ಮೋಡ್ಯೂಲ್:Header/year
Documentation for this module may be created at ಮೋಡ್ಯೂಲ್:Header/year/doc
require('strict')
local p = {} --p stands for package
local yesno = require('Module:Yesno')
local tableTools = require('Module:TableTools')
local current_title = mw.title.getCurrentTitle()
--[=[
Construct the year span
--]=]
local function getYearFromTimestamp(timestamp)
-- example timestamps: +2016-10-05T00:00:00Z, -1752-00-00T00:00:00Z
local split = mw.text.split(timestamp, '-', true)
local year
local bce = ''
if split[1] == '' then
year = tonumber(split[2])
bce = ' BCE'
else
year = tonumber(split[1])
end
return {year = year, bce = bce}
end
local function formatYear(year, precision)
if precision == 7 then
local suffixes = {
[1] = 'st',
[2] = 'nd',
[3] = 'rd',
default = 'th'
}
local century = (year - year % 100)/100 + 1
return century .. (suffixes[century] or suffixes['default']) .. ' century'
elseif precision == 8 then
return year .. 's'
else
return year
end
end
local function getYearFromSingleStatement(statement, args)
local snak = statement.mainsnak
if not snak or not snak.datavalue or not snak.datavalue.value or not snak.datavalue.value.time then
return nil
end
if args['noprint'] and args['nocat'] then
return nil
end
local cats = {} -- tracking categories
--[=[ Precision:
0 - billion years
1 - hundred million years,
2 - ten million years,
3 - million years,
4 - hundred thousand years,
5 - ten thousand years,
6 - millenia,
7 - centuries,
8 - decades,
9 - years,
10 - months,
11 - days
12 - hours
13 - minutes
14 - seconds
]=]
local precision = math.min(snak.datavalue.value.precision, 9)
local year
local circa = ''
local start_times = {}
local end_times = {}
local start_years = {}
local end_years = {}
local start_year
local end_year
if statement.qualifiers then
-- Check if date is approximate
-- P1480 = sourcing circumstances, Q5727902 = circa
if statement.qualifiers.P1480 then
for _, qualifier in pairs(statement.qualifiers.P1480) do
if qualifier.datavalue and qualifier.datavalue.value.id == 'Q5727902' then
precision = precision - 1
circa = 'c. '
break
end
end
end
-- P580 = start time
if statement.qualifiers.P580 then
for k, v in pairs(statement.qualifiers.P580) do
local startt = getYearFromSingleStatement({mainsnak = v}, {nocat = true, noprint = false, ['table'] = true})
if startt then
table.insert(start_times, startt)
end
end
for k, v in pairs(start_times) do
table.insert(start_years, v.year)
end
start_years = tableTools.removeDuplicates(start_years)
table.sort(start_years)
if #start_years > 1 then
table.insert(cats, '[[Category:' .. 'Works of uncertain date' .. ']]')
end
start_year = start_years[1]
end
-- P582 = end time
if statement.qualifiers.P582 then
for k, v in pairs(statement.qualifiers.P582) do
local endt = getYearFromSingleStatement({mainsnak = v}, {nocat = true, noprint = false, ['table'] = true})
if endt then
table.insert(end_times, endt)
end
end
for k, v in pairs(end_times) do
table.insert(end_years, v.year)
end
end_years = tableTools.removeDuplicates(end_years)
table.sort(end_years)
if #end_years > 1 then
table.insert(cats, '[[Category:' .. 'Works of uncertain date' .. ']]')
end
end_year = end_years[1]
end
end
if precision < 9 then
table.insert(cats, '[[Category:' .. 'Works of uncertain date' .. ']]')
end
if precision < 7 then
if args['noprint'] then
year = ''
else
year = string.gsub(string.gsub(mw.wikibase.formatValue(statement.mainsnak), '^<span>', ''), '</span>$', '')
end
return circa .. year .. table.concat(cats)
end
local timestamp_info = getYearFromTimestamp(snak.datavalue.value.time)
year = timestamp_info.year
local bce = timestamp_info.bce
