Module:User:Kiril kovachev/de-IPA

--[=====[ Currently missing: predictable/automatable, e.g. /ɪ, ɔ, ʊ/ > /i, o, u/ for short vowels in closed syllables, penultimate or final stress ways to override this; I think they should be adding an h to force length, and either using a breve (e.g. ă ĕ ĭ) or maybe doubling the following consonant to force shortness. What should those rules be? Some guesses: - vowels should be short before a geminate consonant - vowels should be long in a stressed open syllable - vowels should probably be long in a stressed final syllable before a single consonant (but with possible exceptions, e.g. '-eg') - vowels should probably be short before two consonants (except possibly 'st'?) - syllables with secondary stress should be treated as if stressed - syllables directly following a known prefix (aus-, zu-, über-, ge-, etc.) should be treated as if stressed, whether they are actually stressed or not - when there's an explicit slash to separate compounds, all parts should be   treated as if they were separate words for vowel-length purposes (e.g.    '-tag' in 'Reichs/tag' should be long) - what about other unstressed syllables? --]=====]
 * Function for final obstruent devoicing of d, g, b, s, r (ɐ̯)
 * Function for pre-consonantal obstruent devoicing of d, g, b, s
 * Function to reduce geminates
 * List of environments which trigger the palatalisation of /x/ (liquids + non-low front vowels)
 * Function to determine if H is word initial (> /h/) or non-initial (> 0) (⟨-ehe⟩- should be /eː/ in verbs only)
 * Function to put stress in general, function to check for prefixes and realign stress accordingly.
 * Function to convert ⟨e⟩ in unstressed syllables to ə > Function to reduce -ər to -r + "devoicing"
 * Function to convert ⟨c⟩ before front vowels to /t͡s/?
 * An input whether the word is Germanic or Romanic might make a lot of exceptions
 * The unseparable prefixes do not take stress > Stress on the 2nd syllable
 * A complete list could be compiled and the process automated, instead of making the user enter the stress by hand
 * Rules to determine when to make vowels short vs. long. There will need to be

local export = {}

local u = mw.ustring.char local rfind = mw.ustring.find local rsubn = mw.ustring.gsub local rmatch = mw.ustring.match local rsplit = mw.text.split local ulower = mw.ustring.lower local uupper = mw.ustring.upper local usub = mw.ustring.sub local ulen = mw.ustring.len

-- version of rsubn that discards all but the first return value local function rsub(term, foo, bar) local retval = rsubn(term, foo, bar) return retval end

-- apply rsub repeatedly until no change local function rsub_repeatedly(term, foo, bar) while true do		local new_term = rsub(term, foo, bar) if new_term == term then return term end term = new_term end end

local function ine(x) if x == "" then return nil else return x end end

local AC = u(0x0301) local GR = u(0x0300) local BREVE = u(0x0306) local stress_accent = AC .. GR local stress_accent_c = "[" .. stress_accent .. "]" local accent = stress_accent .. BREVE local accents_r = "[" .. accent .. "]*" local DIA = u(0x0308) local vowel = "aeiouyäöüæœ" .. accent local vowel_c = "[" .. vowel .. "]" local cons_c = "[^" .. vowel .. ".⁀ %-]" local cons_or_boundary_c = "[^" .. vowel .. "rl. %-]" -- includes ⁀ -- I have added /l/ & /r/ as a stopgap against Brücke -> /ˈprʏkə/, but this may need a new name. local front_vowel = "eiyæœ" local front_vowel_c = "[" .. front_vowel .. "]"

