Module:fr-pron

--[=[

Author: Benwing, rewritten from original by Kc kennylau

Generates French IPA from spelling. Implements template ; also used in Module:fr-verb (particularly Module:fr-verb/pron, the submodule handling pronunciation of verbs).

--]=]

local export = {}

local m_str_utils = require("Module:string utilities") local pron_utilities_module = "Module:pron utilities" local table_module = "Module:table"

local str_gsub = string.gsub

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

local pages_where_redundancy_checking_is_disabled = { ["Appendix:Protologisms/Long words/Titin/French"] = true, }

local TILDE = u(0x0303) -- tilde = ̃

local EXPLICIT_H = u(0xFFF0) local EXPLICIT_X = u(0xFFF1) local EXPLICIT_J = u(0xFFF2)

local explicit_sound_to_substitution = { ["h"] = EXPLICIT_H, ["x"] = EXPLICIT_X, ["j"] = EXPLICIT_J, }

local explicit_substitution_to_sound = {} local explicit_substitution_regex = {} for from, to in pairs(explicit_sound_to_substitution) do	explicit_substitution_to_sound[to] = from table.insert(explicit_substitution_regex, to) end explicit_substitution_regex = "[" .. table.concat(explicit_substitution_regex) .. "]"

-- If enabled, compare this module with new version of module in -- Module:User:Benwing2/fr-pron to make sure all pronunciations are the same. -- To check for differences, go to Tracking/fr-pron/different-pron -- and look at what links to the page. local test_new_fr_pron_module = false

-- 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 function track(page) local m_debug = require("Module:debug").track("fr-pron/" .. page) return true end

-- pairs of consonants where a schwa between them cannot be deleted in VCəCV -- within a word local no_delete_schwa_in_vcvcv_word_internally_list = { 'ʁʁ', 'ɲʁ', 'ɲl' } -- generate set local no_delete_schwa_in_vcvcv_word_internally = {} for _, x in ipairs(no_delete_schwa_in_vcvcv_word_internally_list) do	no_delete_schwa_in_vcvcv_word_internally[x] = true end

-- pairs of consonants where a schwa between them cannot be deleted in VCəVC -- across a word boundary; primarily, consonants that are the same except -- possibly for voicing local no_delete_schwa_in_vcvcv_across_words_list = { 'kɡ', 'ɡk', 'kk', 'ɡɡ', -- WARNING: IPA ɡ used here 'td', 'dt', 'tt', 'dd', 'bp', 'pb', 'pp', 'bb', 'ʃʒ', 'ʒʃ', 'ʃʃ', 'ʒʒ', 'fv', 'vf', 'ff', 'vv', 'sz', 'zs', 'ss', 'zz', 'jj', 'ww', 'ʁʁ', 'll', 'nn', 'ɲɲ', 'mm' -- FIXME, should be others } -- generate set local no_delete_schwa_in_vcvcv_across_words = {} for _, x in ipairs(no_delete_schwa_in_vcvcv_across_words_list) do	no_delete_schwa_in_vcvcv_across_words[x] = true end

local remove_diaeresis_from_vowel = {['ä']='a', ['ë']='e', ['ï']='i', ['ö']='o', ['ü']='u', ['ÿ']='i'}

-- True if C1 and C2 form an allowable onset (in which case we always -- attempt to place them after the syllable break) local function allow_onset_2(c1, c2) -- WARNING: Both IPA and non-IPA g below, and both r and ʁ, because it is -- called both before and after the substitutions of these chars. return (c2 == "l" or c2 == "r" or c2 == "ʁ") and rmatch(c1, "[bkdfgɡpstv]") or		c1 == "d" and c2 == "ʒ" or		c1 ~= "j" and (c2 == "j" or c2 == "w" or c2 == "W" or c2 == "ɥ") end

-- list of vowels, including both input Latin and output IPA; note that -- IPA nasal vowels are two-character sequences with a combining tilde, -- which we include as the last char local oral_vowel_no_schwa_no_i = "aeouAEOUéàèùâêôûäëöüăŏŭɑɛɔæœø" local oral_vowel_schwa = "əƏĕė" local oral_vowel_i = "iyIYîŷïÿ" local oral_vowel = oral_vowel_no_schwa_no_i .. oral_vowel_schwa .. oral_vowel_i local nasal_vowel = TILDE local non_nasal_c = "[^" .. TILDE .. "]" local vowel_no_schwa = oral_vowel_no_schwa_no_i .. oral_vowel_i .. nasal_vowel local vowel = oral_vowel .. nasal_vowel local vowel_c = "[" .. vowel .. "]" local vowel_no_schwa_c = "[" .. vowel_no_schwa .. "]" local vowel_maybe_nasal_r = "[" .. oral_vowel .. "]" .. TILDE .. "?" local non_vowel_c = "[^" .. vowel .. "]" local oral_vowel_c = "[" .. oral_vowel .. "]" -- FIXME: Previously vowel_no_i specified the vowels explicitly and didn't include the nasal combining diacritic; -- should we include it? local vowel_no_i = oral_vowel_no_schwa_no_i .. oral_vowel_schwa local vowel_no_i_c = "[" .. vowel_no_i .. "]" -- special characters that should be carried through but largely ignored when -- syllabifying; single quote prevents interpretation of sequences, -- ‿ indicates liaison, ⁀ is a word boundary marker, - is a literal hyphen -- (we include word boundary markers because they mark word boundaries with -- words joined by hyphens, but should be ignored for syllabification in -- such a case), parens are used to explicitly indicate an optional sound, esp. -- a schwa local syljoiner_c = "[_'‿⁀%-]" -- don't include syllable marker or space local opt_syljoiners_c = syljoiner_c .. "*" local schwajoiner_c = "[_'‿⁀%-. ]" -- also include. and space but not local opt_schwajoiners_c = schwajoiner_c .. "*" local cons_c = "[^" .. vowel .. ".⁀ %-]" -- includes underscore, quote and liaison marker local cons_no_liaison_c = "[^" .. vowel .. ".⁀‿ %-]" -- includes underscore and quote but not liaison marker local real_cons_c = "[^" .. vowel .. "_'‿.⁀ %-]" -- excludes underscore, quote and liaison marker local cons_or_joiner_c = "[^" .. vowel .. ". ]" -- includes all joiners local front_vowel = "eiîéèêĕėəɛæœyŷ" -- should not include capital E, used in cœur etc. local front_vowel_c = "[" .. front_vowel .. "]" local word_begin = "'‿⁀%-" -- characters indicating the beginning of a word local word_begin_c = "[" .. word_begin .. "]"

