v, 'Τρέχοντα γεγονότα'), 'en': lambda v: dh_singVal(v, 'Current events'), 'eo': lambda v: dh_singVal(v, 'Aktualaĵoj'), 'es': lambda v: dh_singVal(v, 'Actualidad'), 'et': lambda v: dh_singVal(v, 'Current events'), 'fa': lambda v: dh_singVal(v, 'رویدادهای کنونی'), 'fi': lambda v: dh_singVal(v, 'Ajankohtaista'), 'fr': lambda v: dh_singVal(v, 'Actualités'), 'gl': lambda v: dh_singVal(v, 'Novas'), 'he': lambda v: dh_singVal(v, 'אקטואליה'), 'hu': lambda v: dh_singVal(v, 'Friss események'), 'id': lambda v: dh_singVal(v, 'Wikipedia:Peristiwa terkini'), 'io': lambda v: dh_singVal(v, 'Current events'), 'it': lambda v: dh_singVal(v, 'Attualità'), 'ja': lambda v: dh_singVal(v, '最近の出来事'), 'ka': lambda v: dh_singVal(v, 'ახალი ამბები'), 'ko': lambda v: dh_singVal(v, '요즘 화제'), 'ksh': lambda v: dh_singVal(v, 'Et Neuste'), 'ku': lambda v: dh_singVal(v, 'Bûyerên rojane'), 'la': lambda v: dh_singVal(v, 'Nuntii'), 'lb': lambda v: dh_singVal(v, 'Aktualitéit'), 'li': lambda v: dh_singVal(v, "In 't nuujs"), 'mn': lambda v: dh_singVal(v, 'Мэдээ'), 'nan': lambda v: dh_singVal(v, 'Sin-bûn sū-kiāⁿ'), 'nl': lambda v: dh_singVal(v, 'In het nieuws'), 'nb': lambda v: dh_singVal(v, 'Aktuelt'), 'os': lambda v: dh_singVal(v, 'Xabar'), 'pl': lambda v: dh_singVal(v, 'Bieżące wydarzenia'), 'pt': lambda v: dh_singVal(v, 'Eventos atuais'), 'ro': lambda v: dh_singVal(v, 'Actualităţi'), 'ru': lambda v: dh_singVal(v, 'Текущие события'), 'scn': lambda v: dh_singVal(v, 'Nutizzî'), 'sk': lambda v: dh_singVal(v, 'Aktuality'), 'sl': lambda v: dh_singVal(v, 'Trenutni dogodki'), 'sr': lambda v: dh_singVal(v, 'Википедија:Актуелности'), 'sv': lambda v: dh_singVal(v, 'Aktuella händelser'), 'su': lambda v: dh_singVal(v, 'Keur lumangsung'), 'ta': lambda v: dh_singVal(v, 'நடப்பு நிகழ்வுகள்'), 'th': lambda v: dh_singVal(v, 'เหตุการณ์ปัจจุบัน'), 'tl': lambda v: dh_singVal(v, 'Kasalukuyang pangyayari'), 'tr': lambda v: dh_singVal(v, 'Güncel olaylar'), 'uk': lambda v: dh_singVal(v, 'Поточні події'), 'ur': lambda v: dh_singVal(v, 'حالیہ واقعات'), 'vi': lambda v: dh_singVal(v, 'Thời sự'), 'wa': lambda v: dh_singVal(v, 'Wikinoveles'), 'yo': lambda v: dh_singVal(v, 'Current events'), 'zh': lambda v: dh_singVal(v, '新闻动态'), }, } # # Add auto-generated empty dictionaries for DayOfMonth and MonthOfYear articles # for index, day_of_month in enumerate(dayMnthFmts, 1): val = MonthFormat(index, day_of_month) formats[day_of_month] = val for index, month_of_year in enumerate(yrMnthFmts, 1): val = MonthFormat(index, month_of_year) formats[month_of_year] = val
[docs]def addFmt1(lang: str, isMnthOfYear: bool, patterns: Sequence[Optional[str]]) -> None: """Add 12 month formats for a specific type ('January', 'Feb.'). The function must accept one parameter for the ->int or ->string conversions, just like everywhere else in the formats map. The patterns parameter is a list of 12 elements to be used for each month. :param lang: language code """ assert len(patterns) == 12, 'pattern %s does not have 12 elements' % lang for i in range(12): if patterns[i] is not None: if isMnthOfYear: formats[yrMnthFmts[i]][lang] = eval( f'lambda v: dh_mnthOfYear(v, "{patterns[i]}")') else: formats[dayMnthFmts[i]][lang] = eval( f'lambda v: dh_dayOfMnth(v, "{patterns[i]}")')
