Module:User:Theknightwho/mn-noun

local export = {} local m_table = require( "Module:table" ) local m_links = require( "Module:links" ) local m_string_utilities = require( "Module:string utilities" ) local lang = require( "Module:languages" ).getByCode( "mn" ) local com = require( "Module:User:Theknightwho/mn-common" ) local iut = require( "Module:inflection utilities" ) local put = require("Module:parse utilities") local m_para = require( "Module:parameters" )

local char = mw.ustring.char local find = mw.ustring.find local format = mw.ustring.format local len = require( "Module:string" ).ulen local match = mw.ustring.match local gmatch = mw.ustring.gmatch local sub = mw.ustring.sub local gsub = mw.ustring.gsub local lower = mw.ustring.lower local split = mw.text.split local reverse = require( "Module:string" ).reverse local upper = mw.ustring.upper table.append = require( "Module:table" ).append

local FVS = "[" .. com.FVS1 .. com.FVS2 .. com.FVS3 .. com.FVS4 .. "]"

local n = char( 0xFFF0 ) local g = char( 0xFFF1 ) local bor = char( 0xFFF2 ) local Russian = char( 0xFFF3 ) local proper = char( 0xFFF4 )

local output_noun_slots = { attr = "attr|form", nom_sg = "nom|s", gen_sg = "gen|s", acc_sg = "acc|s", dat_loc_sg = "dat|-|loc|s", gen_dat_sg = "gen|-|dat|s", abl_sg = "abl|s", dat_abl_sg = "dat|-|abl|s", ins_sg = "ins|s", com_sg = "com|s", priv_sg = "priv|s", dirc_sg = "dirc|s", nom_pl = "nom|p", gen_pl = "gen|p", acc_pl = "acc|p", dat_loc_pl = "dat|-|loc|p", gen_dat_pl = "gen|-|dat|p", abl_pl = "abl|p", dat_abl_pl = "dat|-|abl|p", ins_pl = "ins|p", com_pl = "com|p", priv_pl = "priv|p", dirc_pl = "dirc|p", spos_indgen_sg = "spos|indgen|s", cpos_indgen_sg = "cpos|indgen|s", spos_indgen_pl = "spos|indgen|p", cpos_indgen_pl = "cpos|indgen|p", spos_indloc_sg = "spos|indloc|s", cpos_indloc_sg = "cpos|indloc|s", spos_indloc_pl = "spos|indloc|p", cpos_indloc_pl = "cpos|indloc|p", nom_sg_refl = "refl poss|form|of the|nom|s", gen_sg_refl = "refl poss|form|of the|gen|s", acc_sg_refl = "refl poss|form|of the|acc|s", dat_loc_sg_refl = "refl poss|form|of the|dat|-|loc|s", gen_dat_sg_refl = "refl poss|form|of the|gen|-|dat|s", abl_sg_refl = "refl poss|form|of the|abl|s", dat_abl_sg_refl = "refl poss|form|of the|dat|-|abl|s", ins_sg_refl = "refl poss|form|of the|ins|s", com_sg_refl = "refl poss|form|of the|com|s", priv_sg_refl = "refl poss|form|of the|priv|s", dirc_sg_refl = "refl poss|form|of the|dirc|s", nom_pl_refl = "refl poss|form|of the|nom|p", gen_pl_refl = "refl poss|form|of the|gen|p", acc_pl_refl = "refl poss|form|of the|acc|p", dat_loc_pl_refl = "refl poss|form|of the|dat|-|loc|p", gen_dat_pl_refl = "refl poss|form|of the|gen|-|dat|p", abl_pl_refl = "refl poss|form|of the|abl|p", dat_abl_pl_refl = "refl poss|form|of the|dat|-|abl|p", ins_pl_refl = "refl poss|form|of the|ins|p", com_pl_refl = "refl poss|form|of the|com|p", priv_pl_refl = "refl poss|form|of the|priv|p", dirc_pl_refl = "refl poss|form|of the|dirc|p", nom = "nom", gen = "gen", acc = "acc", dat_loc = "dat|loc", abl = "abl", ins = "ins", com = "com", priv = "priv", dirc = "dirc", nom_refl = "refl poss|form|of the|nom", gen_refl = "refl poss|form|of the|gen", acc_refl = "refl poss|form|of the|acc", dat_loc_refl = "refl poss|form|of the|dat|-|loc", abl_refl = "refl poss|form|of the|abl", ins_refl = "refl poss|form|of the|ins", com_refl = "refl poss|form|of the|com", priv_refl = "refl poss|form|of the|priv", dirc_refl = "refl poss|form|of the|dirc", }

local output_noun_slots_with_linked = m_table.shallowcopy( output_noun_slots ) output_noun_slots_with_linked["nom_sg_linked"] = "nom|s" output_noun_slots_with_linked["nom_pl_linked"] = "nom|p"

local input_params_to_slots_both = { [1] = "attr", [2] = "nom_sg", [3] = "gen_sg", [4] = "acc_sg", [5] = "dat_loc_sg", [6] = "gen_dat_sg", [7] = "abl_sg", [8] = "dat_abl_sg", [9] = "ins_sg", [10] = "com_sg", [11] = "priv_sg", [12] = "dirc_sg", [13] = "nom_pl", [14] = "gen_pl", [15] = "acc_pl", [16] = "dat_loc_pl", [17] = "gen_dat_pl", [18] = "abl_pl", [19] = "dat_abl_pl", [20] = "ins_pl", [21] = "com_pl", [22] = "priv_pl", [23] = "dirc_pl", [24] = "spos_indgen_sg", [25] = "cpos_indgen_sg", [26] = "spos_indgen_pl", [27] = "cpos_indgen_pl", [28] = "spos_indloc_sg", [29] = "cpos_indloc_sg", [30] = "spos_indloc_pl", [31] = "cpos_indloc_pl", [32] = "nom_sg_refl", [33] = "gen_sg_refl", [34] = "acc_sg_refl", [35] = "dat_loc_sg_refl", [36] = "gen_dat_sg_refl", [37] = "abl_sg_refl", [38] = "dat_abl_sg_refl", [39] = "ins_sg_refl", [40] = "com_sg_refl", [41] = "priv_sg_refl", [42] = "dirc_sg_refl", [43] = "nom_pl_refl", [44] = "gen_pl_refl", [45] = "acc_pl_refl", [46] = "dat_loc_pl_refl", [47] = "gen_dat_pl_refl", [48] = "abl_pl_refl", [49] = "dat_abl_pl_refl", [50] = "ins_pl_refl", [51] = "com_pl_refl", [52] = "priv_pl_refl", [53] = "dirc_pl_refl", }

local input_params_to_slots_sg = { [1] = "attr", [2] = "nom_sg", [3] = "gen_sg", [4] = "acc_sg", [5] = "dat_loc_sg", [6] = "gen_dat_sg", [7] = "abl_sg", [8] = "dat_abl_sg", [9] = "ins_sg", [10] = "com_sg", [11] = "priv_sg", [12] = "dirc_sg", [13] = "spos_indgen_sg", [14] = "cpos_indgen_sg", [15] = "spos_indloc_sg", [16] = "cpos_indloc_sg", [17] = "nom_sg_refl", [18] = "gen_sg_refl", [19] = "acc_sg_refl", [20] = "dat_loc_sg_refl", [21] = "gen_dat_sg_refl", [22] = "abl_sg_refl", [23] = "dat_abl_sg_refl", [24] = "ins_sg_refl", [25] = "com_sg_refl", [26] = "priv_sg_refl", [27] = "dirc_sg_refl", }