local function respelling_to_IPA(data) local prons = export.show(data.respelling, data.args.pos.default, data.args.noalternatives, data.pagename)

-- Check whether explicitly given pronunciations are redundant. if data.orig_respelling and data.orig_respelling ~= "+" then local full_pagename = mw.title.getCurrentTitle.fullText if not pages_where_redundancy_checking_is_disabled[full_pagename] then local default_prons = export.show(nil, data.args.pos, data.args.noalternatives, data.pagename,				"no test new module") local is_redundant, is_non_redundant for _, pron in ipairs(prons) do				if #default_prons == 1 and default_prons[1] == pron or #default_prons > 1 and require(table_module).contains(default_prons, pron) then is_redundant = true else is_non_redundant = true end end if is_redundant and not is_non_redundant then track("redundant-pron") elseif is_non_redundant and not is_redundant then track("needed-pron") elseif is_redundant and is_non_redundant then track("partly-redundant-pron") end end end

for i, pron in ipairs(prons) do prons[i] = "/" .. pron .. "/"	end return prons end

--[==[ Actual implementation of fr-IPA, compatible in spirit with IPA. ]==] function export.fr_IPA(frame) local parent_args = frame:getParent.args

local augment_params = { ["noalternatives"] = {type = "boolean"}, ["noalt"] = {type = "boolean", alias_of = "noalternatives"}, }

local augment_param_mod_spec = { {param = "qual", alias_of = "q", separate_no_index = false}, -- deprecated {param = "n", alias_of = "ref"}, -- deprecated {param = "pos", separate_no_index = true}, -- pos= by itself has a special meaning }

return require(pron_utilities_module).format_prons { lang = require("Module:languages").getByCode("fr"), respelling_to_IPA = respelling_to_IPA, raw_args = parent_args, augment_params = augment_params, augment_param_mod_spec = augment_param_mod_spec, track_module = "fr-pron", } end

function export.canonicalize_pron(text, pagename) if not text or text == "+" then text = pagename end

text = rsub(text, "%[([hHxXjJ])%]", function(sound)		return explicit_sound_to_substitution[ulower(sound)]	end)

if rfind(text, "^%[.*%]$") then local subs = rsplit(rmatch(text, "^%[(.*)%]$"), ",") text = pagename for _, sub in ipairs(subs) do			local fromto = rsplit(sub, ":") if #fromto ~= 2 then error("Bad substitution spec " .. sub .. " in ") end local from, to = fromto[1], fromto[2] if rfind(from, "^~") then -- formerly, ~ was required to match within a word from = rmatch(from, "^~(.*)$") end local newtext = text if rfind(from, "^%^") then -- whole-word match from = rmatch(from, "^%^(.*)$") newtext = rsub(text, "%f[%a]" .. require("Module:string utilities").pattern_escape(from) .. "%f[%A]", to) else newtext = rsub(text, require("Module:string utilities").pattern_escape(from), to) end if newtext == text then error("Substitution spec " .. sub .. " didn't match respelling '" .. text .. "'") end text = newtext end end

text = ulower(text) return text end

function export.show(text, pos, noalternatives, pagename, no_test_new_module) -- check_new_module=1 can be passed from a bot to compare to the new -- module. In that case, if there's a difference, the return value will -- be a string "OLD_RESULT || NEW_RESULT". --	-- no_test_new_module can be passed from module code to disable the -- new-module check. This is used when checking for redundant pronunciation -- to avoid excess triggering of the Tracking/fr-pron/different-pron -- page. local check_new_module if type(text) == "table" then pos = ine(text.args.pos) noalternatives = ine(text.args.noalternatives) pagename = ine(text.args.pagename) check_new_module = ine(text.args.check_new_module) text = ine(text.args[1]) end

local new_module_result -- Test code to compare existing module to new one. if (test_new_fr_pron_module or check_new_module) and not no_test_new_module then local m_new_fr_pron = require("Module:User:Benwing2/fr-pron") new_module_result = m_new_fr_pron.show(text, pos, noalternatives, pagename) end

pagename = pagename or mw.loadData("Module:headword/data").pagename

text = export.canonicalize_pron(text, pagename)