[docs]def makeMonthList(pattern: str) -> List[str]: """Return a list of 12 elements based on the number of the month.""" return [pattern % m for m in range(1, 13)]
[docs]def makeMonthNamedList(lang: str, pattern: str = '%s', makeUpperCase: Optional[bool] = None) -> List[str]: """Create a list of 12 elements based on the name of the month. The language-dependent month name is used as a formatting argument to the *pattern*. The *pattern* must be have one ``%s`` that will be replaced by the localized month name. Use ``%%`` for any other parameters that should be preserved. """ if makeUpperCase is None: return [pattern % monthName(lang, m) for m in range(1, 13)] func = first_upper if makeUpperCase else first_lower return [pattern % func(monthName(lang, m)) for m in range(1, 13)]
# Add day of the month formats to the formatting table: "en:May 15" addFmt1('an', False, ['%d de chinero', '%d de frebero', '%d de marzo', "%d d'abril", '%d de mayo', '%d de chunio', '%d de chulio', "%d d'agosto", '%d de setiembre', "%d d'otubre", '%d de nobiembre', "%d d'abiento"]) addFmt1('ar', False, ['%d يناير', '%d فبراير', '%d مارس', '%d أبريل', '%d مايو', '%d يونيو', '%d يوليو', '%d أغسطس', '%d سبتمبر', '%d أكتوبر', '%d نوفمبر', '%d ديسمبر']) addFmt1('arz', False, ['%d يناير', '%d فبراير', '%d مارس', '%d ابريل', '%d مايو', '%d يونيه', '%d يوليه', '%d اغسطس', '%d سبتمبر', '%d اكتوبر', '%d نوفمبر', '%d ديسمبر']) addFmt1('ast', False, ['%d de xineru', '%d de febreru', '%d de marzu', "%d d'abril", '%d de mayu', '%d de xunu', '%d de xunetu', "%d d'agost", '%d de setiembre', "%d d'ochobre", '%d de payares', "%d d'avientu"]) addFmt1('be', False, ['%d студзеня', '%d лютага', '%d сакавіка', '%d красавіка', '%d траўня', '%d чэрвеня', '%d ліпеня', '%d жніўня', '%d верасьня', '%d кастрычніка', '%d лістапада', '%d сьнежня']) addFmt1('ca', False, ['%d de gener', '%d de febrer', '%d de març', "%d d'abril", '%d de maig', '%d de juny', '%d de juliol', "%d d'agost", '%d de setembre', "%d d'octubre", '%d de novembre', '%d de desembre']) addFmt1('co', False, ['%d di ghjennaghju', '%d di frivaghju', '%d di marzu', "%d d'aprile", '%d di maghju', '%d di ghjugnu', '%d di lugliu', "%d d'aost", '%d di settembre', "%d d'uttrovi", '%d di nuvembri', '%d di decembre']) addFmt1('el', False, ['%d Ιανουαρίου', '%d Φεβρουαρίου', '%d Μαρτίου', '%d Απριλίου', '%d Μαΐου', '%d Ιουνίου', '%d Ιουλίου', '%d Αυγούστου', '%d Σεπτεμβρίου', '%d Οκτωβρίου', '%d Νοεμβρίου', '%d Δεκεμβρίου']) addFmt1('fa', False, ['%d ژانویه', '%d فوریه', '%d مارس', '%d آوریل', '%d مه', '%d ژوئن', '%d ژوئیه', '%d اوت', '%d سپتامبر', '%d اکتبر', '%d نوامبر', '%d دسامبر']) addFmt1('fr', False, ['%d janvier', '%d février', '%d mars', '%d avril', '%d mai', '%d juin', '%d juillet', '%d