local input_params_to_slots_pl = { [1] = "attr", [2] = "nom_pl", [3] = "gen_pl", [4] = "acc_pl", [5] = "dat_loc_pl", [6] = "gen_dat_pl", [7] = "abl_pl", [8] = "dat_abl_pl", [9] = "ins_pl", [10] = "com_pl", [11] = "priv_pl", [12] = "dirc_pl", [13] = "spos_indgen_pl", [14] = "cpos_indgen_pl", [15] = "spos_indloc_pl", [16] = "cpos_indloc_pl", [17] = "nom_pl_refl", [18] = "gen_pl_refl", [19] = "acc_pl_refl", [20] = "dat_loc_pl_refl", [21] = "gen_dat_pl_refl", [22] = "abl_pl_refl", [23] = "dat_abl_pl_refl", [24] = "ins_pl_refl", [25] = "com_pl_refl", [26] = "priv_pl_refl", [27] = "dirc_pl_refl", }

local input_params_to_slots_poss = { [1] = "nom", [2] = "gen", [3] = "acc", [4] = "dat_loc", [5] = "abl", [6] = "ins", [7] = "com", [8] = "priv", [9] = "dirc", [10] = "nom_refl", [11] = "gen_refl", [12] = "acc_refl", [13] = "dat_loc_refl", [14] = "abl_refl", [15] = "ins_refl", [16] = "com_refl", [17] = "priv_refl", [18] = "dirc_refl", }

local cases = { attr = true, nom = true, gen = true, dat_loc = true, gen_dat = true, acc = true, abl = true, dat_abl = true, ins = true, com = true, priv = true, dirc = true, }

local accented_cases = { ["áttr"] = "attr", ["nóm"] = "nom", ["gén"] = "gen", ["dátloc"] = "dat_loc", ["géndat"] = "gen_dat", ["ácc"] = "acc", ["ábl"] = "abl", ["dátabl"] = "dat_abl", ["íns"] = "ins", ["cóm"] = "com", ["prív"] = "priv", ["dírc"] = "dirc", }

local function skip_slot( number, slot ) return number == "sg" and find( slot, "_p$" ) or		number == "pl" and find( slot, "_s$" ) end

local function add( data, slot, stem_and_ending, footnotes ) local stem local ending if not stem_and_ending then return end if skip_slot( data.number, slot ) then return end if type( stem_and_ending ) == "string" then stem = stem_and_ending ending = "" else stem = stem_and_ending[1] ending = stem_and_ending[2] end iut.add_forms( data.forms, slot, stem, ending, com.combine_stem_ending, lang ) end

local function process_slot_overrides( data, do_slot ) for slot, overrides in pairs( data.overrides ) do		if skip_slot( data.number, slot ) then error( "Override specified for invalid slot '" .. slot .. "' due to '" .. data.number .. "' number restriction" ) end if do_slot( slot ) then data.forms[slot] = nil local slot_is_plural = find( slot, "_p$" ) for _, override in ipairs( overrides ) do				for _, value in ipairs( override.values ) do					local form = value.form local combined_notes = iut.combine_footnotes( data.footnotes, value.footnotes ) end end end end end

local function preprocess_inflection( infl ) local params = {} if match( infl, n ) then params.n = true elseif match( infl, g ) then params.g = true end if match( infl, Russian ) then params.bor = "Russian" elseif match( infl, bor ) then params.bor = true end if match( infl, proper ) then params.proper = true end infl = gsub( infl, "[" .. n .. g .. bor .. Russian .. proper .. "]", "" ) local infl_orig = gsub( infl, com.stem_barrier, "" ) return infl, params, infl_orig end

local function vowelharmony( infl, data ) return com.vowelharmony( infl, data )[#com.vowelharmony( infl, data )] end

local function propernoun( infl ) if sub( infl, 1, 1 ) ~= lower( sub( infl, 1, 1 ) ) then return true else return false end end

local function insert_stem_barrier( data ) local syllables = com.syllables( data.lemma ) if #syllables > 1 and data.bor then syllables[#syllables] = syllables[#syllables] .. com.stem_barrier else if #syllables > 1 then syllables[#syllables-1] = syllables[#syllables-1] .. com.stem_barrier end end return table.concat( syllables ) end

local function hidden_n( infl, params, vh ) infl = gsub( infl, n, "" ) local vh = vh or vowelharmony( infl, params ) local infl_no_stress = gsub( lang:makeEntryName( infl ), com.stem_barrier, "" ) local matches = { { { match( infl_no_stress, "[аеёийоөуүыэюя]$" ) }, "н" },		{ { match( infl_no_stress, "[жчшщь]$" ) }, "ин" },		{ { match( infl_no_stress, "[бвгдзклмнпрстфхц]$" ) }, vh.Cyrl.a .. "н" },		{ { match( infl_no_stress, "[ᠠ-ᠧᠶ]" .. FVS .. "?$" ) }, "ᠨ" },		{ { match( infl_no_stress, "[ᠨ-ᠵᠷ-ᡂ]" .. FVS .. "?$" ) }, vh.Mong.u .. "ᠨ" }	}	for s,t in ipairs( matches ) do		for _,m in pairs( t[1] ) do			if m then infl = gsub( infl, com.MVS, "" ) if match( infl_no_stress, "ь$" ) then return sub( infl, 1, len( infl ) - 1 ) .. t[2], {} else return infl .. t[2], {} end end end end end

local function hidden_g( infl ) infl = gsub( infl, g, "" ) return infl .. "г" end

local function attributive( infl, vh ) local infl, params = preprocess_inflection( infl ) if params.n then infl = hidden_n( infl, params, vh ) end return com.remove_penultimate_short_vowel( infl, params ) end