-- track quote-separator if different numbers of quote symbols if ulen(rsub(text, "[^']", "")) ~= ulen(rsub(pagename, "[^']", "")) then track("quote-separator") end

-- 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 .. '⁀⁀'

-- various early substitutions text = str_gsub(text, 'ǝ', 'ə') -- replace wrong schwa with same-looking correct one text = str_gsub(text, 'œu', 'Eu') -- capital E so it doesn't trigger c -> s	text = str_gsub(text, 'oeu', 'Eu') text = str_gsub(text, 'œil', 'Euil') text = str_gsub(text, 'œ', 'æ') -- keep as æ, mapping later to è or é

-- Handle soft c, g. Do these near the very beginning before any changes -- that disturb the orthographic front/back vowel distinction (e.g.	-- -ai -> -é when pos == "v" in the next section); but after special -- handling of œu (which should not trigger softening, as in cœur), whereas -- other occurrences of œ do trigger softening (cœliaque). text = rsub(text, "c('?" .. front_vowel_c .. ')', 'ç%1') text = rsub(text, 'ge([aoAOàâôäöăŏɔ])', 'j%1') text = rsub(text, 'g(' .. front_vowel_c .. ')', 'j%1')

if pos == "v" then -- special-case for verbs text = rsub(text, 'ai⁀', 'é⁀') -- portions, retiens as verbs should not have /s/ text = rsub(text, 'ti([oe])ns([⁀‿])', "t_i%1ns%2") -- retienne, retiennent as verbs should not have /s/ text = rsub(text, 't(ienne[⁀‿])', "t_%1") text = rsub(text, 't(iennent[⁀‿])', "t_%1") -- final -ent is silent except in single-syllable words (ment, sent); -- vient, tient, and compounds will have to be special-cased, no easy -- way to distinguish e.g. initient (silent) from retient (not silent). text = rsub(text, '(' .. vowel_c .. cons_no_liaison_c .. '*' .. ')ent⁀', '%1e⁀') text = rsub(text, '(' .. vowel_c .. cons_no_liaison_c .. '*' .. ')ent‿', '%1ət‿') end

-- various early substitutions #2 text = rsub(text, '[aä]([sz][⁀‿])', 'â%1') -- pas, gaz text = str_gsub(text, 'à', 'a') text = str_gsub(text, 'ù', 'u') text = str_gsub(text, 'î', 'i') text = str_gsub(text, '[Ee]û', 'ø') text = str_gsub(text, 'û', 'u') -- absolute, obstacle, subsumer, obtus, obtenir, etc.; but not toubibs text = str_gsub(text, 'b([st][^⁀‿])', 'p%1') text = str_gsub(text, 'ph', 'f') text = str_gsub(text, 'gn', 'ɲ') text = str_gsub(text, 'compt', 'cont') text = str_gsub(text, 'psych', 'psik') -- -chrom-, -chron-, chrétien, etc.; -chlor-, etc.; -techn-, arachn-, etc.; use 'sh' to get /ʃ/ text = str_gsub(text, 'ch([rln])', 'c%1') -- dinosaure, taure, restaurant, etc.; in unstressed syllables both /ɔ/ and /o/ are usually possible, -- but /ɔ/ is more common/natural; not in -eaur-, which occurs in compounds e.g. Beauregard text = str_gsub(text, '([^e])aur', '%1or') text = rsub(text, '(' .. word_begin_c .. ')désh', '%1déz') text = rsub(text, '(' .. word_begin_c .. ')et([⁀‿])', '%1é%2') text = rsub(text, '(' .. word_begin_c .. ')es([⁀‿])', '%1ès%2') text = rsub(text, '(' .. word_begin_c .. ')est([⁀‿])', '%1èt%2') text = rsub(text, '(' .. word_begin_c .. ')ress', '%1rəss') -- ressortir, etc. should have schwa text = rsub(text, '(' .. word_begin_c .. ')intrans(' .. vowel_c .. ')', '%1intranz%2') text = rsub(text, '(' .. word_begin_c .. ')trans(' .. vowel_c .. ')', '%1tranz%2') text = rsub(text, '(' .. word_begin_c .. ')eu', '%1ø') -- even in euro- text = rsub(text, '(' .. word_begin_c .. ')neur', '%1nør') -- neuro-, neuralgie, etc. -- hyperactif, etc.; without this we get /i.pʁak.tif/ etc. text = rsub(text, '(' .. word_begin_c .. ')hyper', '%1hypèr') -- superessif, etc.; without this we get /sy.pʁɛ.sif/ etc. text = rsub(text, '(' .. word_begin_c .. ')super', '%1supèr') -- adverbial -emment is pronounced -amment text = rsub(text, 'emment([⁀‿])', 'amment%1') text = rsub(text, 'ie(ds?[⁀‿])', 'ié%1') -- pied, assieds, etc.	text = rsub(text, '[eæ]([dgpt]s?[⁀‿])', 'è%1') -- permet text = rsub(text, 'ez([⁀‿])', 'éz%1') -- assez, avez, etc.	text = str_gsub(text, 'er‿', 'èr‿') -- premier étage text = rsub(text, '([⁀‿]' .. cons_c .. '*)er(s?[⁀‿])', '%1èr%2') -- cher, fer, vers text = rsub(text, 'er(s?[⁀‿])', 'ér%1') -- premier(s) text = rsub(text, '(' .. word_begin_c .. cons_c .. '*)e(s[⁀‿])', '%1é%2') -- ses, tes, etc.	text = str_gsub(text, 'oien', 'oyen') -- iroquoien -- bien, européens, païen, moyen; only word finally or before final s	-- (possibly in liaison); doesn't apply to influence, omniscient, réengager, -- etc.; cases where -ien- is [jɛ̃] elsewhere in the word require respelling -- using 'iain' or 'ien-', e.g. 'tient', 'viendra', 'bientôt', 'Vientiane' text = rsub(text, '([iïéy])en(s?[⁀‿])', '%1ɛn%2') -- special-case for words beginning with bien- (bientôt, bienvenu, bienheureux, etc.) text = rsub(text, '(' .. word_begin_c .. ')bien', '%1biɛn')

