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local export = {}

local substring = mw.ustring.sub
local rsubn = mw.ustring.gsub
local rmatch = mw.ustring.match
local rsplit = mw.text.split
local U = require("Module:string/char")
local lang = require("Module:languages").getByCode("bg")
local script = require("Module:scripts").getByCode("Cyrl")

local GRAVE = U(0x300)
local ACUTE = U(0x301)
local BREVE = U(0x306)
local PRIMARY = U(0x2C8)
local SECONDARY = U(0x2CC)
local TIE = U(0x361)
local FRONTED = U(0x31F)
local DOTUNDER = U(0x323)
local HYPH = U(0x2027)
local BREAK_MARKER = "."
local vowels = "aɤɔuɛiɐo"
local vowels_c = "[" .. vowels .. "]"
local cons = "bvɡdʒzjklwmnprstfxʃɣʲ" .. TIE
local cons_c = "[" .. cons .. "]"
local voiced_cons = "bvɡdʒzɣ" .. TIE
local voiced_cons_c = "[" .. voiced_cons .. "]"
local hcons_c = "[бвгджзйклмнпрстфхшщьчц#БВГДЖЗЙКЛМНПРСТФХШЩЬЧЦ=]"
local hvowels_c = "[аъоуеияѝюАЪОУЕИЯЍЮ]"
local accents = PRIMARY .. SECONDARY
local accents_c = "[" .. accents .. "]"

-- single characters that map to IPA sounds
local phonetic_chars_map = {
	["а"] = "a",
	["б"] = "b",
	["в"] = "v",
	["г"] = "ɡ",
	["д"] = "d",
	["е"] = "ɛ",
	["ж"] = "ʒ",
	["з"] = "z",
	["и"] = "i",
	["й"] = "j",
	["к"] = "k",
	["л"] = "l",
	["м"] = "m",
	["н"] = "n",
	["о"] = "ɔ",
	["п"] = "p",
	["р"] = "r",
	["с"] = "s",
	["т"] = "t",
	["у"] = "u",
	["ў"] = "w",
	["ф"] = "f",
	["х"] = "x",
	["ц"] = "t" .. TIE .. "s",
	["ч"] = "t" .. TIE .. "ʃ",
	["ш"] = "ʃ",
	["щ"] = "ʃt",
	["ъ"] = "ɤ",
	["ь"] = "ʲ",
	["ю"] = "ʲu",
	["я"] = "ʲa",

	[GRAVE] = SECONDARY,
	[ACUTE] = PRIMARY
}

local devoicing = {
	["b"] = "p", ["d"] = "t", ["ɡ"] = "k",
	["z"] = "s", ["ʒ"] = "ʃ",
	["v"] = "f"
}

local voicing = {
	["p"] = "b", ["t"] = "d", ["k"] = "ɡ",
	["s"] = "z", ["ʃ"] = "ʒ", ["x"] = "ɣ",
	["f"] = "v"
}


-- Prefixes where, if they occur at the beginning of the word and the stress is on the next syllable, we place the
-- syllable division directly after the prefix. For example, the default syllable-breaking algorithm would convert
-- безбра́чие to беˈзбрачие; but because it begins with без-, we convert it to безˈбрачие. Note that we don't (yet?)
-- convert измра́ to изˈмра instead of default измˈра, although we probably should.
--
-- Think twice before putting prefixes like на-, пре- and от- here, because of the existence of над-, пред-, and о-,
-- which are also prefixes.
local IPA_prefixes = {"bɛz", "vɤz", "vɤzproiz", "iz", "naiz", "poiz", "prɛvɤz", "proiz", "raz"}


-- 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 char_at(str, index)
	return substring(str, index, index)
end

local function starts_with(str, substr)
	return substring(str, 1, mw.ustring.len(substr)) == substr
end

local function count_vowels(word)
	local _, vowel_count = mw.ustring.gsub(word, hvowels_c, "")
	return vowel_count
end

function export.remove_pron_notations(text, remove_grave)
	text = rsub(text, "[." .. DOTUNDER .. "]", "")
	text = rsub(text, "ў", "у")
	text = rsub(text, "Ў", "У")