local function plural( infl, vh ) local infl, params, infl_orig = preprocess_inflection( infl ) if params.n then infl, params = hidden_n( infl, params, vh ) elseif params.g then infl = hidden_g( infl ) end local vh = vh or vowelharmony( infl, params ) local infl_no_fv, no_fv = com.remove_final_short_vowel( infl, params ) local infl_no_stress = gsub( lang:makeEntryName( infl ), com.stem_barrier, "" ) local infl_no_fv_no_stress = gsub( lang:makeEntryName( infl_no_fv ), com.stem_barrier, "" ) local matches = { { {			match( infl_no_stress, "ч.н$" ), match( infl_no_stress, "ён$" ) },			"д" },		{ { match( infl_no_stress, "[йы]$" ) }, "н" .. vh.Cyrl.uu .. "д" },		{ {			match( infl_no_stress, "[аеёийоөуүэюя][аоөуүэ]$" ), match( infl_no_fv_no_stress, "[бвгджзклмнпрстфхцчшщ][аоөуүэ]$" ), -- C[уү], and also loanwords with a word-final long vowel written as a single vowel match( infl_no_stress, "[еёюя]$" ) and params.bor },			"г" .. vh.Cyrl.uu .. "д" },		{ { match( infl_no_stress, "[иь]$" ) }, "и" .. vh.Cyrl.u .. "д" },		{ { match( infl_no_stress, "[еёюя]$" ) }, vh.Cyrl.u .. "д" },		{ { match( infl_no_stress, "[бвгджзклмнпрстфхцчшщ][аоөэ]?$" ) }, vh.Cyrl.uu .. "д" },		{ { match( infl_orig, "[ᠴᠶ][ᠠᠡᠢᠣᠤᠥᠦᠧᠶ]ᠨ$" ) }, "ᠳ" },		{ { match( infl_no_stress, "[ᠠ-ᠨᠶ]" .. FVS .. "?$" ) }, com.NNBSP .. "ᠨ" .. vh.Mong.u .. "ᠭ" .. vh.Mong.u .. "ᠳ" },		{ { match( infl_no_stress, "[ᠩ-ᠵᠷ-ᡂ]" .. FVS .. "?$" ) }, com.NNBSP .. vh.Mong.u .. "ᠳ" }	}	for s,t in ipairs( matches ) do		for _,m in pairs( t[1] ) do			if match( infl_no_stress, "^хүн$" ) then return "хүмүүс" elseif t[2] == "д" or t[2] == "ᠳ" then return sub( infl, 1, len( infl ) - 1 ) .. t[2] else if m and no_fv then return infl_no_fv .. t[2] elseif m then return com.remove_penultimate_short_vowel( infl .. t[2], params ) end end end end end

local function genitive( infl, vh ) local infl, params = preprocess_inflection( infl ) if params.n then infl, params = hidden_n( infl, params, vh ) elseif params.g then infl = hidden_g( infl ) end local vh = vh or vowelharmony( infl, params ) local infl_no_fv, no_fv = com.remove_final_short_vowel( infl, params ) local infl_no_stress = gsub( lang:makeEntryName( infl ), com.stem_barrier, "" ) local infl_no_fv_no_stress = gsub( lang:makeEntryName( infl_no_fv ), com.stem_barrier, "" ) local matches = { { { match( infl_no_stress, "н$" ) }, vh.Cyrl.ii		}, { {			match( infl_no_stress, "[йы]$" ), match( infl_no_fv_no_stress, "и$" ) },			"н" },		{ {			match( infl_no_stress, "[аеёийоөуүэюя][аоөуүэ]$" ), match( infl_no_fv_no_stress, "[бвгджзклмнпрстфхцчшщ][аоөуүэ]$" ), -- C[уү], and also loanwords with a word-final long vowel written as a single vowel match( infl_no_stress, "[еёюя]$" ) and params.bor },			"гийн" },		{ { match( infl_no_stress, "[гжикчшщь]$" ) }, "ийн" },		{ {			match( infl_no_stress, "[бвдзлмпрстфхц]$" ), match( infl_no_stress, "[еёюя]$" ), match( infl_no_stress, "[бвгджзклмнпрстфхцчшщ][аоөэ]$" ) -- not C[уү] },			vh.Cyrl.ii .. "н" },		{ { match( infl_no_stress, "[ᠠ-ᠧᠶ]" .. FVS .. "?$" ) }, com.NNBSP .. "ᠶᠢᠨ" },		{ { match( infl_no_stress, "ᠨ" .. FVS .. "?$" ) }, com.NNBSP .. vh.Mong.u		}, { { match( infl_no_stress, "[ᠩ-ᠵᠷ-ᡂ]" .. FVS .. "?$" ) }, com.NNBSP .. vh.Mong.u .. "ᠨ" }	}	for s,t in ipairs( matches ) do		for _,m in pairs( t[1] ) do			if m and no_fv then return infl_no_fv .. t[2] elseif m then return com.remove_penultimate_short_vowel( infl .. t[2], params ) end end end end

local function accusative( infl, vh ) local infl, params = preprocess_inflection( infl ) if params.n then infl = gsub( infl, n, "" ) elseif params.g then return infl .. "г" end local vh = vh or vowelharmony( infl, params ) local infl_no_fv, no_fv = com.remove_final_short_vowel( infl, params ) local infl_no_stress = gsub( lang:makeEntryName( infl ), com.stem_barrier, "" ) local infl_no_fv_no_stress = gsub( lang:makeEntryName( infl_no_fv ), com.stem_barrier, "" ) local matches = { { {			match( infl_no_stress, "[йы]$" ), match( infl_no_stress, "[аеёийоөуүэюя][аоөуүэ]$" ), match( infl_no_fv_no_stress, "[бвгджзклмнпрстфхцчшщ][аоөуүэ]$" ), -- C[уү], and also loanwords with a word-final long vowel written as a single vowel match( infl_no_fv_no_stress, "и$" ), match( infl_no_stress, "[еёюя]$" ) and params.bor },			"г" },		{ { match( infl_no_stress, "[гжикчшщь]$" ) }, "ийг" },		{ {			match( infl_no_stress, "[бвдзлмнпрстфхц]$" ), match( infl_no_stress, "[еёюя]$" ), match( infl_no_stress, "[бвгджзклмнпрстфхцчшщ][аоөэ]$" ) -- not C[уү] },			vh.Cyrl.ii .. "г" },		{ { match( infl_no_stress, "[ᠠ-ᠧᠶ]" .. FVS .. "?$" ) }, com.NNBSP .. "ᠶᠢ" },		{ { match( infl_no_stress, "[ᠨ-ᠵᠷ-ᡂ]" .. FVS .. "?$" ) }, com.NNBSP .. "ᠢ" }	}	for s,t in ipairs( matches ) do		for _,m in pairs( t[1] ) do			if m and no_fv then return infl_no_fv .. t[2] elseif m then return com.remove_penultimate_short_vowel( infl .. t[2], params ) end end end end