local devoiced_cons = {b="p", d="t", g="k", r="ɐ̯"} local sequences = { ["a"] = { ["a"  ] = "a"; ["ah" ] = "aː"; ["ai" ] = "aɪ̯"; ["au" ] = "aʊ̯"; ["auch"] = { "aʊ̯", "x" }; };	["ä"] = { ["ä"  ] = "ɛ"; ["äh" ] = "ɛː"; ["äu" ] = "ɔʏ̯"; };	["b"] = { ["b"  ] = "b"; ["bb" ] = "b"; };	["c"] = { ["c"  ] = "ts"; -- ??? ["ch" ] = "ç"; };	["d"] = { ["d"  ] = "d"; ["dd" ] = "d"; ["dsch"] = "dʒ"; };	["e"] = { ["e"  ] = "ɛ"; ["ee" ] = "eː"; ["ei" ] = "aɪ̯"; ["eich"] = { "aɪ̯", "ç" }; ["eu" ] = "ɔʏ̯"; };	["f"] = "f"; ["g"] = "ɡ"; ["h"] = "h"; ["i"] = { ["i"  ] = "ɪ"; ["ie" ] = "iː"; };	["j"] = "j"; ["k"] = { ["k"  ] = "k"; ["kk" ] = "k"; ["ck" ] = "k"; };	["l"] = "l"; ["m"] = "m"; ["n"] = { ["n"  ] = "n"; ["ng" ] = "ŋ"; ["nn" ] = "n"; };	["o"] = { ["oo" ] = "oː"; ["os" ] = { "ɔ", "s" }; ["o"  ] = "ɔ"; };	["ö"] = { -- XXX: manchmal /øː/ ["ö"  ] = "œ"; ["ös" ] = { "œ", "s" }; };	["p"] = { ["ph" ] = "f"; ["pp" ] = "p"; ["p"  ] = "p"; };	["q"] = { ["qu" ] = { "k", "f" }; ["q"  ] = "k"; -- XXX };	["r"] = { -- XXX: /ʀ/? /r/?; manchmal /ɐ/ ("Uhr"); auch /ər/ ("oder") ["r"  ] = "r"; ["rr" ] = "r"; };	["s"] = { ["s"  ] = "s"; ["sch" ] = "ʃ"; ["sp" ] = { "ʃ", "p" }; ["ss" ] = "s"; ["st" ] = { "ʃ", "t" }; };	["t"] = { ["t"  ] = "t"; ["tsch"] = "t͡ʃ"; ["tt" ] = "t"; ["tion"] = { "t͡s", "i̯", "o", "n" }; };	["u"] = { ["u"  ] = "ʊ"; ["uch" ] = { "ʊ", "x" }; };	["ü"] = { ["ü"  ] = "yː"; ["üh" ] = "yː"; };	["v"] = "f"; ["w"] = "ʋ"; ["x"] = { "k", "s" }; -- XXX ["y"] = "i"; ["z"] = "z"; -- already converted from s	["ß"] = "s"; ["́"] = "ˈ"; -- FIXME ["-"] = {}; }

function export.IPA(text, orig, pos) if type(text) == 'table' then text, orig, pos = ine(text.args[1]), ine(text.args.orig), ine(text.args.pos) end text = text or mw.title.getCurrentTitle.text text = ulower(text) -- decompose, then recompose umlauted vowels, and convert ae oe ue to	-- umlauted vowels text = mw.ustring.toNFD(text) -- while we're doing this, don't get confused by wrongly-ordered umlauts/e's	-- and other accents text = rsub(text, "(" .. accents_r .. ")([e" .. DIA .. "])", "%2%1")	text = rsub(text, "([aou])[e" .. DIA .. "]", {a="ä", o="ö", u="ü"}) -- put breves before acute/grave accents text = rsub(text, "(" .. stress_accent_c .. ")" .. BREVE, BREVE .. "%1")

-- To simplify checking for word boundaries and liaison markers, we -- add ⁀ at the beginning and end of all words, and remove it at the end. -- Note that the liaison marker is ‿. text = rsub(text, "%s*,%s*", '⁀⁀ | ⁀⁀') text = rsub(text, "%s+", '⁀ ⁀') text = rsub(text, "%-+", '⁀-⁀') text = '⁀⁀' .. text .. '⁀⁀'

text = rsub(text, "([aou]" .. accents_r .. ")" .. "ch", "%1χ") text = rsub(text, "sch", "ʃ") text = rsub(text, "ch", "ç") text = rsub(text, "ck", "kk") text = rsub(text, "z", "c") text = rsub(text, "s(" .. vowel_c .. ")", "z%1") text = rsub(text, "([bdgr])(" .. cons_or_boundary_c .. ")",		function(c1, c2)			return devoiced_cons[c1] .. c2		end) -- Buchstaben in Foneme konvertieren local phones, i, n = {}, 1, ulen(text) while i <= n do		local bid = ulower(usub(text, i, i)) local value = sequences[bid] if (type(value) == 'table') and not value[1] then local bidl = ulen(bid) for seq in pairs(value) do				local seql = ulen(seq) if seql > bidl then if (ulower(usub(text, i, i + seql - 1)) == seq) then bid = seq bidl = ulen(bid) end end end value = value[bid] end if type(value) == 'string' then table.insert(phones, value) elseif not value then table.insert(phones, bid) else for _, phone in ipairs(value) do				table.insert(phones, phone) end end i = i + ulen(bid) end

text = table.concat(phones) --remove hyphens and word-boundary markers text = rsub(text, '[⁀%-]', '') return text end

return export