--s, c, g, j, q (soft c/g handled above; ç handled below after dropping	-- silent -s; x handled below) text = str_gsub(text, 'cueil', 'keuil') -- accueil, etc.	text = str_gsub(text, 'gueil', 'gueuil') -- orgueil text = rsub(text, '(' .. vowel_c .. ')s(' .. vowel_c .. ')', '%1z%2') text = str_gsub(text, "qu'", "k'") -- qu'on text = rsub(text, 'qu(' .. vowel_c .. ')', 'k%1')

-- gu+vowel -> g+vowel, but gu+vowel+diaeresis -> gu+vowel text = rsub(text, 'gu(' .. vowel_c .. ')', function(vowel)		local undo_diaeresis = remove_diaeresis_from_vowel[vowel]		return undo_diaeresis and 'gu' .. undo_diaeresis or 'g' .. vowel		end) text = str_gsub(text, 'gü', 'gu') -- aiguë might be spelled aigüe -- parking, footing etc.; also -ing_ e.g. swinguer respelled swing_guer, -- Washington respelled Washing'tonne text = rsub(text, '(' .. cons_c .. ")ing(s?[_'⁀‿])", "%1iŋ%2") text = str_gsub(text, 'ngt', 'nt') -- vingt, longtemps text = str_gsub(text, 'j', 'ʒ') text = str_gsub(text, 's?[cs]h', 'ʃ') text = str_gsub(text, '[cq]', 'k') -- following two must follow s -> z between vowels text = rsub(text, '([^sçx⁀])ti([oeɛ])n', '%1si%2n') -- tion, tien text = rsub(text, '([^sçx⁀])ti([ae])l', '%1si%2l') -- tial, tiel

-- special hack for uï; must follow guï handling and precede ill handling text = str_gsub(text, 'uï', 'ui') -- ouir, etc.

-- special hack for oel, oil, oêl; must follow intervocal s -> z and -- ge + o -> j, and precede -il- handling text = rsub(text, 'o[eê]l', 'wAl') -- moelle, poêle -- poil but don't affect -oill- (otherwise interpreted as /ɔj/) text = str_gsub(text, 'oil([^l])', 'wAl%1')

-- ill, il; must follow j -> ʒ above -- NOTE: In all of the following, we purposely do not check for a vowel -- following -ill-, so that respellings can use it before a consonant -- (e.g. boycotter respelled 'boillcotter') -- (1) special-casing for C+uill (juillet, cuillère, aiguille respelled	--    aiguïlle) text = rsub_repeatedly(text, '(' .. cons_c .. ')uill', '%1ɥij') -- (2) -ill- after a vowel; repeat if necessary in case of VillVill --    sequence (ailloille respelling of ayoye) text = rsub_repeatedly(text, '(' .. vowel_c .. ')ill', '%1j') -- (3) any other ill, except word-initially (illustrer etc.) text = rsub(text, '([^⁀])ill', '%1ij') -- (4) final -il after a vowel; we consider final -Cil to contain a	--    pronounced /l/ (e.g. 'il', 'fil', 'avril', 'exil', 'volatil', 'profil') text = rsub(text, '(' .. vowel_c .. ')il([⁀‿])', '%1j%2') -- (5) -il- after a vowel, before a consonant (not totally necessary;	--    unlikely to occur normally, respelling can use -ill-) text = rsub(text, '(' .. vowel_c .. ')il(' .. cons_c .. ')', '%1j%2')

-- y; include before removing final -e so we can distinguish -ay from -- -aye text = rsub(text, 'ay([⁀‿])', 'ai%1') -- Gamay text = str_gsub(text, 'éy', 'éj') -- used in respellings, eqv. to 'éill' text = rsub(text, '(' .. vowel_no_i_c .. ')y', '%1iy') text = rsub(text, 'yi([' .. vowel .. '.])', 'y.y%1') text = str_gsub(text, "'y‿", "'j‿") -- il n'y‿a text = rsub_repeatedly(text, '(' .. cons_c .. ')y(' .. cons_c .. ')', '%1i%2') text = rsub(text, '(' .. cons_c .. ')ye?([⁀‿])', '%1i%2') text = rsub(text, '(' .. word_begin_c .. ')y(' .. cons_c .. ')', '%1i%2') text = str_gsub(text, '⁀y⁀', '⁀i⁀') -- CyV -> CiV; will later be converted back to /j/ in most cases, but -- allows correct handling of embryon, dryade, cryolithe, glyoxylique, etc. text = rsub(text, '(' .. cons_c .. ')y(' .. vowel_c .. ')', '%1i%2') text = str_gsub(text, 'y', 'j')