août', '%d septembre', '%d octobre', '%d novembre', '%d décembre']) addFmt1('ga', False, ['%d Eanáir', '%d Feabhra', '%d Márta', '%d Aibreán', '%d Bealtaine', '%d Meitheamh', '%d Iúil', '%d Lúnasa', '%d Meán Fómhair', '%d Deireadh Fómhair', '%d Samhain', '%d Mí na Nollag']) addFmt1('hr', False, ['%d. siječnja', '%d. veljače', '%d. ožujka', '%d. travnja', '%d. svibnja', '%d. lipnja', '%d. srpnja', '%d. kolovoza', '%d. rujna', '%d. listopada', '%d. studenog', '%d. prosinca']) addFmt1('is', False, ['%d. janúar', '%d. febrúar', '%d. mars', '%d. apríl', '%d. maí', '%d. júní', '%d. júlí', '%d. ágúst', '%d. september', '%d. október', '%d. nóvember', '%d. desember']) addFmt1('ja', False, makeMonthList('%d%%d日')) addFmt1('ko', False, makeMonthList('%d%%d일')) addFmt1('ku', False, ["%d'ê rêbendanê", "%d'ê reşemiyê", "%d'ê adarê", "%d'ê avrêlê", "%d'ê gulanê", "%d'ê pûşperê", "%d'ê tîrmehê", "%d'ê gelawêjê", "%d'ê rezberê", "%d'ê kewçêrê", "%d'ê sermawezê", "%d'ê berfanbarê"]) addFmt1('la', False, ['%d Ianuarii', '%d Februarii', '%d Martii', '%d Aprilis', '%d Maii', '%d Iunii', '%d Iulii', '%d Augusti', '%d Septembris', '%d Octobris', '%d Novembris', '%d Decembris']) addFmt1('li', False, ['%d januari', '%d februari', '%d miert', '%d april', '%d mei', '%d juni', '%d juli', '%d augustus', '%d september', '%d oktober', '%d november', '%d december']) addFmt1('lt', False, ['Sausio %d', 'Vasario %d', 'Kovo %d', 'Balandžio %d', 'Gegužės %d', 'Birželio %d', 'Liepos %d', 'Rugpjūčio %d', 'Rugsėjo %d', 'Spalio %d', 'Lapkričio %d', 'Gruodžio %d']) addFmt1('mk', False, ['%d јануари', '%d февруари', '%d март', '%d април', '%d мај', '%d јуни', '%d јули', '%d август', '%d септември', '%d октомври', '%d ноември', '%d декември']) addFmt1('nl', False, ['%%d %s' % v for v in ['januari', 'februari', 'maart', 'april', 'mei', 'juni', 'juli', 'augustus', 'september', 'oktober', 'november', 'december']]) addFmt1('nn', False, ['%%d. %s' % v for v in ['januar', 'februar', 'mars', 'april', 'mai', 'juni', 'juli', 'august', 'september', 'oktober', 'november', 'desember']]) addFmt1('oc', False, ['%d de genièr', '%d de febrièr', '%d de març', "%d d'abril", '%d de mai', '%d de junh', '%d de julhet', "%d d'agost", '%d de setembre', "%d d'octobre", '%d de novembre', '%d de decembre']) addFmt1('os', False, ['%d январы', '%d февралы', '%d мартъийы', '%d апрелы', '%d майы', None, '%d июлы', None, '%d сентябры', None, '%d ноябры', '%d декабры']) addFmt1('pl', False, ['%d stycznia', '%d lutego', '%d marca', '%d kwietnia', '%d maja', '%d czerwca', '%d lipca', '%d sierpnia', '%d września', '%d października', '%d listopada', '%d grudnia']) addFmt1('ru', False, ['%d января', '%d февраля', '%d марта', '%d апреля', '%d мая', '%d июня', '%d июля', '%d августа', '%d сентября', '%d октября', '%d ноября', '%d декабря']) addFmt1('se', False, ['ođđajagimánu %d.', 'guovvamánu %d.', 'njukčamánu %d.', 'cuoŋománu %d.', 'miessemánu %d.', 'geassemánu %d.', 'suoidnemánu %d.', 'borgemánu %d.', 'čakčamánu %d.', 'golggotmánu %d.', 'skábmamánu %d.', 'juovlamánu %d.']) addFmt1('sh', False, makeMonthList('%%d.