local function dative_locative( infl, vh ) local infl, params = preprocess_inflection( infl ) if params.n then infl = hidden_n( infl, params, vh ) end local vh = vh or vowelharmony( infl, params ) local syllable_count = #com.syllables( infl ) local infl_no_fv = com.remove_final_short_vowel( infl, params ) local infl_no_stress = gsub( lang:makeEntryName( infl ), com.stem_barrier, "" ) local infl_no_fv_no_stress = gsub( lang:makeEntryName( infl_no_fv ), com.stem_barrier, "" ) local vowel = "[аеёийоөуүэюяы]" local consonant = "[бвгджзклмнпрстфхцчшщ]" local matches = { { {			match( infl_no_stress, "[гкф]$" ) or match( infl_no_stress, "[^бвгклмнф]п$" ), ( match( infl_no_stress, "в$" ) or match( infl_no_stress, "[^вгклмнпф]б$" ) ) and ( syllable_count ~= 1 or match( infl_no_stress, "^" .. consonant .. consonant ) ), match( infl_no_stress, vowel .. vowel .. "[рс]$" ) or match( infl_no_stress, consonant .. "р$" ), ( match( infl_no_stress, "р$" ) or match( infl_no_stress, vowel .. "с$" ) ) and ( syllable_count ~= 1 or params.proper ), match( infl_no_stress, vowel .. "[бгкпсф]ь?с$" ), match( infl_no_stress, "[влмнр]ьс$" ), match( infl_no_stress, "и[влмнр]с$" ), },			"т" },		{ {			match( infl_no_stress, vowel .. "$" ), match( infl_no_stress, "[^вгклмнпф]б$" ), match( infl_no_stress, "[влмнр]$" ), match( infl_no_stress, "[бвгклмнпрф]ь$" ), },			"д" },		{ {			match( infl_no_stress, "[жчшщ]ь?$" ), match( infl_no_stress, "[дзстфхц]ь$" ) },			"ид" },		{ { match( infl_no_stress, "[ᠪ-ᠭᠰ-ᠵᠷ-ᡂ]" .. FVS .. "?$" ) }, com.NNBSP .. "ᠲ" .. vh.Mong.u		}, { { match( infl_no_stress, "[ᠠ-ᠩᠮᠯᠶ]" .. FVS .. "?$" ) }, com.NNBSP .. "ᠳ" .. vh.Mong.u		}, { { match( infl_no_stress, ".$" ) }, vh.Cyrl.a .. "д" }	}	for s,t in ipairs( matches ) do		for _,m in pairs( t[1] ) do			if m then if match( infl_no_stress, "[джзстхцчшщ]ь$" ) then return infl_no_fv .. t[2] else return com.remove_penultimate_short_vowel( infl .. t[2], params ) end end end end end

local function aa( infl, params ) local vh = vh or vowelharmony( infl, params ) local infl_no_fv, no_fv = com.remove_final_short_vowel( infl, params ) local infl_no_stress = gsub( lang:makeEntryName( infl ), com.stem_barrier, "" ) local infl_no_fv_no_stress = gsub( lang:makeEntryName( infl_no_fv ), com.stem_barrier, "" ) local matches = { { {			match( infl_no_stress, "[йы]$" ), match( infl_no_stress, "[аеёийоөуүэюя][аоөуүэ]$" ), match( infl_no_fv_no_stress, "[бвгджзклмнпрстфхцчшщ][аоөуүэ]$" ), -- C[уү], and also loanwords with a word-final long vowel written as a single vowel match( infl_no_fv_no_stress, "и$" ), match( infl_no_stress, "[еёюя]$" ) and params.bor },			"г" .. vh.Cyrl.aa		}, { { match( infl_no_stress, "[еёюя]$" ) }, vh.Cyrl.a		}, { { match( infl_no_stress, "[иь]$" ) }, "и" .. vh.Cyrl.a		}, { {			match( infl_no_stress, "[бвгджзклмнпрстфхцчшщ]$" ), match( infl_no_stress, "[бвгджзклмнпрстфхцчшщ][аоөэ]$" ) -- not C[уү] },			vh.Cyrl.aa		} }	for s,t in ipairs( matches ) do		for _,m in pairs( t[1] ) do			if m and no_fv then return infl_no_fv .. t[2] elseif m then return infl .. t[2] end end end end

local function ablative( infl, vh ) local infl, params = preprocess_inflection( infl ) if params.n then infl, params = hidden_n( infl, params, vh ) elseif params.g then infl = hidden_g( infl ) end local vh = vh or vowelharmony( infl, params ) if match( infl, com.NNBSP .. "[ᠲᠳ]" .. vh.Mong.u .. "$" ) then return sub( infl, 1, len( infl ) - 1 ) .. vh.Mong.a .. "ᠴ" .. vh.Mong.a	elseif match( infl, "[ᠠ-ᡂ]" .. FVS .. "?$" ) then return infl .. com.NNBSP .. vh.Mong.a .. "ᠴ" .. vh.Mong.a	else return com.remove_penultimate_short_vowel( aa( infl, params ) .. "с", params ) end end

local function instrumental( infl, vh ) local infl, params = preprocess_inflection( infl ) if params.g then infl = hidden_g( infl ) end if match( infl, "[ᠠ-ᡂ]" .. FVS .. "?$" ) then local matches = { { { match( infl, "[ᠠ-ᠧᠶ]" .. FVS .. "?$" ) }, com.NNBSP .. "ᠪ" .. vh.Mong.a .. "ᠷ" },			{ { match( infl, "[ᠨ-ᠵᠷ-ᡂ]" .. FVS .. "?$" ) }, com.NNBSP .. "ᠢᠶ" .. vh.Mong.a .. "ᠷ" }		}		for s,t in ipairs( matches ) do			for _,m in pairs( t[1] ) do if m then return infl .. t[2] end end end else return com.remove_penultimate_short_vowel( aa( infl, params ) .. "р", params ) end end

local function reflexive( infl, vh ) local infl, params = preprocess_inflection( infl ) if params.g then infl = hidden_g( infl ) end if match( infl, "[ᠠ-ᡂ]" .. FVS .. "?$" ) then local matches = { { { match( infl, com.NNBSP .. "ᠶ?ᠢ$" ) }, "ᠶ" .. vh.Mong.u .. "ᠭ" .. vh.Mong.a .. "ᠨ" },			{ { match( infl, com.NNBSP .. "[ᠲᠳ]" .. vh.Mong.u .. "$" ) }, vh.Mong.a .. "ᠭ" .. vh.Mong.a .. "ᠨ" },			{ { match( infl, com.NNBSP .. vh.Mong.a .. "ᠴ" .. vh.Mong.a .. "$" ) }, "ᠭ" .. vh.Mong.a .. "ᠨ" },			{ { match( infl, com.NNBSP .. "ᠲ" .. vh.Mong.a .. "ᠢ$" ) }, "ᠶᠢᠭ" .. vh.Mong.a .. "ᠨ" },			{ { match( infl, "[ᠠ-ᠧᠶ]" .. FVS .. "?$" ) }, com.NNBSP .. "ᠪ" .. vh.Mong.a .. "ᠨ" },			{ { match( infl, "[ᠨ-ᠵᠷ-ᡂ]" .. FVS .. "?$" ) }, com.NNBSP .. "ᠢᠶ" .. vh.Mong.a .. "ᠨ" }		}		for s,t in ipairs( matches ) do			for _,m in pairs( t[1] ) do				if m then if match( infl, com.NNBSP .. "ᠶᠢ$" ) then return sub( infl, 1, len( infl ) - 2 ) .. t[2] elseif match( infl, com.NNBSP .. "ᠢ$" ) or match( infl, com.NNBSP .. "[ᠲᠳ]" .. vh.Mong.u .. "$" ) or match( infl, com.NNBSP .. "ᠲ" .. vh.Mong.a .. "ᠢ$" ) then return sub( infl, 1, len( infl ) - 1 ) .. t[2] else return infl .. t[2] end end end end else return com.remove_penultimate_short_vowel( aa( infl, params ), params ) .. n -- unstable nasal end end