-- nasal hacks -- make 'n' before liaison in certain cases both nasal and pronounced text = rsub(text, '(' .. word_begin_c .. '[mts]?on)‿', '%1N‿') --mon, son, ton, on	text = str_gsub(text, "('on)‿", '%1N‿') --qu'on, l'on text = str_gsub(text, '([eɛu]n)‿', '%1N‿') --en, bien, un, chacun etc. -- in bon, certain etc. the preceding vowel isn't nasal text = str_gsub(text, 'n‿', "N‿")

-- other liaison hacks text = str_gsub(text, 'd‿', 't‿') -- grand arbre, pied-à-terre text = str_gsub(text, '[sx]‿', 'z‿') -- vis-a-vis, beaux-arts, premiers enfants, etc. text = str_gsub(text, 'f‿', 'v‿') -- neuf ans, etc.	-- treat liaison consonants that would be dropped as if they are extra-word, -- so that preceding "word-final" letters are still dropped and preceding -- vowels take on word-final qualities text = str_gsub(text, '([bdgkpstxz]‿)', '⁀%1') text = str_gsub(text, 'i‿', 'ij‿') -- y a-t-il, gentil enfant

--silent letters -- do this first so we also drop preceding letters if needed text = str_gsub(text, '[sz]⁀', '⁀') -- final -x silent in prix, chevaux, eux (with eu -> ø above) text = str_gsub(text, '([iuø])x⁀', '%1⁀') -- silence -c and -ct in nc(t), but not otherwise text = str_gsub(text, 'nkt?⁀', 'n⁀') text = str_gsub(text, '([ks])t⁀', '%1T⁀') -- final -kt, -st pronounced text = str_gsub(text, 'ér⁀', 'é⁀') -- premier, converted earlier to premiér -- p in -mp, b in -mb will be dropped, but temporarily convert to capital -- letter so a trace remains below when we handle nasals text = str_gsub(text, 'm([bp])⁀', function(bp)		local capbp = {b='B', p='P'}		return 'm' .. capbp[bp] .. '⁀'	end) -- plomb -- do the following after dropping r so we don't affect -rt text = str_gsub(text, '[dgpt]⁀', '⁀') -- remove final -e in various circumstances; leave primarily when -- preceded by two or more distinct consonants; in V[mn]e and Vmme/Vnne, -- use [MN] so they're pronounced in full text = rsub(text, '(' .. vowel_c .. ')n+e([⁀‿])', '%1N%2') text = rsub(text, '(' .. vowel_c .. ')m+e([⁀‿])', '%1M%2') text = rsub(text, '(' .. cons_c .. ')%1e([⁀‿])', '%1%2') text = rsub(text, '([mn]' .. cons_c .. ')e([⁀‿])', '%1%2') text = rsub(text, '(' .. vowel_c .. cons_c .. '?)e([⁀‿])', '%1%2')

-- ç; must follow s -> z between vowels (above); do after dropping final s	-- so that ç can be used in respelling to force a pronounced s	text = str_gsub(text, 'ç', 's')

-- x; (h)ex- at beginning of word (examen, exister, hexane, etc.) and after -- a vowel (coexister, réexaminer) and after in- (inexact, inexorable) is	-- pronounced [egz], x- at beginning of word also pronounced [gz], all- -- other x's pronounced [ks] (including -ex- in lexical, sexy, perplexité,	-- etc.). text = rsub(text, '([' .. word_begin .. vowel .. ']h?)[eæ]x(h?' .. vowel_c .. ')', '%1egz%2') text = rsub(text, '(' .. word_begin_c .. 'in)[eæ]xh?(h?' .. vowel_c .. ')', '%1egz%2') text = rsub(text, '(' .. word_begin_c .. ')x', '%1gz') text = str_gsub(text, 'x', 'ks')

-- double consonants: eCC treated specially, then CC -> C; do after -- x -> ks so we handle exciter correctly text = rsub(text, '(' .. word_begin_c .. ')e([mn])%2(' .. vowel_c .. ')', '%1en_%2%3') -- emmener, ennui text = rsub(text, '(' .. word_begin_c .. ')(h?)[eæ](' .. cons_c .. ')%3', '%1%2é%3') -- effacer, essui, errer, henné text = rsub(text, '(' .. word_begin_c .. ')dess', '%1déss') -- dessécher, dessein, etc. text = rsub(text, '[eæ](' .. cons_c .. ')%1', 'è%1') -- mett(r)ons, etc. text = rsub(text, '(' .. cons_c .. ')%1', '%1')