	-- Remove grave accents from annotations but maybe not from phonetic respelling
	if remove_grave then
		text = mw.ustring.toNFC(rsub(mw.ustring.toNFD(text), GRAVE, ""))
	end
	return text
end

function export.toIPA(term, endschwa)
	if type(term) == "table" then -- called from a template or a bot
		endschwa = term.args.endschwa
		term = term.args[1]
	end

	local origterm = term

	term = mw.ustring.toNFD(mw.ustring.lower(term))
	term = rsub(term, "у" .. BREVE, "ў") -- recompose ў
	term = rsub(term, "и" .. BREVE, "й") -- recompose й

	if term:find(GRAVE) and not term:find(ACUTE) then
		error("Use acute accent, not grave accent, for primary stress: " .. origterm)
	end

	-- allow DOTUNDER to signal same as endschwa=1
	term = rsub(term, "а(" .. accents_c .. "?)" .. DOTUNDER, "ъ%1")
	term = rsub(term, "я(" .. accents_c .. "?)" .. DOTUNDER, "ʲɤ%1")
	term = rsub(term, ".", phonetic_chars_map)

	-- Mark word boundaries
	term = rsub(term, "(%s+)", "#%1#")
	term = "#" .. term .. "#"

	-- Convert verbal and definite endings
	if endschwa then
		term = rsub(term, "a(" .. PRIMARY .. "t?#)", "ɤ%1")
	end

	-- Change ʲ to j after vowels or word-initially
	term = rsub(term, "([" .. vowels .. "#]" .. accents_c .. "?)ʲ", "%1j")

	-------------------- Move stress ---------------

	-- First, move leftwards over the vowel.
	term = rsub(term, "(" .. vowels_c .. ")(" .. accents_c .. ")", "%2%1")
	-- Then, move leftwards over j or soft sign.
	term = rsub(term, "([jʲ])(" .. accents_c .. ")", "%2%1")
	-- Then, move leftwards over a single consonant.
	term = rsub(term, "(" .. cons_c .. ")(" .. accents_c .. ")", "%2%1")
	-- Then, move leftwards over Cl/Cr combinations where C is an obstruent (NOTE: IPA ɡ).
	term = rsub(term, "([bdɡptkxfv]" .. ")(" .. accents_c .. ")([rl])", "%2%1%3")
	-- Then, move leftwards over kv/gv (NOTE: IPA ɡ).
	term = rsub(term, "([kɡ]" .. ")(" .. accents_c .. ")(v)", "%2%1%3")
	-- Then, move leftwards over sC combinations, where C is a stop or resonant (NOTE: IPA ɡ).
	term = rsub(term, "([sz]" .. ")(" .. accents_c .. ")([bdɡptkvlrmn])", "%2%1%3")
	-- Then, move leftwards over affricates not followed by a consonant.
	term = rsub(term, "([td]" .. TIE .. "?)(" .. accents_c .. ")([szʃʒ][" .. vowels .. "ʲ])", "%2%1%3")
	-- If we ended up in the middle of a tied affricate, move to its right.
	term = rsub(term, "(" .. TIE .. ")(" .. accents_c .. ")(" .. cons_c .. ")", "%1%3%2")
	-- Then, move leftwards over any remaining consonants at the beginning of a word.
	term = rsub(term, "#(" .. cons_c .. "*)(" .. accents_c .. ")", "#%2%1")
	-- Then correct for known prefixes.
	for _, prefix in ipairs(IPA_prefixes) do
		prefix_prefix, prefix_final_cons = rmatch(prefix, "^(.-)(" .. cons_c .. "*)$")
		if prefix_final_cons then
			-- Check for accent moved too far to the left into a prefix, e.g. безбрачие accented as беˈзбрачие instead
			-- of безˈбрачие
			term = rsub(term, "#(" .. prefix_prefix .. ")(" .. accents_c .. ")(" .. prefix_final_cons .. ")", "#%1%3%2")
		end
	end
	-- Finally, if there is an explicit syllable boundary in the cluster of consonants where the stress is, put it there.
	-- First check for accent to the right of the explicit syllable boundary.
	term = rsub(term, "(" .. cons_c .. "*)%.(" .. cons_c .. "*)(" .. accents_c .. ")(" .. cons_c .. "*)", "%1%3%2%4")
	-- Then check for accent to the left of the explicit syllable boundary.
	term = rsub(term, "(" .. cons_c .. "*)(" .. accents_c .. ")(" .. cons_c .. "*)%.(" .. cons_c .. "*)", "%1%3%2%4")
	-- Finally, remove any remaining syllable boundaries.
	term = rsub(term, "%.", "")