local function comitative( infl, vh ) local infl, params = preprocess_inflection( infl ) local vh = vh or vowelharmony( infl, params ) if match( infl, "[ᠠ-ᡂ]" .. FVS .. "?$" ) then return infl .. com.NNBSP .. "ᠲ" .. vh.Mong.a .. "ᠢ" elseif match( infl, "[джзстхцчшщ]ь$" ) then return sub( infl, 1, len( infl ) - 1 ) .. "ит" .. vh.Cyrl.ai	else return com.remove_penultimate_short_vowel( infl .. "т" .. vh.Cyrl.ai, params ) end end

local function privative( infl ) local infl = preprocess_inflection( infl ) if match( infl, "[ᠠ-ᡂ]" .. FVS .. "?$" ) then return infl .. com.NNBSP .. "ᠦᠭᠡᠢ" else return infl .. "гүй" end end

local function directive( infl, vh ) local infl, params = preprocess_inflection( infl ) local vh = vh or vowelharmony( infl, params ) if match( infl, "[ᠠ-ᡂ]" .. FVS .. "?$" ) then return infl .. com.NNBSP .. "ᠤᠷᠤᠭᠤ" elseif match( infl, "рь?$" ) then return infl .. " [[л" .. vh.Cyrl.uu	else		return infl .. " [[р" .. vh.Cyrl.uu	end end

local function equative( infl ) end

local function singular_independent_genitive( infl ) local infl = preprocess_inflection( infl ) if match( infl, "[ᠠ-ᡂ]" .. FVS .. "?$" ) then return infl .. com.NNBSP .. "ᠬᠢ" else return infl .. "х" end end

local function collective_independent_genitive( infl, vh ) local infl, params = preprocess_inflection( infl ) local vh = vh or vowelharmony( infl, params ) if match( infl, "[ᠠ-ᡂ]" .. FVS .. "?$" ) then return infl .. com.NNBSP .. "ᠬᠢᠨ" else return infl .. "х" .. vh.Cyrl.a .. "н" end end

local function handle_derived_slots_and_overrides( data ) data.lemma = insert_stem_barrier( data ) if data.decl == "n" then data.lemma = data.lemma .. n end if data.decl == "g" then data.lemma = data.lemma .. g end if data.bor == "Russian" then data.lemma = data.lemma .. Russian elseif data.bor then data.lemma = data.lemma .. bor end if data.proper then data.lemma = data.lemma .. proper end if data.number ~= "spos" and data.number ~= "cpos" then add( data, "attr", attributive( data.lemma ) ) add( data, "nom_sg", data.lemma ) add( data, "gen_sg", genitive( data.lemma ) ) add( data, "acc_sg", accusative( data.lemma ) ) add( data, "dat_loc_sg", dative_locative( data.lemma ) ) add( data, "abl_sg", ablative( data.lemma ) ) add( data, "ins_sg", instrumental( data.lemma ) ) add( data, "com_sg", comitative( data.lemma ) ) add( data, "priv_sg", privative( data.lemma ) ) add( data, "dirc_sg", directive( data.lemma ) ) add( data, "nom_pl", plural( data.lemma ) ) add( data, "gen_pl", genitive( data.forms["nom_pl"][1].form ) ) add( data, "acc_pl", accusative( data.forms["nom_pl"][1].form ) ) add( data, "dat_loc_pl", dative_locative( data.forms["nom_pl"][1].form ) ) add( data, "abl_pl", ablative( data.forms["nom_pl"][1].form ) ) add( data, "ins_pl", instrumental( data.forms["nom_pl"][1].form ) ) add( data, "com_pl", comitative( data.forms["nom_pl"][1].form ) ) add( data, "priv_pl", privative( data.forms["nom_pl"][1].form ) ) add( data, "dirc_pl", directive( data.forms["nom_pl"][1].form ) ) add( data, "spos_indgen_sg", singular_independent_genitive( data.forms["gen_sg"][1].form ) ) add( data, "cpos_indgen_sg", collective_independent_genitive( data.forms["gen_sg"][1].form ) ) add( data, "spos_indgen_pl", singular_independent_genitive( data.forms["gen_pl"][1].form ) ) add( data, "cpos_indgen_pl", collective_independent_genitive( data.forms["gen_pl"][1].form ) ) --"spos_indloc_sg", --"cpos_indloc_sg", --"spos_indloc_pl", --"cpos_indloc_pl", add( data, "nom_sg_refl", reflexive( data.forms["nom_sg"][1].form ) ) add( data, "gen_sg_refl", reflexive( data.forms["spos_indgen_sg"][1].form ) ) add( data, "acc_sg_refl", reflexive( data.forms["acc_sg"][1].form ) ) add( data, "dat_loc_sg_refl", reflexive( data.forms["dat_loc_sg"][1].form ) ) add( data, "abl_sg_refl", reflexive( data.forms["abl_sg"][1].form ) ) add( data, "ins_sg_refl", reflexive( data.forms["ins_sg"][1].form ) ) add( data, "com_sg_refl", reflexive( data.forms["com_sg"][1].form ) ) add( data, "priv_sg_refl", reflexive( data.forms["priv_sg"][1].form ) ) add( data, "dirc_sg_refl", reflexive( data.forms["dirc_sg"][1].form ) ) add( data, "nom_pl_refl", reflexive( data.forms["nom_pl"][1].form ) ) add( data, "gen_pl_refl", reflexive( data.forms["spos_indgen_pl"][1].form ) ) add( data, "acc_pl_refl", reflexive( data.forms["acc_pl"][1].form ) ) add( data, "dat_loc_pl_refl", reflexive( data.forms["dat_loc_pl"][1].form ) ) add( data, "abl_pl_refl", reflexive( data.forms["abl_pl"][1].form ) ) add( data, "ins_pl_refl", reflexive( data.forms["ins_pl"][1].form ) ) add( data, "com_pl_refl", reflexive( data.forms["com_pl"][1].form ) ) add( data, "priv_pl_refl", reflexive( data.forms["priv_pl"][1].form ) ) add( data, "dirc_pl_refl", reflexive( data.forms["dirc_pl"][1].form ) ) if data.gen_dat then add( data, "gen_dat_sg", dative_locative( data.forms["gen_sg"][1].form ) ) add( data, "gen_dat_pl", dative_locative( data.forms["gen_pl"][1].form ) ) add( data, "gen_dat_sg_refl", reflexive( data.forms["gen_dat_sg"][1].form ) ) add( data, "gen_dat_pl_refl", reflexive( data.forms["gen_dat_pl"][1].form ) ) end if data.dat_abl then add( data, "dat_abl_sg", ablative( data.forms["dat_loc_sg"][1].form ) ) add( data, "dat_abl_sg_refl", reflexive( data.forms["dat_abl_sg"][1].form ) ) end else add( data, "nom", data.lemma ) if data.number == "cpos" then add( data, "gen", genitive( data.lemma ) ) end add( data, "acc", accusative( data.lemma ) ) add( data, "dat_loc", dative_locative( data.lemma ) ) add( data, "abl", ablative( data.lemma ) ) add( data, "ins", instrumental( data.lemma ) ) add( data, "com", comitative( data.lemma ) ) add( data, "priv", privative( data.lemma ) ) add( data, "dirc", directive( data.lemma ) ) add( data, "nom_refl", reflexive( data.forms["nom"][1].form ) ) if data.number == "cpos" then add( data, "gen_refl", reflexive( data.forms["gen"][1].form ) ) end add( data, "acc_refl", reflexive( data.forms["acc"][1].form ) ) add( data, "dat_loc_refl", reflexive( data.forms["dat_loc"][1].form ) ) add( data, "abl_refl", reflexive( data.forms["abl"][1].form ) ) add( data, "ins_refl", reflexive( data.forms["ins"][1].form ) ) add( data, "com_refl", reflexive( data.forms["com"][1].form ) ) add( data, "priv_refl", reflexive( data.forms["priv"][1].form ) ) add( data, "dirc_refl", reflexive( data.forms["dirc"][1].form ) ) end for _,form in pairs( data.forms ) do		for _,variant in ipairs( form ) do variant.form = gsub( variant.form, "[" .. n .. g .. bor .. Russian .. proper .. com.stem_barrier .. "]", "" ) if match( gsub( variant.form, data.orig_lemma, "" ), " " ) then variant.form = variant.form .. "]]" end end end