--diphthongs --uppercase is used to avoid the output of one change becoming the input --to another; we later lowercase the vowels; î and û converted early; --we do this before i/u/ou before vowel -> glide (for e.g. bleuet), --and before nasal handling because e.g. ou before n is not converted --into a nasal vowel (Bouroundi, Cameroun); au probably too, but there --may not be any such words text = str_gsub(text, 'ou', 'U') text = str_gsub(text, 'e?au', 'O') text = str_gsub(text, '[Ee]u([zt])', 'ø%1') text = rsub(text, '[Ee]uh?([⁀‿])', 'ø%1') -- (s)chleuh has /ø/ text = rsub(text, '[Ee][uŭ]', 'œ') text = str_gsub(text, '[ae]i', 'ɛ')

-- Before implementing nasal vowels, convert nh to n to correctly handle -- inhérent, anhédonie, bonheur, etc. But preserve enh- to handle -- enhardir, enharnacher, enhaché, enhoncher, enhotter, enhucher (all	-- with "aspirate h"). Words with "mute h" need respelling with enn-, e.g. -- enharmonie, enherber. text = rsub(text, '(' .. word_begin_c .. ')enh', '%1en_h') text = str_gsub(text, 'nh', 'n')

-- Nasalize vowel + n, m	-- Do before syllabification so we syllabify quatre-vingt-un correctly. -- We affect (1) n before non-vowel, (2) m before b/p/f (including B/P,	-- which indicate original b/p that are slated to be deleted in words like	-- plomb, champs; f predominantly from original ph, as in symphonie,	-- emphatiser; perhaps we should distinguish original ph from original f,	-- as in occasional words such as Zemfira), (3) -om (nom, dom, pronom,	-- condom, etc.) and (4) -aim/-eim (faim, Reims etc.), (4). We leave alone -- other m's, including most final m. We do this after diphthongization, -- which arguably simplifies things somewhat; but we need to handle the -- 'oi' diphthong down below so we don't run into problems with the 'noi' -- sequence (otherwise we'd map 'oi' to 'wa' and then nasalize the n	-- because it no longer precedes a vowel). text = rsub_repeatedly(text, '(.)(' .. vowel_c .. ')([mn])(' .. non_vowel_c .. ')',		function(v1, v2, mn, c)			if mn == 'n' or rfind(c, '[bpBPf]') or (v2 == 'o' or v2 == 'ɛ') and c == '⁀' then				local nasaltab = {['a']='ɑ̃', ['ä']='ɑ̃', ['e']='ɑ̃', ['ë']='ɑ̃',					['ɛ']='ɛ̃', ['i']='ɛ̃', ['ï'] = 'ɛ̃', ['o']='ɔ̃', ['ö']='ɔ̃',					['ø']='œ̃', ['œ']='œ̃', ['u']='œ̃', ['ü']='œ̃'} -- à jeun				if v1 == 'o' and v2 == 'i' then					return 'wɛ̃' .. c -- coin, point				elseif nasaltab[v2] then					return v1 .. nasaltab[v2] .. c				end			end			return v1 .. v2 .. mn .. c		end) -- special hack for maximum, aquarium, circumlunaire, etc. text = rsub(text, 'um(' .. non_vowel_c .. ')', 'ɔm%1') -- now remove BP that represent original b/p to be deleted, which we've	-- preserved so far so that we know that preceding m can be nasalized in	-- words like plomb, champs text = str_gsub(text, '[BP]', '')

-- do after nasal handling so 'chinois' works correctly text = str_gsub(text, 'oi', 'wA')

-- Remove silent h (but keep as _ after i/u to prevent glide conversion in	-- nihilisme, jihad, etc.; don't do this after original ou, as souhaite is	-- pronounced /swɛt/). -- Do after diphthongs to keep vowels apart as in envahir, but do -- before syllabification so it is ignored in words like hémorrhagie. text = str_gsub(text, '([iu])h', '%1_') text = str_gsub(text, 'h', '')

--syllabify -- (1) break up VCV as V.CV, and VV as V.V; repeat to handle successive --    syllables text = rsub_repeatedly(text, "(" .. vowel_maybe_nasal_r .. opt_syljoiners_c .. ")(" .. real_cons_c .. "?" .. opt_syljoiners_c .. oral_vowel_c .. ')', '%1.%2')	-- (2) break up other VCCCV as VC.CCV, and VCCV as VC.CV; repeat to handle successive syllables text = rsub_repeatedly(text, "(" .. vowel_maybe_nasal_r .. opt_syljoiners_c .. real_cons_c .. opt_syljoiners_c .. ")(" .. real_cons_c .. cons_or_joiner_c .. "*" .. oral_vowel_c .. ")", '%1.%2')

local function resyllabify(text) -- (3) resyllabify C.C as .CC for various CC that can form an onset: --    resyllabify C.[lr] as .C[lr] for C = various obstruents; --    resyllabify d.ʒ, C.w, C.ɥ, C.j as .dʒ, .Cw, .Cɥ, .Cj (C.w comes from		--     written Coi; C.ɥ comes from written Cuill; C.j comes e.g. from		--     des‿yeux, although most post-consonantal j generated later); --    don't resyllabify j.j text = rsub(text, "(%(?)(" .. real_cons_c .. ")(" .. opt_syljoiners_c .. ")%.(" .. opt_syljoiners_c .. ")(" .. real_cons_c .. ")", function(lparen, c1, j1, j2, c2) if allow_onset_2(c1, c2) then return "." .. lparen .. c1 .. j1 .. j2 .. c2				end end)		-- (4) resyllabify .CC as C.C for CC that can't form an onset (opposite of --    the previous step); happens e.g. in ouest-quart		text = rsub(text, "%.(" .. opt_syljoiners_c .. ")(" .. real_cons_c .. ")(%)?)(" .. opt_syljoiners_c .. ")(" .. real_cons_c .. ")",			function(j1, c1, rparen, j2, c2)				if not allow_onset_2(c1, c2) and not (c1 == "s" and rfind(c2, "^[ptk]$")) then					return j1 .. c1 .. rparen .. "." .. j2 .. c2				end			end) -- (5) fix up dʒ and tʃ followed by another consonant (management respelled		--    'manadjment' or similar) text = rsub(text, "%.([%(]?[dt]" .. opt_syljoiners_c .. "[ʒʃ])(" .. opt_syljoiners_c .. ")(" .. real_cons_c .. ")", "%1.%2%3")		return text	end