	-------------------- Vowel reduction (in unstressed syllables) ---------------
	local function reduce_vowel(vowel)
		return rsub(vowel, "[aɔɤu]", { ["a"] = "ɐ", ["ɔ"] = "o", ["ɤ"] = "ɐ", ["u"] = "o" })
	end

	-- Reduce all vowels before the stress, except if the word has no accent at all. (FIXME: This is presumably
	-- intended for single-syllable words without accents, but if the word is multisyllabic without accents,
	-- presumably all vowels should be reduced.)

	term = rsub(term, "(#[^#" .. accents .. "]*)(.-#)", function(a, b)
		if count_vowels(origterm) <= 1 then
			return a .. b
		else
			return reduce_vowel(a) .. b
		end
	end)
	-- Reduce all vowels after the accent except the first vowel after the accent mark (which is stressed).
	term = rsub(term, "(" .. accents_c .. "[^aɛiɔuɤ#]*[aɛiɔuɤ])([^#" .. accents .. "]*)", function(a, b)
		return a .. reduce_vowel(b)
	end)

	-------------------- Vowel assimilation to adjacent consonants (fronting/raising) ---------------
	term = rsub(term, "([ʃʒʲj])([aouɤ])", "%1%2" .. FRONTED)

	-- Hard l
	term = rsub_repeatedly(term, "l([^ʲɛi])", "ɫ%1")


	-- Voicing assimilation
	term = rsub(term, "([bdɡzʒv" .. TIE .. "]*)(" .. accents_c .. "?[ptksʃfx#])", function(a, b)
		return rsub(a, ".", devoicing) .. b end)
	term = rsub(term, "([ptksʃfx" .. TIE .. "]*)(" .. accents_c .. "?[bdɡzʒ])", function(a, b)
		return rsub(a, ".", voicing) .. b end)
	term = rsub(term, "n(" .. accents_c .. "?[ɡk]+)", "ŋ%1")
	term = rsub(term, "m(" .. accents_c .. "?[fv]+)", "ɱ%1")

	-- -- Correct for clitic pronunciation of с and в
	-- term = rsub(term, "#s# #(.)", "#s" .. TIE .. "%1")
	-- term = rsub(term, "#f# #(.)", "#f" .. TIE .. "%1")
	-- term = rsub(term, "([sfzv]" .. TIE .. ")" .. "(" .. accents_c .. ")", "%2%1")
	-- term = rsub(term, "s" .. TIE .. "(" .. voiced_cons_c .. ")", "z" .. TIE .. "%1")
	-- term = rsub(term, "f" .. TIE .. "(" .. voiced_cons_c .. ")", "v" .. TIE .. "%1")

	-- Sibilant assimilation
	term = rsub(term, "[sz](" .. accents_c .. "?[td]?" .. TIE .. "?)([ʃʒ])", "%2%1%2")

	-- Reduce consonant clusters
	term = rsub(term, "([szʃʒ])[td](" .. accents_c .. "?)([tdknml])", "%2%1%3")

	-- Strip hashes
	term = rsub(term, "#", "")

	return term
end

----Syllabification code----
-- Authorship: Chernorizets
-- Lua port: Kiril Kovachev

local function set_of(t)
	local out = {}

	for _, v in pairs(t) do
		out[v] = true
	end

	return out
end

local function in_set(set, value)
	return set[value] == true
end

-- Classification of letters by phonetic category
local vowels_syllab = set_of {"а", "ъ", "о", "у", "е", "и", "ю", "я"}
local sonorants = set_of { "л", "м", "н", "р", "й", "ў"}
local stops = set_of {"б", "п", "г", "к", "д", "т"}
local fricatives = set_of {"в", "ф", "ж", "ш", "з", "с", "х"}
local affricates = set_of {"ч", "ц"}

local function is_vowel(ch)
    return in_set(vowels_syllab, ch)
end

local function is_consonant(ch)
    return ch == 'щ' or is_sonorant(ch) or is_stop(ch) or is_fricative(ch) or is_affricate(ch)
end

local function is_palatalizer(ch)
	return ch == 'ь'
end

local function is_sonorant(ch)
    return in_set(sonorants, ch)
end

-- Opposite of sonorant.
local function is_obstruent(ch)
        return is_stop(ch) or is_fricative(ch) or is_affricate(ch)
end

local function is_stop(ch)
	return in_set(stops, ch)
end

local function is_fricative(ch)
	return in_set(fricatives, ch)
end

local function is_affricate(ch)
    return in_set(affricates, ch)
end

--[===[
Sonority objects:

Sonority objects take the form of a table with the following attributes:
{
	rank (int): the numerical value representing the position of the sound in the sonority hierarchy;
	first_index (int): the index of the first letter that makes up the sound within the word.
	    The index of the first letter in a word with this sonority rank.
        The affricates "дж" and "дз" are represented by two letters each, but
        for sonority purposes they function as a "unit", hence we just need
		the index of the first letter of the affricate.
}


]===]

local function new_sonority(rank, first_index)
	return {
		["rank"] = rank,
		["first_index"] = first_index
	}
end

local function get_sonority_rank(ch)
    if is_fricative(ch) then
        return 1
	end

    if is_stop(ch) or is_affricate(ch) then
        return 2
    end

    if is_sonorant(ch) then
        return 3
    end

    if is_vowel(ch) then
        return 4
	end

    return 0
end

-- Get the representation of a word as a list of sequential sonority objects, stored in a table.
-- Their representation is just {[1] = (sonority object #1), [2] = (sonority object #2)} etc.
-- Please see above for description of sonority objects' layout.
local function get_sonority_model(word, start_idx, end_idx)
    local sonorities = {}

	word = mw.ustring.lower(word)

	local i = start_idx
	while i < end_idx do
	    local curr = char_at(word, i)
        if curr == "щ" then
            -- One letter representing 2 sounds - decompose it.
            table.insert(sonorities, new_sonority(get_sonority_rank("ш"), i))
            table.insert(sonorities, new_sonority(get_sonority_rank("т"), i));
        elseif curr == "д" then
            -- Handle affricates with 'д' - only 'дж' here for illustration.
            local next_char = (i == end_idx - 1 and " ") or char_at(word, i+1)

			local should_skip = false
            if next_char == "ж" then
                table.insert(sonorities, new_sonority(2, i)) -- 2 = affricate sonority rank
                i = i + 1 -- Skip over the 'ж'
                should_skip = true
            end

            if not should_skip then table.insert(sonorities, new_sonority(get_sonority_rank("д"), i)) end

        elseif not is_palatalizer(curr) then
            -- Skip over 'ь' since it doesn't change the sonority.
            table.insert(sonorities, new_sonority(get_sonority_rank(curr), i))
        end
        i = i + 1
	end

    return sonorities
end

-- Forced breaks when the user inputs a break marker into the input string
-- word: string; start and end are integers indexing the string
local function find_forced_break(word, range_start, range_end)
        if range_start >= range_end then return -1 end

        local marker_pos = mw.ustring.find(word, BREAK_MARKER, range_start, true) or -1
        return marker_pos >= range_end and -1 or marker_pos
end

local function strip_forced_breaks(segment)
    return rsub(segment, "[.]", "");
end

---- Morphological prefix handling
--[==[
	This code brings morphological prefix awareness to syllabification.
	This is necessary, because following the principle of rising sonority
	alone fails to determine syllable boundaries correctly in some cases
    — that is, when certain prefixes should be kept together as a first syllable.
]==]

--[==[
	Affected prefixes. Each of them ends in a consonant that can be followed
	by another consonant of a higher sonority in some words. In such cases,
	naive syllable breaking would chop off the prefix's last consonant, and
	glue it to the onset of the next syllable.
]==]

local prefixes = {
	-- без- family
    "без",

    -- из- family
    "безиз", "наиз", "поиз", "произ", "преиз", "неиз", "из",

    -- въз- family
    "безвъз", "превъз", "невъз", "въз",

    -- раз- family
    "безраз", "предраз", "пораз", "нараз", "прераз", "нераз", "раз",

    -- от- family
    "неот", "поот", "от",

    -- ending in fricatives
    "екс", "таз", "дис",

    -- ending in stops
    "пред"
}

--[==[
    Finds the (zero-based) separation point between a
    morphological prefix and the rest of the word.
    By convention, that's the index of the first character
    after the prefix.

    word: the word to check for prefixes

    return -1 if no prefix found, or if the separation point
    is handled by the sonority model. A non-zero index otherwise.
]==]

-- prefix, word are both strings
local function followed_by_higher_sonority_cons(prefix, word)
	prefix = mw.ustring.lower(prefix)
	word = mw.ustring.lower(word)

    local prefix_last_char = char_at(prefix, mw.ustring.len(prefix))
    local first_char_after_prefix = char_at(word, mw.ustring.len(prefix) + 1)