-- Compute linked versions of potential lemma slots, for use in. -- We substitute the original lemma (before removing links) for forms that -- are the same as the lemma, if the original lemma has links. for _, slot in ipairs( { "nom_sg", "nom_pl" } ) do iut.insert_forms( data.forms, slot .. "_linked", iut.map_forms( data.forms[slot], function( form ) if form == data.orig_lemma_no_links and find( data.orig_lemma, "%[%[" ) then return data.orig_lemma else return form end end ) ) end end

local function fetch_footnotes( separated_group ) local footnotes for j = 2, #separated_group - 1, 2 do		if separated_group[j + 1] ~= "" then error( "Extraneous text after bracketed footnotes: '" .. table.concat( separated_group ) .. "'" ) end if not footnotes then footnotes = {} end table.insert( footnotes, separated_group[j] ) end return footnotes end

local function parse_override( segments, case ) local retval = { values = {} } local part = segments[1] if cases[case] then -- ok	elseif accented_cases[case] then case = accented_cases[case] retval.stemstressed = true else error("Internal error: unrecognized case in override: '" .. table.concat(segments) .. "'") end local rest = sub( part, len(case)+1, len(case)+3 ) local slot if find( rest, "^pl" ) then rest = gsub( rest, "^pl", "" ) slot = case .. "_pl" else slot = case .. "_sl" end if find( rest, "^:" ) then retval.full = true rest = gsub( rest, "^:", "" ) end segments[1] = rest local colon_separated_groups = put.split_alternating_runs( segments, ":" ) for i, colon_separated_group in ipairs( colon_separated_groups ) do		local value = {} local form = colon_separated_group[1] if form == "" then error( "Use - to indicate an empty ending for slot '" .. slot .. "': '" .. table.concat( segments .. "'" ) )		elseif form == "-" then value.form = "" else value.form = form end value.footnotes = fetch_footnotes( colon_separated_group ) table.insert( retval.values, value ) end return slot, retval end

local function parse_indicator_spec( angle_bracket_spec ) local inside = match( angle_bracket_spec, "^<(.*)>$" ) local data = { overrides = {}, forms = {} } if inside ~= "" then local segments = put.parse_balanced_segment_run( inside, "[", "]" ) local dot_separated_groups = put.split_alternating_runs( segments, "%." ) for i, dot_separated_group in ipairs( dot_separated_groups ) do			local part = dot_separated_group[1] local case_prefix for case,_ in pairs( cases ) do if match( part, "^" .. case .. "[:$]" ) then case_prefix = match( part, "^" .. case ) local slot, override = parse_override( dot_separated_group, case_prefix ) if data.overrides[slot] then table.insert( data.overrides[slot], override ) else data.overrides[slot] = { override } end end end if case_prefix ~= nil then elseif part == "" then if #dot_separated_group == 1 then error( "Blank indicator: '" .. inside .. "'" ) end data.footnotes = fetch_footnotes( dot_separated_group ) elseif part == "r" or part == "n" or part == "g" then if data.decl then error( "Can't specify declension twice: '" .. inside .. "'" ) end data.decl = part elseif part == "sg" or part == "pl" or part == "spos" or part == "cpos" then if data.number then error( "Can't specify number twice: '" .. inside .. "'" ) end data.number = part elseif part == "gen_dat" then if data.gen_dat then error( "Can't specify genitive-dative twice: '" .. inside .. "'" ) end data.gen_dat = true elseif part == "dat_abl" then if data.dat_abl then error( "Can't specify dative-ablative twice: '" .. inside .. "'" ) end data.dat_abl = true elseif part == "а" or part == "о" or part == "ө" or part == "э" then if data.vh_override then error( "Can't specify vowel harmony twice: '" .. inside .. "'" ) end data.vh_override = part elseif part == "bor" or part == "Russian" then if data.bor then error( "Can't specify borrowing twice: '" .. inside .. "'" ) end data.bor = part elseif part == "proper" then if data.proper then error( "Can't specify proper noun twice: '" .. inside .. "'" ) end data.proper = true else error( "Unrecognized indicator '" .. part .. "': '" .. inside .. "'" ) end end else error( "Blank indicator: '" .. inside .. "'" ) end return data end

local function set_defaults_and_check_bad_indicators( data ) -- Set default values. if not data.adj then if data.proper then data.number = data.number or "sg" else data.number = data.number or "both" end end end

local function check_indicators_match_lemma( data ) -- Check for indicators that don't make sense given the context. if data.decl == "n" and match( data.lemma, "н$" ) then error( "Hidden-n declension cannot be specified with a lemma ending in н" ) end if data.decl == "g" and not match( data.lemma, "н$" ) then error( "Hidden-g declension can only be specified with a lemma ending in н" ) end end

local function detect_indicator_spec( data ) if propernoun( data.lemma ) then data.proper = true end set_defaults_and_check_bad_indicators( data ) check_indicators_match_lemma( data ) end

local function detect_all_indicator_specs( alternant_multiword_spec ) local is_multiword = #alternant_multiword_spec.alternant_or_word_specs > 1 iut.map_word_specs( alternant_multiword_spec, function( data )		detect_indicator_spec( data )		data.multiword = is_multiword	end ) end

local propagate_multiword_properties

local function propagate_alternant_properties( alternant_spec, property, mixed_value, nouns_only ) local seen_property for _, multiword_spec in ipairs( alternant_spec.alternants ) do		propagate_multiword_properties( multiword_spec, property, mixed_value, nouns_only ) if seen_property == nil then seen_property = multiword_spec[property] elseif multiword_spec[property] and seen_property ~= multiword_spec[property] then seen_property = mixed_value end end alternant_spec[property] = seen_property end