text = resyllabify(text)

-- (6) eliminate diaeresis (note, uï converted early) text = rsub(text, '[äëïöüÿ]', remove_diaeresis_from_vowel)

--single vowels text = str_gsub(text, 'â', 'ɑ') --don't do this, too many exceptions --text = rsub(text, 'a(%.?)z', 'ɑ%1z') text = str_gsub(text, 'ă', 'a') text = str_gsub(text, 'e%.j', 'ɛ.j') -- réveiller text = rsub_repeatedly(text, 'e%.(' .. cons_no_liaison_c .. '*' .. vowel_c .. ')', 'ə.%1') text = rsub(text, 'e([⁀‿])', 'ə%1') text = str_gsub(text, 'æ%.', 'é.') text = rsub(text, 'æ([⁀‿])', 'é%1') text = rsub(text, '[eèêæ]', 'ɛ') text = str_gsub(text, 'é', 'e') text = rsub(text, 'o([⁀‿])', 'O%1') text = str_gsub(text, 'o(%.?)z', 'O%1z') text = rsub(text, '[oŏ]', 'ɔ') text = str_gsub(text, 'ô', 'o') text = str_gsub(text, 'u', 'y')

--other consonants text = str_gsub(text, 'r', 'ʁ') text = str_gsub(text, 'g', 'ɡ') -- use IPA variant of g

--(mostly) final schwa deletions (FIXME, combine with schwa deletions below) --1. delete all instances of ė text = rsub(text, '%.([^.⁀]+)ė', '%1') --2. delete final schwa, only in the last word, not in single-syllable word --  (⁀. can occur after a hyphen, e.g. in puis-je) text = rsub(text, '([^⁀])%.([^ə.⁀]+)ə⁀⁀', '%1%2⁀') --3. delete final schwa before vowel in the next word, not in a single- --  syllable word (croyez-le ou non); the out-of-position %4 looks weird --  but the effect is that we preserve the initial period when there's a	--   hyphen and period after the schwa (con.tre-.a.tta.quer ->	--   con.tra.tta.quer) but not across a space (con.tre a.tta.quer ->	--   contr a.tta.quer) text = rsub(text, '([^⁀])%.([^ə.⁀]+)ə⁀([⁀ %-]*)(%.?)(' .. vowel_c .. ')', '%1%4%2⁀%3%5')	--4. delete final schwa before vowel in liaison, not in a single-syllable --  word text = rsub(text, '([^⁀]%.[^ə.⁀]+)ə‿%.?(' .. vowel_c .. ')', '%1‿%2')	--5. delete schwa after any vowel (agréerons, soierie) text = rsub(text, '(' .. vowel_c .. ').ə', '%1') --6. make final schwa optional after two consonants except obstruent + approximant --  and [lmn] + ʁ text = rsub(text, '(' .. cons_c .. ')(' .. '%.?' .. ')(' .. cons_c .. ')ə⁀',		function(a, dot, b)			return a .. dot .. b .. ( rfind(a, '[bdfɡkpstvzʃʒ]') and rfind(b, '[mnlʁwj]') and 'ə' or rfind(a, '[lmn]') and b == 'ʁ' and 'ə' or '(ə)') .. '⁀'		end)

--i/u/ou -> glide before vowel -- -- do from right to left to handle continuions and étudiions --   correctly -- -- do repeatedly until no more subs (required due to right-to-left	--   action) -- -- convert to capital J and W as	a signal that we can convert them --   back to /i/ and /u/ later on if they end up preceding a schwa or	--    following two consonants in the same syllable, whereas we don't	--    do this to j from other sources (y or ill) and w from other --   sources (w or oi); will be lowercased later; not necessary to do 	--    something similar to ɥ, which can always be converted back to /y/ --   because it always originates from /y/. while true do local new_text = rsub(text, '^(.*)i%.?(' .. vowel_c .. ')', '%1J%2') new_text = rsub(new_text, '^(.*)y%.?(' .. vowel_c .. ')', '%1ɥ%2') new_text = rsub(new_text, '^(.*)U%.?(' .. vowel_c .. ')', '%1W%2') if new_text == text then break end text = new_text end

--hack for agréions, pronounced with /j.j/	text = str_gsub(text, 'e%.J', 'ej%.J')