    -- Prefixes followed by vowels do, in fact, get broken up.
    if is_vowel(first_char_after_prefix) then return false end

    return get_sonority_rank(prefix_last_char) < get_sonority_rank(first_char_after_prefix)
end

local function find_separation_points(word)
	local matching_prefixes = {}

	word = mw.ustring.lower(word)

	for _, prefix in pairs(prefixes) do
		if starts_with(word, prefix) and followed_by_higher_sonority_cons(prefix, word) then
			table.insert(matching_prefixes, mw.ustring.len(prefix) + 1)
		end
	end

	return matching_prefixes

end

---- Main syllabification code

---Context objects:
--[==[ encoded as a table like
{
	word (string),
	prefix_separation_points (table[int])
}

]==]

local function new_context(word, pos)
	return {
		["word"] = word,
		["prefix_separation_points"] = pos
	}
end

--[==[
    Consonant clusters that exhibit rising sonority, but should be
    broken up regardless to produce natural-sounding syllables.
    The breakpoint for clusters of 3 or more consonants can vary -
    here we provide a zero-based offset within the cluster for each.
]==]
local sonority_exception_break = {
	["км"] = 1, ["гм"] = 1, ["дм"] = 1, ["вм"] = 1,
    ["зм"] = 1, ["цм"] = 1, ["чм"] = 1,
    ["дн"] = 1, ["вн"] = 1, ["тн"] = 1, ["чн"] = 1,
    ["кн"] = 1, ["гн"] = 1, ["цн"] = 1,
    ["зд"] = 1, ["зч"] = 1, ["зц"] = 1,
    ["вк"] = 1, ["вг"] = 1, ["дл"] = 1, ["жд"] = 1,
    ["згн"] = 1, ["здн"] = 2, ["вдж"] = 1
}

local sonority_exception_keep = {
    "ств", "св", "вс"
}

local function normalize_word(word)
    if word == nil then return "" end

    word = rsub(rsub(word, "^\\s+", ""), "\\s+^", "") -- Strip spaces
    return word
end

local function normalize_syllable(syllable)
    local normalized = strip_forced_breaks(syllable)
    normalized = rsub(normalized, "ў", "у")
    normalized = rsub(normalized, "Ў", "У")
    return normalized
end

local function find_rising_sonority_break(sonorities)
    local prev_rank = -1;

    for _, curr in pairs(sonorities) do
        if curr.rank <= prev_rank then
            -- Found a break.
            return curr.first_index
        end

        prev_rank = curr.rank
    end

    -- There was no rising sonority break. Start syllable at first index.
    return sonorities[1].first_index
end

local function matches(str, substr, start_idx, end_idx)
    local strlen = end_idx - start_idx
    if strlen ~= mw.ustring.len(substr) then return false end

	str = mw.ustring.lower(str)
	substr = mw.ustring.lower(substr)

	local i = start_idx
	local j = 1
	while i < end_idx do
		if char_at(str, i) ~= char_at(substr, j) then return false end
		i = i + 1
		j = j + 1
	end

    return true
end

-- ctx: context object
-- left and right vowels: integers
-- sonority break: integer
local function fixup_syllable_onset(ctx, left_vowel, sonority_break, right_vowel)
    local word = mw.ustring.lower(ctx.word)

    -- 'щр' is a syllable onset when in front of a vowel.
    -- Although 'щ' + sonorant technically follows rising sonority, syllables
    -- like щнV, щлV etc. are unnatural and incorrect. In such cases, we treat
    -- the sonorant as the onset of the next syllable.
    if char_at(word, right_vowel - 2) == "щ" then
        local penult = char_at(word, right_vowel - 1)

        if penult == "р" then return (right_vowel - 2) end
        if is_sonorant(penult) then return (right_vowel - 1) end
    end

    -- Check for situations where we shouldn't break the cluster.
    local match_found = false
    for _, cluster in pairs(sonority_exception_keep) do
    	if matches(word, cluster, left_vowel + 1, right_vowel) then
    		match_found = true
    		break
    	end
    end

    if (match_found) then return left_vowel + 1 end -- syllable onset == beginning of cluster