%d.')) addFmt1('sq', False, ['%d Janar', '%d Shkurt', '%d Mars', '%d Prill', '%d Maj', '%d Qershor', '%d Korrik', '%d Gusht', '%d Shtator', '%d Tetor', '%d Nëntor', '%d Dhjetor']) addFmt1('uk', False, ['%d січня', '%d лютого', '%d березня', '%d квітня', '%d травня', '%d червня', '%d липня', '%d серпня', '%d вересня', '%d жовтня', '%d листопада', '%d грудня']) addFmt1('ur', False, ['%d جنوری', '%d فروری', '%d مارچ', '%d اپریل', '%d مئی', '%d جون', '%d جولائی', '%d اگست', '%d ستمبر', '%d اکتوبر', '%d نومبر', '%d دسمبر']) addFmt1('vi', False, makeMonthList('%%d tháng %d')) addFmt1('zh', False, makeMonthList('%d%%d日')) # Walloon names depend on the day number, thus we must generate various # different patterns: # For month names beginning with a consonant... _consonant_pattern = ( 'lambda m: multi(m, [' '(lambda v: dh_dayOfMnth(v, "%dî d\' {mname}"), lambda p: p == 1), ' '(lambda v: dh_dayOfMnth(v, "%d d\' {mname}"), ' 'lambda p: p in [2,3,20,22,23]), ' '(lambda v: dh_dayOfMnth(v, "%d di {mname}"), alwaysTrue)])' ) # For month names beginning with a vowel... _vowel_pattern = ( 'lambda m: multi(m, [' '(lambda v: dh_dayOfMnth(v, "%dî d\' {mname}"), lambda p: p == 1), ' '(lambda v: dh_dayOfMnth(v, "%d d\' {mname}"), alwaysTrue)])' ) for i in range(12): pattern = _vowel_pattern if i in (3, 7, 9) else _consonant_pattern formats[dayMnthFmts[i]]['wa'] = eval(pattern.format(mname=waMonthNames[i])) # Brazil uses '1añ' for the 1st of every month, and number without suffix # for all other days formats[dayMnthFmts[i]]['br'] = eval( 'lambda m: multi(m, [' '(lambda v: dh_dayOfMnth(v, "%d{mname}"), lambda p: p == 1), ' '(lambda v: dh_dayOfMnth(v, "%d {mname}"), alwaysTrue)])' .format(mname=brMonthNames[i])) # # Month of the Year: "en:May 1976" # addFmt1('el', True, ['Ιανουάριος %d', 'Φεβρουάριος %d', 'Μάρτιος %d', 'Απρίλιος %d', 'Μάιος %d', 'Ιούνιος %d', 'Ιούλιος %d', 'Άυγουστος %d', 'Σεπτέμβριος %d', 'Οκτώβριος %d', 'Νοέμβριος %d', 'Δεκέμβριος %d']) addFmt1('fr', True, ['Janvier %d', 'Février %d', 'Mars %d', 'Avril %d', 'Mai %d', 'Juin %d', 'Juillet %d', 'Août %d', 'Septembre %d', 'Octobre %d', 'Novembre %d', 'Décembre %d']) addFmt1('ja', True, ['「最近の出来事」%%d年%d月' % mm for mm in range(1, 13)]) addFmt1('ko', True, ['%d년 1월', '%d년 2월', '%d년 3월', '%d년 4월', '%d년 5월', '%d년 6월', '%d년 7월', '%d년 8월', '%d년 9월', '%d년 10월', '%d년 11월', '%d년 12월']) addFmt1('li', True, ['januari %d', 'februari %d', 'miert %d', 'april %d', 'mei %d', 'juni %d', 'juli %d', 'augustus %d', 'september %d', 'oktober %d', 'november %d', 'december %d']) addFmt1('nan', True, makeMonthList('%%d nî %d goe̍h')) addFmt1('nl', True, ['Januari %d', 'Februari %d', 'Maart %d', 'April %d', 'Mei %d', 'Juni %d', 'Juli %d', 'Augustus %d', 'September %d', 'Oktober %d', 'November %d', 'December %d']) addFmt1('scn', True, [None, None, 'Marzu %d', None, None, None, None, None, None, None, None, None]) addFmt1('vi', True, makeMonthList('Tháng %d năm %%d')) addFmt1('zh', True, makeMonthList('%%d年%d月')) # This table defines the limits for each type of format data. # Each item is a tuple with # - a predicate function which returns True if the value falls # within acceptable limits, False otherwise, # - start value # - end value # # TODO: Before compat 19d1cf9e (2006), there was a 'step' in the tuple, # used exclusively by DecadeAD and DecadeBC to increment by 10 years. # "and v%10==0" should be added to the limitation predicate for those two. formatLimits = { 'MonthName': (lambda v: 1 <= v < 13, 1, 13), 'Number': (lambda v: 0 <= v < 1000000, 0, 1001), 'YearAD': (lambda v: 0 <= v < 2501, 0, 2501), # zh: has years as old as 前1700年 'YearBC': (lambda v: 0 <= v < 4001, 0, 501), 'DecadeAD': (lambda v: 0 <= v < 2501, 0, 2501), # zh: has decades as old as 前1700年代 'DecadeBC': (lambda v: 0 <= v < 4001, 0, 501), # Some centuries use Roman numerals or a given list # do not exceed them in testing 'CenturyAD': (lambda v: 1 <= v < 41, 1, 23), 'CenturyBC': (lambda v: 1 <= v < 91, 1, 23), 'CenturyAD_Cat': (lambda v: 1 <= v < 41, 1, 23), 'CenturyBC_Cat': (lambda v: 1 <= v < 41, 1, 23), # For millenniums, only test first 3 AD Millenniums and 1 BC Millennium 'MillenniumAD': (lambda v: 1 <= v < 6, 1, 4), 'MillenniumBC': (lambda v: 1 <= v < 20, 1, 2), 'Cat_Year_MusicAlbums': (lambda v: 1950 <= v < 2021, 1950, 2021), 'Cat_BirthsAD': (lambda v: 0 <= v < 2501, 0, 2501), 'Cat_DeathsAD': (lambda v: 0 <= v < 2501, 0, 2501), 'Cat_BirthsBC': (lambda v: 0 <= v < 4001, 0, 501), 'Cat_DeathsBC': (lambda v: 0 <= v < 4001, 0, 501), 'CurrEvents': (lambda v: 0 <= v < 1, 0, 1), } # All month of year articles are in the same format _formatLimit_MonthOfYear = (lambda v: 1900 <= v < 2051, 1900, 2051) for month in yrMnthFmts: formatLimits[month] = _formatLimit_MonthOfYear def _format_limit_dom(days: int) -> Tuple[Callable[[int], bool], int, int]: """Return day of month format limit.""" assert 29 <= days <= 31 return lambda v: 1 <= v <= days, 1, days + 1 for monthId in range(12): if monthId + 1 in (1, 3, 5, 7, 8, 10, 12): # 31 days a month formatLimits[dayMnthFmts[monthId]] = _format_limit_dom(31) elif monthId + 1 == 2: # February # 29 days a month formatLimits[dayMnthFmts[monthId]] = _format_limit_dom(29) else: # 30 days a month formatLimits[dayMnthFmts[monthId]] = _format_limit_dom(30)
[docs]def getAutoFormat(lang: str, title: str, ignoreFirstLetterCase: bool = True ) -> Tuple[Optional[str], Optional[str]]: """ Return first matching formatted date value. :param lang: language code :param title: value to format :return: dictName ('YearBC', 'December', ...) and value (a year, date, ...) """ for dict_name, dictionary in formats.items(): with suppress(Exception): year = dictionary[lang](title) return dict_name, year # sometimes the title may begin with an upper case while its listed as # lower case, or the other way around # change case of the first character to the opposite, and try again if ignoreFirstLetterCase: with suppress(Exception): if title[0].isupper(): title = first_lower(title) else: title = first_upper(title) return getAutoFormat(lang, title, ignoreFirstLetterCase=False) return None, None