--glides -> full vowels after two consonants in the same syllable --(e.g. fl, tr, etc.), but only glides from original i/u/ou (see above) --and not in the sequence 'ui' (e.g. bruit), and only when the second --consonant is l or r (not in abstiennent) text = rsub(text, '(' .. cons_c .. '[lʁ])J(' .. vowel_c .. ')', '%1i.j%2') text = rsub(text, '(' .. cons_c .. '[lʁ])W(' .. vowel_c .. ')', '%1u.%2') text = rsub(text, '(' .. cons_c .. '[lʁ])ɥ(' .. vowel_no_i_c .. ')', '%1y.%2') -- remove _ that prevents interpretation of letter sequences; do this -- before deleting internal schwas text = str_gsub(text, "_", "")

-- internal schwa -- 1. delete schwa in VCəCV sequence word-internally when neither V is	--   schwa, except in a few sequences such as ʁəʁ (déchirerez), ɲəʁ --   (indignerez), ɲəl (agnelet); use uppercase schwa when not deleting it, --   see below; FIXME, we might want to prevent schwa deletion with other --   consonant sequences text = rsub_repeatedly(text, '(' .. vowel_no_schwa_c .. ')%.(' .. real_cons_c .. ')ə%.(' .. real_cons_c .. ')(' .. vowel_no_schwa_c .. ')',		function(v1, c1, c2, v2)			if no_delete_schwa_in_vcvcv_word_internally[c1 .. c2] then				return v1 .. '.' .. c1 .. 'Ə.' .. c2 .. v2			else				return v1 .. c1 .. '.' .. c2 .. v2			end		end) -- 2. delete schwa in VCə.Cʁə, VCə.Clə sequence word-internally --   (palefrenier, vilebrequin). text = rsub(text, '(' .. vowel_no_schwa_c .. ')%.(' .. real_cons_c .. ')ə%.(' .. real_cons_c .. ')([lʁ]ə)', '%1%2.%3%4') -- 3. make optional internal schwa in remaining VCəCV sequences, including -- across words, except between certain pairs of consonants (FIXME, needs	-- to be smarter); needs to happen after /e/ -> /ɛ/ before schwa in next -- syllable and after removing ' and _ (or we need to take them into account); -- include .* so we go right-to-left, convert to uppercase schwa so	-- we can handle sequences of schwas and not get stuck if we want to -- leave a schwa alone. text = rsub_repeatedly(text, '(.*' .. vowel_c .. opt_schwajoiners_c .. ')(' .. real_cons_c .. ')(' .. opt_schwajoiners_c.. ')ə(' .. opt_schwajoiners_c .. ')(' .. real_cons_c .. ')(' ..		opt_schwajoiners_c .. vowel_c .. ')',		function(v1, c1, sep1, sep2, c2, v2)			if no_delete_schwa_in_vcvcv_across_words[c1 .. c2] then				return v1 .. c1 .. sep1 .. 'Ə' .. sep2 .. c2 .. v2			else				return v1 .. c1 .. sep1 .. '(Ə)' .. sep2 .. c2 .. v2			end		end)

-- lowercase any uppercase letters (AOUMNJW etc.); they were there to	-- prevent certain later rules from firing text = ulower(text)

--ĕ forces a pronounced schwa text = str_gsub(text, 'ĕ', 'ə')

-- need to resyllabify again in cases like 'saladerie', where deleting the -- schwa above caused a 'd.r' boundary that needs to become '.dr'. text = resyllabify(text)

-- rewrite apostrophes as liaison markers text = str_gsub(text, "'", "‿")

-- convert explicit-notation characters to their final result text = rsub(text, explicit_substitution_regex, explicit_substitution_to_sound)

-- remove hyphens text = rsub(text, '%-', '')

local function flatmap_result(items, fun) local new = {} for _, item in ipairs(items) do			local results = fun(item) for _, result in ipairs(results) do				table.insert(new, result) end end return new end

local result = {text} if not noalternatives then -- Include alternative with harmonized é/è if rfind(text, "ɛ%.") or rfind(text, "e" .. real_cons_c .. "+%.") then result = flatmap_result(result, function(item)				return {item, rsub(rsub(item, "ɛ%.", "e."), "e(" .. real_cons_c .. "+%.)", "ɛ%1")}			end) end if rfind(text, "ism[⁀‿]") then result = flatmap_result(result, function(item)				return {item, rsub(item, "ism([⁀‿])", "izm%1")}			end) end if rfind(text, "is%.mə[⁀‿]") then result = flatmap_result(result, function(item)				return {item, rsub(item, "is%.mə([⁀‿])", "iz.mə%1")}			end) end if rfind(text, "ɑ" .. non_nasal_c) then result = flatmap_result(result, function(item)				return {rsub_repeatedly(item, "ɑ(" .. non_nasal_c .. ")", "a%1"), item}			end) end end

--remove word-boundary markers for i, item in ipairs(result) do		result[i] = rsub(item, '⁀', '') end

-- Handle test_new_fr_pron_module/check_new_module if specified. if new_module_result then if test_new_fr_pron_module then if not require("Module:table").deepEquals(new_module_result, result) then --error(table.concat(result, ",") .. " || " .. table.concat(new_module_result, ",")) track("different-pron") else track("same-pron") end end if check_new_module then if not require("Module:table").deepEquals(new_module_result, result) then result = table.concat(result, ",") .. " || " .. table.concat(new_module_result, ",") end end end

return result end

return export