    -- Check for situations where we should break the cluster even if
    -- it obeys the principle of rising sonority.
    local maybe_cluster = nil
    for cluster, _ in pairs(sonority_exception_break) do
    	if matches(word, cluster, left_vowel + 1, right_vowel) then
    		maybe_cluster = cluster
    		break
    	end
    end

    if maybe_cluster ~= nil then
        local offset = sonority_exception_break[maybe_cluster]
        return left_vowel + 1 + offset
    end

    local separation_points = ctx.prefix_separation_points
    local separation_match = nil
    for _, pos in pairs(separation_points) do
    	if pos > left_vowel and pos < right_vowel then
    		separation_match = pos
    		break
    	end
    end

    if separation_match ~= nil then return separation_match else return sonority_break end
end

-- ctx: context object
-- left/right vowels: integers
local function find_next_syllable_onset(ctx, left_vowel, right_vowel)
    local n_cons = right_vowel - left_vowel - 1

    -- No consonants - syllable starts on rightVowel
    if n_cons == 0 then return right_vowel end

    -- Check for forced breaks
    local break_pos = find_forced_break(ctx.word, left_vowel + 1, right_vowel)
    if break_pos ~= -1 then return break_pos + 1 end

    -- Single consonant between two vowels - starts a syllable
    if n_cons == 1 then return left_vowel + 1 end

    -- Two or more consonants between the vowels. Find the point (if any)
    -- where we break from rising sonority, and treat it as the tentative
    -- onset of a new syllable.
    local sonorities = get_sonority_model(ctx.word, left_vowel + 1, right_vowel)
    local sonority_break = find_rising_sonority_break(sonorities)

    -- Apply exceptions to the rising sonority principle to avoid
    -- unnatural-sounding syllables.
    return fixup_syllable_onset(ctx, left_vowel, sonority_break, right_vowel)
end

-- Returns a table of strings (list)
local function syllabify_poly(word)
    local syllables = {}

    local ctx = new_context(word, find_separation_points(word))

    local prev_vowel = -1
    local prev_onset = 1;

    for i = 1, mw.ustring.len(word) do
	    if is_vowel(mw.ustring.lower(char_at(word, i))) then
	        -- A vowel, yay!
	        local should_skip = false
	        if prev_vowel == -1 then
	            prev_vowel = i
	            should_skip = true;
	        end

	        -- This is not the first vowel we've seen. In-between
	        -- the previous vowel and this one, there is a syllable
	        -- break, and the first character after the break starts
	        -- a new syllable.
	        if not should_skip then
		        local next_onset = find_next_syllable_onset(ctx, prev_vowel, i)
		        table.insert(syllables, substring(word, prev_onset, next_onset - 1))
		        prev_vowel = i
		        prev_onset = next_onset
			end
	    end

    end

    -- Add the last syllable
    table.insert(syllables, substring(word, prev_onset))

    return syllables
end

function export.syllabify_word(word)
    local norm = normalize_word(word)

    if mw.ustring.len(norm) == 0 then return "" end;

    local n_vowels = count_vowels(norm)
    local syllables = n_vowels <= 1 and {norm} or syllabify_poly(norm)

	local out = {}
	for k, v in pairs(syllables) do
		out[k] = normalize_syllable(v)
	end

    return table.concat(out, HYPH)
end

function tokenize_words(term)
	local out = {}
	local prev_index = 1
	for i = 1, mw.ustring.len(term) do
		local current_char = char_at(term, i)
		if current_char == "-" or current_char == " " then
			table.insert(out, substring(term, prev_index, i))
			prev_index = i + 1
		end
	end
	table.insert(out, substring(term, prev_index, i))
	return out
end

function export.syllabify(term)
	local words = tokenize_words(term)

	local out = {}
	for _, word in pairs(words) do
		table.insert(out, export.syllabify_word(word))
	end
	return table.concat(out, "")
end

---Hyphenation

-- Hyphenate a word from its existing syllabification
function export.hyphenate(syllabification)
    -- Source: http://logic.fmi.uni-sofia.bg/hyphenation/hyph-bg.html#hyphenation-rules-between-1983-and-2012
    -- Also note: the rules from 2012 onward, which encode the modern standard, are entirely
    -- backwards-compatible with the previous standard. Thus our code can generate valid 2012
    -- hyphenations despite following the older rules.