[docs]def format_date(month: int, day: int, lang: Union[None, str, 'pywikibot.site.BaseSite'] = None, year: int = 2000) -> str: """Format a date localized to given lang. :param month: month in range of 1..12 :param day: day of month in range of 1..31 :param lang: a site object or language key. Defaults to current site. :param year: year for which the date is to be formatted. always 29 will be given For February except the year is given. Default is leap year 2000. :return: localized date like "January 11" :raises ValueError: Wrong day value; must be 1-28/29/30/31 :raises IllegalMonthError: bad month number; must be 1-12 """ if not lang: lang = Site().lang elif hasattr(lang, 'lang'): lang = lang.lang # type: ignore[union-attr] max_day = calendar.monthrange(year, month)[1] if not 1 <= day <= max_day: raise ValueError( 'Wrong day value {day}; must be 1-{max_day}' .format(day=day, max_day=max_day)) assert isinstance(lang, str) return formats[dayMnthFmts[month - 1]][lang](day)
[docs]def formatYear(lang: str, year: int) -> str: """Return year name in a language.""" if year < 0: return formats['YearBC'][lang](-year) return formats['YearAD'][lang](year)
[docs]def apply_month_delta(date: datetime.date, month_delta: int = 1, add_overlap: bool = False) -> datetime.date: """ Add or subtract months from the date. By default if the new month has less days then the day of the date it chooses the last day in the new month. For example a date in the March 31st added by one month will result in April 30th. When the overlap is enabled, and there is overlap, then the new_date will be one month off and get_month_delta will report a number one higher. It does only work on calendars with 12 months per year, and where the months are numbered consecutively beginning by 1. :param date: The starting date :param month_delta: The amount of months added or subtracted. :param add_overlap: Add any missing days to the date, increasing the month once more. :return: The end date """ if not isinstance(month_delta, int): raise ValueError('Month delta must be an integer') month = (date.month - 1) + month_delta year = date.year + month // 12 month = month % 12 + 1 day = min(date.day, calendar.monthrange(year, month)[1]) new_date = date.replace(year, month, day) if add_overlap and day != date.day: assert date.day > day, 'Day must not be more than length of the month' new_date += datetime.timedelta(days=date.day - day) return new_date
[docs]def get_month_delta(date1: datetime.date, date2: datetime.date) -> int: """ Return the difference between two dates in months. It does only work on calendars with 12 months per year, and where the months are consecutive and non-negative numbers. """ return date2.month - date1.month + (date2.year - date1.year) * 12