local export = {}
local mn = require("Module:mn-common")
local gsub = mw.ustring.gsub
local preConv = {
["є"] = "ө", ["ѳ"] = "ө",
["Є"] = "Ө", ["Ѳ"] = "Ө"
}
local oneChar = {
["а"] = "a", ["б"] = "b", ["в"] = "v", ["г"] = "g", ["д"] = "d", ["е"] = "je", ["ё"] = "jo", ["ж"] = "ž", ["з"] = "z", ["и"] = "i", ["й"] = "j", ["к"] = "k", ["л"] = "l", ["м"] = "m", ["н"] = "n", ["о"] = "o", ["ө"] = "ö", ["п"] = "p", ["р"] = "r", ["с"] = "s", ["т"] = "t", ["у"] = "u", ["ү"] = "ü", ["ф"] = "f", ["х"] = "x", ["ц"] = "c", ["ч"] = "č", ["ш"] = "š", ["щ"] = "šč", ["ъ"] = "ʺ", ["ы"] = "y", ["ь"] = "ʹ", ["э"] = "e", ["ю"] = "ju", ["я"] = "ja",
["А"] = "A", ["Б"] = "B", ["В"] = "V", ["Г"] = "G", ["Д"] = "D", ["Е"] = "Je", ["Ё"] = "Jo", ["Ж"] = "Ž", ["З"] = "Z", ["И"] = "I", ["Й"] = "J", ["К"] = "K", ["Л"] = "L", ["М"] = "M", ["Н"] = "N", ["О"] = "O", ["Ө"] = "Ö", ["П"] = "P", ["Р"] = "R", ["С"] = "S", ["Т"] = "T", ["У"] = "U", ["Ү"] = "Ü", ["Ф"] = "F", ["Х"] = "X", ["Ц"] = "C", ["Ч"] = "Č", ["Ш"] = "Š", ["Щ"] = "Šč", ["Ъ"] = "ʺ", ["Ы"] = "Y", ["Ь"] = "ʹ", ["Э"] = "E", ["Ю"] = "Ju", ["Я"] = "Ja"
}
local twoChars = {
["ий"] = "ii",
["Ий"] = "Ii"
}
function export.tr(text, lang, sc)
if sc ~= "Cyrl" then
return nil
end
local UTF8_char = "[%z\1-\127\194-\244][\128-\191]*"
-- Decompose (except for "ё" and "й") so that accents can be consistently detected.
text = mw.ustring.toNFD(text)
text = gsub(text, "[еЕ]̈", mw.ustring.toNFC)
text = gsub(text, "[иИ]̆", mw.ustring.toNFC)
-- Pre-convert "є" and "ѳ" to "ө".
text = string.gsub(text, UTF8_char, preConv)
-- Hard sign does nothing if word-final (extremely rare, but attested in borrowings of affected Russian proper nouns like "Коммерсантъ").
text = gsub(text, "[Ъъ]([^а-яёөү])", "%1")
text = gsub(text, "[Ъъ]$", "")
-- "Е" is not iotated after a consonant and "ю" is not iotated after "ж", "ш", "ч" or "щ", so they must be converted to their non-iotated romanizations in advance. However, a soft sign before "е" or "ю" (as a front vowel) creates a morphemic break, which means iotation does occur (i.e. it acts like a hard sign). These exceptions are converted into the iotated romanizations first; then, all instances of "е" and "ю" (which meet the prerequisites) are converted into non-iotated romanizations. This treats all instances of "ю" as front vowels, so deal with any back vowel instances of "ю" once iterating over the vowel harmonic segments later on, before doing the main substitutions.
text = gsub(text, "([Ьь])е", "%1je")
text = gsub(text, "([жчшщЖЧШЩ]ь)ю", "%1ju")
text = gsub(text, "([^̀́̂аеёиоөуүъыэюяАЕЁИОӨУҮЪЫЬЭЮЯ%s][̀́̂]?)е", "%1e")
text = gsub(text, "([жчшщЖЧШЩ]ь?)ю","%1u")
-- Divide into segments by vowel harmony and iterate over them.
text = mn.vowelharmony(text)
text.translit = {}
for i, v in ipairs(text) do
-- "Ю" is "jü/ü" if front harmonic.
if text[i].position == "front" then
-- Latin "u" (from previous substitution).
text[i].substring = gsub(text[i].substring, "u", "ü")
-- Cyrillic "ю".
text[i].substring = gsub(text[i].substring, "ю", "jü")
text[i].substring = gsub(text[i].substring, "Ю", "Jü")
-- "Е" is "jö/ö" if front round harmonic.
if text[i].quality == "rounded" then
-- Latin "e" (from previous substitution).
text[i].substring = gsub(text[i].substring, "e", "ö")
-- Cyrillic "е".
text[i].substring = gsub(text[i].substring, "е", "jö")
text[i].substring = gsub(text[i].substring, "Е", "Jö")
end
-- If back harmonic, any instances of "ю" that were treated as front vowels need to be treated as back vowels (i.e. the soft sign doesn't create a morphemic break, so iotation does not occur).
else
text[i].substring = gsub(text[i].substring, "([Ьь])ju", "%1u")
end
-- Do primary substitutions. If still present, Cyrillic "е" becomes "je" and "ю" becomes "ju".
for digraph, replacement in pairs(twoChars) do
text[i].substring = string.gsub(text[i].substring, digraph, replacement)
end
text[i].substring = string.gsub(text[i].substring, UTF8_char, oneChar)
table.insert(text.translit, text[i].substring)
end
return mw.ustring.toNFC(table.concat(text.translit, ""))
end
return export