-- approximate year, precision 8: year - year % 10 for decade
-- approximate decade, precision 7: year - year % 100 for century
if circa ~= '' then
year = year - (year % math.pow(10, 9 - precision))
end
year = formatYear(year, precision)
if start_year and start_year ~= year then
table.insert(cats, '[[Category:' .. 'Works of uncertain date' .. ']]')
end
local printed_year = circa .. year .. bce
if (start_year or end_year) and start_year ~= end_year then
printed_year = circa .. (start_year or '') .. '–' .. (end_year or '') .. bce
end
if start_year and end_year and start_year ~= end_year then
local start_decade = start_year - start_year % 10
local end_decade = end_year - end_year % 10
local start_century = start_year - start_year % 100
local end_century = end_year - end_year % 100
if start_decade == end_decade then
table.insert(cats, '[[Category:' .. start_decade .. 's' .. bce .. ' works' .. ']]')
elseif start_century == end_century then
table.insert(cats, '[[Category:' .. formatYear(end_year, 7) .. bce .. ' works' .. ']]')
end
else
table.insert(cats, '[[Category:' .. year .. bce .. ' works' .. ']]')
end
if args['noprint'] then
printed_year = ''
end
if not args['nocat'] then
cats = tableTools.removeDuplicates(cats)
printed_year = printed_year .. table.concat(cats)
end
if args['table'] then
return {year = year, printed_year = printed_year, circa = circa, bce = bce}
end
return printed_year
end
local function parse_wikidata_year_and_categorise(args)
-- Fetch entity object for Wikidata item connected to the current page
-- Let manually-specified Wikidata ID override if given and valid
if not (args.wikidata and mw.wikibase.isValidEntityId(args.wikidata)) then
args.wikidata = mw.wikibase.getEntityIdForCurrentPage()
end
if not args.wikidata then
return nil
end
local item = mw.wikibase.getEntity(args.wikidata)
if not item then
return nil
end
local statements = item:getBestStatements('P577') -- publication date
if #statements == 0 then
return nil
end
local years = {}
for _, statement in pairs(statements) do
local year = getYearFromSingleStatement(statement, args)
if year then
table.insert(years, year)
end
end
local cat = ''
years = tableTools.removeDuplicates(years)
if #years == 0 then
return nil
elseif #years > 1 and not args['nocat'] then
cat = '[[Category:' .. 'Works of uncertain date' .. ']]'
end
return table.concat(years, '/') .. cat
end
local function parse_year_and_categorise(args)
local year = args['year']
-- Use Wikidata if year param is empty
if not year then
return parse_wikidata_year_and_categorise(args)
end
local cats = {}
local bce = ''
local circa = ''
local ret = ''
-- Extract common era info to make it easier to process
if string.match(year, "BCE$") then
bce = ' BCE'
year = string.gsub(year, '%s*BCE', '')
-- Also tag it as a non-numeric year
table.insert(cats, '[[Category:' .. 'Works with non-numeric dates' .. ']]')
end
-- If the year provided is a plain year (all digits)
if tonumber(year) then
table.insert(cats, '[[Category:' .. year .. bce .. ' works]]')
if not args['noprint'] then
ret = year .. bce
end
if not args['nocat'] then
ret = ret .. table.concat(cats)
end
-- For simple years we're done.
return ret
end
-- Add tracking category for all non-numeric dates
table.insert(cats, '[[Category:' .. 'Works with non-numeric dates' .. ']]')
-- Explicitly tagged as being of unknown date
if year == '?' or string.lower(year) == 'unknown' then
table.insert(cats, '[[Category:' .. 'Works of unknown date' .. ']]')
if not args['noprint'] then
ret = 'unknown'
end
if not args['nocat'] then
ret = ret .. table.concat(cats)
end
-- For explicitly given unknown years we're done.