propagate_multiword_properties = function( multiword_spec, property, mixed_value, nouns_only ) local seen_property = nil local last_seen_nounal_pos = 0 local word_specs = multiword_spec.alternant_or_word_specs or multiword_spec.word_specs for i = 1, #word_specs do		local is_nounal if word_specs[i].alternants then propagate_alternant_properties( word_specs[i], property, mixed_value ) is_nounal = not not word_specs[i][property] elseif nouns_only then is_nounal = not word_specs[i].adj else is_nounal = not not word_specs[i][property] end if is_nounal then if not word_specs[i][property] then error( "Internal error: noun-type word spec without " .. property .. " set" ) end for j = last_seen_nounal_pos + 1, i - 1 do				word_specs[j][property] = word_specs[j][property] or word_specs[i][property] end last_seen_nounal_pos = i			if seen_property == nil then seen_property = word_specs[i][property] elseif seen_property ~= word_specs[i][property] then seen_property = mixed_value end end end if last_seen_nounal_pos > 0 then for i = last_seen_nounal_pos + 1, #word_specs do			word_specs[i][property] = word_specs[i][property] or word_specs[last_seen_nounal_pos][property] end end multiword_spec[property] = seen_property end

local function propagate_properties_downward( alternant_multiword_spec, property, default_propval ) local propval1 = alternant_multiword_spec[property] or default_propval for _, alternant_or_word_spec in ipairs( alternant_multiword_spec.alternant_or_word_specs ) do		local propval2 = alternant_or_word_spec[property] or propval1 if alternant_or_word_spec.alternants then for _, multiword_spec in ipairs( alternant_or_word_spec.alternants ) do				local propval3 = multiword_spec[property] or propval2 for _, word_spec in ipairs( multiword_spec.word_specs ) do					local propval4 = word_spec[property] or propval3 if propval4 == "mixed" then error( "Attempt to assign mixed " .. property .. " to word" ) end word_spec[property] = propval4 end end else if propval2 == "mixed" then error( "Attempt to assign mixed " .. property .. " to word" ) end alternant_or_word_spec[property] = propval2 end end end

local function propagate_properties( alternant_multiword_spec, property, default_propval, mixed_value ) propagate_multiword_properties( alternant_multiword_spec, property, mixed_value, "nouns only" ) propagate_multiword_properties( alternant_multiword_spec, property, mixed_value, false ) propagate_properties_downward( alternant_multiword_spec, property, default_propval ) end

local function normalize_all_lemmas( alternant_multiword_spec ) iut.map_word_specs( alternant_multiword_spec, function( data )		data.orig_lemma = data.lemma		data.orig_lemma_no_links = m_links.remove_links( data.lemma )		data.lemma = data.orig_lemma_no_links	end ) end

local function compute_categories_and_annotation( alternant_multiword_spec ) local cats = {} local function insert( cattype ) m_table.insertIfNot( cats, "Mongolian " .. cattype ) end if alternant_multiword_spec.pos == "noun" then if alternant_multiword_spec.number == "sg" then insert( "uncountable nouns" ) elseif alternant_multiword_spec.number == "pl" then insert( "pluralia tantum" ) end end local annotation if alternant_multiword_spec.manual then alternant_multiword_spec.annotation = alternant_multiword_spec.number == "sg" and "sg-only" or			alternant_multiword_spec.number == "pl" and "pl-only" or			alternant_multiword_spec.number == "spos" and "sg poss" or			alternant_multiword_spec.number == "cpos" and "col poss" or			"" else local annparts = {} local bor = nil local decl = {} local irregs = {} local stems = {} local reducible = nil local vh = {} local function do_word_spec( data ) m_table.insertIfNot( vh, vowelharmony( data.lemma, data ).Cyrl.a ) insert( vowelharmony( data.lemma, data ).Cyrl.a .. "-harmonic nouns" ) if data.decl == "r" then m_table.insertIfNot( decl, "regular" ) insert( "regular declension nouns" ) elseif data.decl == "n" then m_table.insertIfNot( decl, "hidden-n" ) insert( "hidden-n declension nouns" ) elseif data.decl == "g" then m_table.insertIfNot( decl, "hidden-g" ) insert( "hidden-g declension nouns" ) end if data.bor then bor = true end --if voweldeletion( data.lemma, data ) ~= data.lemma then reducible = true end end local key_entry = alternant_multiword_spec.first_noun or 1 if #alternant_multiword_spec.alternant_or_word_specs >= key_entry then local alternant_or_word_spec = alternant_multiword_spec.alternant_or_word_specs[key_entry] if alternant_or_word_spec.alternants then for _, multiword_spec in ipairs( alternant_or_word_spec.alternants ) do					key_entry = multiword_spec.first_noun or 1 if #multiword_spec.word_specs >= key_entry then do_word_spec( multiword_spec.word_specs[key_entry] ) end end else do_word_spec( alternant_or_word_spec ) end end if alternant_multiword_spec.pos == "proper noun" then table.insert( annparts, "proper" ) elseif alternant_multiword_spec.number == "sg" then table.insert( annparts, "sg-only" ) elseif alternant_multiword_spec.number == "pl" then table.insert( annparts, "pl-only" ) elseif alternant_multiword_spec.number == "spos" then table.insert( annparts, "sg poss" ) elseif alternant_multiword_spec.number == "cpos" then table.insert( annparts, "col poss" ) end if #vh > 0 then table.insert( annparts, table.concat( vh, "/" ) .. "-harmonic" ) end if #decl > 0 then table.insert( annparts, table.concat( decl, "/" ) ) end if bor then table.insert( annparts, "borr" ) end if reducible then table.insert( annparts, "reduc" ) end if #irregs > 0 then table.insert( annparts, table.concat( irregs, " // " ) ) end alternant_multiword_spec.annotation = table.concat( annparts, " " ) if #stems > 1 then insert( "nouns with multiple stems" ) end end alternant_multiword_spec.categories = cats end

local function combine_stem_ending( stem, ending ) return stem .. ending end

local function show_forms( alternant_multiword_spec ) local lemmas = {} if alternant_multiword_spec.forms.nom_sg then for _, nom_sg in ipairs( alternant_multiword_spec.forms.nom_sg ) do			table.insert( lemmas, nom_sg.form ) end elseif alternant_multiword_spec.forms.nom_pl then for _, nom_pl in ipairs( alternant_multiword_spec.forms.nom_pl ) do			table.insert( lemmas, nom_pl.form ) end end local props = { lemmas = lemmas, slot_table = output_noun_slots_with_linked, lang = lang, canonicalize = function( form ) return form end, include_translit = true, footnotes = alternant_multiword_spec.footnotes, allow_footnote_symbols = not not alternant_multiword_spec.footnotes, }	iut.show_forms( alternant_multiword_spec.forms, props ) end

local function make_table( alternant_multiword_spec )