    ---Pre-processing----
	word = rsub(syllabification, "[" .. GRAVE .. ACUTE .. "]", "") -- Remove accent marks
    word = rsub_repeatedly(word, HYPH .. "дж", HYPH .. "#")
    word = rsub_repeatedly(word, "дж$", "#")
    word = rsub_repeatedly(word, "^дж", "#")
    word = rsub_repeatedly(word, "(" .. hvowels_c .. ")" .. HYPH .. "(" .. hcons_c .. ")(" .. rsub(hcons_c, '[ьЬ]', '') .. "+)", "%1%2" .. HYPH .. "%3")
    word = rsub_repeatedly(word, "(" .. rsub(hcons_c, "[йЙ]", "") .. ")(" .. hcons_c .. "+)" .. HYPH, "%1" .. HYPH .. "%2")
    word = rsub_repeatedly(word, "^(" .. hvowels_c .. ")" .. HYPH, "%1")
    word = rsub_repeatedly(word, HYPH .. "(" .. hvowels_c .. ")$", "%1")
    word = rsub_repeatedly(word, "(" .. hvowels_c .. ")" .. HYPH .. "(" .. hvowels_c .. ")" .. HYPH .. "(" .. hvowels_c .. ")", "%1%2" .. HYPH .. "%3")
    word = rsub_repeatedly(word, HYPH .. "(" .. hvowels_c .. ")" .. HYPH .. "(" .. hcons_c .. ")", HYPH .. "%1%2")
    word = rsub_repeatedly(word, "#", "дж")
    return word
end

-- Hyphenate a word directly, no need to calculate its syllabification beforehand
function export.hyphenate_total(word)
	syllabification = export.syllabify(word)
	return export.hyphenate(syllabification)
end

local function get_anntext(term, ann)
	if ann == "1" or ann == "y" then
		-- remove secondary stress annotations
		anntext = "'''" .. export.remove_pron_notations(term, true) .. "''':&#32;"
	elseif ann then
		anntext = "'''" .. ann .. "''':&#32;"
	else
		anntext = ""
	end
	return anntext
end

local HYPHENATION_LABEL = "Hyphenation<sup>([[Appendix:Bulgarian hyphenation#Hyphenation|key]])</sup>"
local SYLLABIFICATION_LABEL = "Syllabification<sup>([[Appendix:Bulgarian hyphenation#Syllabification|key]])</sup>"

local function format_hyphenation(hyphenation, label)
	local syllables = rsplit(hyphenation, HYPH)
	label = label or HYPHENATION_LABEL

	return require("Module:hyphenation").format_hyphenations {
		lang = lang,
		hyphs = { { hyph = syllables } },
		sc = script,
		caption = label,
	}

end

-- Entry point to {{bg-hyph}}
function export.show_hyphenation(frame)
	local params = {
		[1] = {},
	}

	local title = mw.title.getCurrentTitle()

	local args = require("Module:parameters").process(frame:getParent().args, params)
	local term = args[1] or title.nsText == "Template" and "при́мер" or title.text

	local syllabification = export.syllabify(term)
	syllabification = rsub(syllabification, "[" .. ACUTE .. GRAVE .. "]", "")
	local hyphenation = export.hyphenate(syllabification)

	local out
	-- Users must put a * before the template usage
	if syllabification == hyphenation then
		out = format_hyphenation(syllabification)
	else
		local syllabification_text = format_hyphenation(syllabification, SYLLABIFICATION_LABEL)
		local hyphenation_text = format_hyphenation(hyphenation)
		out = syllabification_text .. "\n* " .. hyphenation_text
	end

	return out
end

function export.show(frame)
	local params = {
		[1] = {},
		["endschwa"] = { type = "boolean" },
		["ann"] = {},
		["q"] = { type = "qualifier" },
		["qq"] = { type = "qualifier" },
		["a"] = { type = "labels" },
		["aa"] = { type = "labels" },
		["pagename"] = {},
	}

	local args = require("Module:parameters").process(frame:getParent().args, params)
	local term = args[1] or args.pagename or mw.title.getCurrentTitle().nsText == "Template" and "при́мер" or
		mw.loadData("Module:headword/data").pagename

	local ipa = export.toIPA(term, args.endschwa)
	ipa = "[" .. ipa .. "]"
	local ipa_data = {
		lang = lang,
		items = {{ pron = ipa }},
		q = args.q,
		qq = args.qq,
		a = args.a,
		aa = args.aa,
	}

	local ipa_text = require("Module:IPA").format_IPA_full(ipa_data)
	local anntext = get_anntext(term, args.ann)

	return anntext .. ipa_text
end

return export