return ret
end
-- Now figure out a complex date
-- Year ranges
year = string.gsub(string.gsub(year, '%-', '–'), '—', '–')
-- Approximate years
-- Lua patterns can't do ^c(irca)?( |%.|/)* because they don't do alternation or apply quantifiers to groups
if string.match(year, '^circa') or string.match(year, '^c%s*%.') or string.match(year, '^c%s*/') then
circa = 'c. '
year = string.gsub(string.gsub(string.gsub(year, '^circa%s*', ''), '^c%s*%.%s*', ''), '^c%s*/%s*', '')
table.insert(cats, '[[Category:' .. 'Works of uncertain date' .. ']]')
-- circa a specific year
if tonumber(year) then
year = tonumber(year)
local decade = (year - year % 10) .. 's'
table.insert(cats, '[[Category:' .. decade .. bce .. ' works]]')
if not args['noprint'] then
ret = circa .. year .. bce
end
if not args['nocat'] then
ret = ret .. table.concat(cats)
end
-- For approximate years with a known decade we're done
return ret
end
end
-- Check if it looks like a decade
if string.match(year, '^%d*0s$') then
table.insert(cats, '[[Category:' .. 'Works of uncertain date' .. ']]')
table.insert(cats, '[[Category:' .. year .. bce .. ' works]]')
-- For explicitly given decades we're done
if not args['noprint'] then
ret = circa .. year .. bce
end
if not args['nocat'] then
ret = ret .. table.concat(cats)
end
return ret
end
-- Or a century
-- Lua patterns can't do '^%d*(st|nd|rd|th) century$'
if string.match(year, '^%d*st century$') or string.match(year, '^%d*nd century$') or string.match(year, '^%d*rd century$') or string.match(year, '^%d*th century$') then
table.insert(cats, '[[Category:' .. 'Works of uncertain date' .. ']]')
table.insert(cats, '[[Category:' .. year .. bce .. ' works]]')
-- For explicitly given centuries we're done
if not args['noprint'] then
ret = circa .. year .. bce
end
if not args['nocat'] then
ret = ret .. table.concat(cats)
end
return ret
end
-- Or a range of years
local start_year, end_year
if string.match(year, '^%d*–%d*$') then
start_year, end_year = string.match(year, '^(%d*)–(%d*)$')
elseif string.match(year, '^%d*/%d*$') then
start_year, end_year = string.match(year, '^(%d*)/(%d*)$')
table.insert(cats, '[[Category:' .. 'Works of uncertain date' .. ']]')
end
if start_year or end_year then
start_year = tonumber(start_year)
end_year = tonumber(end_year)
if start_year and end_year and start_year == end_year and circa == '' then
table.insert(cats, '[[Category:' .. start_year .. bce .. ' works' .. ']]')
if not args['noprint'] then
ret = circa .. start_year .. bce
end
if not args['nocat'] then
ret = ret .. table.concat(cats)
end
return ret
elseif start_year and end_year then
local start_decade = start_year - start_year % 10
local end_decade = end_year - end_year % 10
local start_century = start_year - start_year % 100
local end_century = end_year - end_year % 100
if start_decade == end_decade then
table.insert(cats, '[[Category:' .. start_decade .. 's' .. bce .. ' works' .. ']]')
elseif start_century == end_century then
table.insert(cats, '[[Category:' .. formatYear(end_year, 7) .. bce .. ' works' .. ']]')
end
elseif end_year then
table.insert(cats, '[[Category:' .. 'Works of uncertain date' .. ']]')
end
-- check isn't redundant since the year might just be –
if start_year or end_year then
if not args['noprint'] then
ret = circa .. year .. bce
end
if not args['nocat'] then
ret = ret .. table.concat(cats)
end
return ret
end
end
-- If we're here we didn't manage to parse it.
table.insert(cats, '[[Category:' .. 'Works with unrecognised dates' .. ']]')
if not args['noprint'] then
ret = circa .. year .. bce
end
if not args['nocat'] then
ret = ret .. table.concat(cats)
end
-- Return whatever we have and the tracking cats
return ret
end
function p.construct_year(args)
local year = mw.html.create('span'):attr('id', 'header-year-text')
local year_args = {
['year'] = args['year'],
noprint = yesno(args['noyear']) or false,
wikidata = args.wikidata
}
year_args['nocat'] = yesno(args['noyearcat'])
if year_args['nocat'] == nil then
if args.testing then
year_args['nocat'] = false
else
year_args['nocat'] = (
yesno(args['disambiguation']) -- Disambiguations never categorise
or not current_title:inNamespaces(0) -- Only categorize in mainspace and Translation
or current_title.isSubpage -- Only categorise if this is a base page
)
end
end
local year_text = parse_year_and_categorise(year_args)
if year_text then
year:wikitext(year_text)
if year_args['noprint'] then
return tostring(year)
else
return ' (' .. tostring(year) .. ')'
end
elseif year_args['nocat'] then
return ''
else
return '[[Category:' .. 'Undated works' .. ']]'
end
end
return p