local forms = alternant_multiword_spec.forms local function header( min_width ) min_width = min_width or "70" return gsub( [===[ {title}{annotation} {\op}| style="background:#f9f9f9;text-align:center;min-width:MINWIDTHem;width:100%" class="inflection-table" ]===], "MINWIDTH", min_width ) end local function reflexive( min_width, color ) min_width = min_width or "70" color = color or "d9ebff" return gsub( gsub( [===[|- Reflexive possessive forms {\op}| style="background:#f9f9f9;text-align:center;min-width:MINWIDTHem;width:100%" class="inflection-table" ]===], "MINWIDTH", min_width ), "COLOR", color ) end local function add_case( case, name, sg, pl, refl ) if forms[case .. "_sg"] ~= "—" or forms[case .. "_pl"] ~= "—" then local output = gsub( [===[|- ! style="background:#eff7ff" | NAME ]===], "NAME", name ) if sg then if refl then output = output .. gsub( [===[ ]===], "CASE", case ) else output = output .. gsub( [===[ ]===], "CASE", case ) end end if pl then if refl then output = output .. gsub( [===[ ]===], "CASE", case ) else output = output .. gsub( [===[ ]===], "CASE", case ) end end return output else return "" end end local function template_footer return [===[|- |{\cl}{notes_clause} ]===] end local table_spec_both = header( "45" ) .. [===[ ! style="background:#d9ebff" | attributive ! style="background:#d9ebff;width:10em" | ! style="background:#d9ebff;width:17.5em" | singular / indefinite ! style="background:#d9ebff;width:17.5em" | definite plural ! style="background:#eff7ff" | nominative ! style="background:#eff7ff" | genitive ! style="background:#eff7ff" | accusative ! style="background:#eff7ff" | dative-locative ]===] .. add_case( "gen_dat", "genitive-dative", true, true ) .. [===[ ! style="background:#eff7ff" | ablative ]===] .. add_case( "dat_abl", "dative-ablative", true, true ) .. [===[ ! style="background:#eff7ff" | instrumental ! style="background:#eff7ff" | comitative ! style="background:#eff7ff" | privative ! style="background:#eff7ff" | directive ]===] .. reflexive( "45" ) .. [===[ ! style="background:#d9ebff;width:10em" | ! style="background:#d9ebff;width:17.5em" | singular / indefinite ! style="background:#d9ebff;width:17.5em" | definite plural ! style="background:#eff7ff" | nominative ! style="background:#eff7ff" | genitive ! style="background:#eff7ff" | accusative ! style="background:#eff7ff" | dative-locative ]===] .. add_case( "gen_dat", "genitive-dative", true, true, true ) .. [===[ ! style="background:#eff7ff" | ablative ]===] .. add_case( "dat_abl", "dative-ablative", true, true, true ) .. [===[ ! style="background:#eff7ff" | instrumental ! style="background:#eff7ff" | comitative ! style="background:#eff7ff" | privative ! style="background:#eff7ff" | directive {\op}| style="background:#f9f9f9;text-align:center;min-width:45em;width:100%" class="inflection-table" ! style="background:#d9ebff;width:10em" | independent genitive ! style="background:#d9ebff;width:17.5em" | singular / indefinite ! style="background:#d9ebff;width:17.5em" | definite plural ! style="background:#eff7ff" | singular possession ! style="background:#eff7ff" | collective possession ]===] .. template_footer local function table_spec_one( num, number ) return gsub( gsub( header( "30" ) .. [===[ ! style="background:#d9ebff" | attributive ! style="background:#d9ebff;width:10em" | ! style="background:#d9ebff;width:20em" | NUMBER ! style="background:#eff7ff" | nominative ! style="background:#eff7ff" | genitive ! style="background:#eff7ff" | accusative ! style="background:#eff7ff" | dative-locative ]===] .. add_case( "gen_dat", "genitive-dative", true ) .. [===[ ! style="background:#eff7ff" | ablative ]===] .. add_case( "dat_abl", "dative-ablative", true ) .. [===[ ! style="background:#eff7ff" | instrumental ! style="background:#eff7ff" | comitative ! style="background:#eff7ff" | privative ! style="background:#eff7ff" | directive ]===] .. reflexive( "30" ) .. [===[ ! style="background:#d9ebff;width:10em" | ! style="background:#d9ebff;width:20em" | NUMBER ! style="background:#eff7ff" | nominative ! style="background:#eff7ff" | genitive ! style="background:#eff7ff" | accusative ! style="background:#eff7ff" | dative-locative ]===] .. add_case( "gen_dat", "genitive-dative", true, nil, true ) .. [===[ ! style="background:#eff7ff" | ablative ]===] .. add_case( "dat_abl", "dative-ablative", true, nil, true ) .. [===[ ! style="background:#eff7ff" | instrumental ! style="background:#eff7ff" | comitative ! style="background:#eff7ff" | privative ! style="background:#eff7ff" | directive {\op}| style="background:#f9f9f9;text-align:center;min-width:30em;width:100%" class="inflection-table" ! style="background:#d9ebff;width:10em" | independent genitive ! style="background:#d9ebff;width:20em" | NUMBER ! style="background:#eff7ff" | singular possession ! style="background:#eff7ff" | collective possession ]===] .. template_footer, "NUMBER", number ), "NUM", num ) end local function table_spec_poss return header( "30" ) .. [===[ ! style="background:#eff7ff;width:10em" | nominative ! style="background:#eff7ff" | genitive ! style="background:#eff7ff" | accusative ! style="background:#eff7ff" | dative-locative ! style="background:#eff7ff" | ablative ! style="background:#eff7ff" | instrumental ! style="background:#eff7ff" | comitative ! style="background:#eff7ff" | privative ! style="background:#eff7ff" | directive ]===] .. reflexive( "30" ) .. [===[ ! style="background:#eff7ff;width:10em" | nominative ! style="background:#eff7ff" | genitive ! style="background:#eff7ff" | accusative ! style="background:#eff7ff" | dative-locative ! style="background:#eff7ff" | ablative ! style="background:#eff7ff" | instrumental ! style="background:#eff7ff" | comitative ! style="background:#eff7ff" | privative ! style="background:#eff7ff" | directive ]===] .. template_footer end local notes_template = [===[ {footnote} ]===]	if alternant_multiword_spec.title then forms.title = alternant_multiword_spec.title else forms.title = "Declension of " .. forms.lemma .. "" end local annotation = alternant_multiword_spec.annotation or "" if annotation == "" then forms.annotation = "" else forms.annotation = " (" .. annotation .. " )" end local table_spec = alternant_multiword_spec.number == "sg" and table_spec_one( "sg", "singular / indefinite" ) or		alternant_multiword_spec.number == "pl" and table_spec_one( "pl", "definite plural" ) or		alternant_multiword_spec.number == "spos" and table_spec_poss or		alternant_multiword_spec.number == "cpos" and table_spec_poss or		table_spec_both forms.notes_clause = forms.footnote ~= "" and m_string_utilities.format( notes_template, forms ) or "" return m_string_utilities.format( table_spec, forms ) end
 * {\cl}
 * {CASE_sg_refl}
 * {CASE_sg}
 * {CASE_pl_refl}
 * {CASE_pl}
 * colspan=2 | {attr}
 * {nom_sg}
 * {nom_pl}
 * {gen_sg}
 * {gen_pl}
 * {acc_sg}
 * {acc_pl}
 * {dat_loc_sg}
 * {dat_loc_pl}
 * {abl_sg}
 * {abl_pl}
 * {ins_sg}
 * {ins_pl}
 * {com_sg}
 * {com_pl}
 * {priv_sg}
 * {priv_pl}
 * {dirc_sg}
 * {dirc_pl}
 * {nom_sg_refl}
 * {nom_pl_refl}
 * {gen_sg_refl}
 * {gen_pl_refl}
 * {acc_sg_refl}
 * {acc_pl_refl}
 * {dat_loc_sg_refl}
 * {dat_loc_pl_refl}
 * {abl_sg_refl}
 * {abl_pl_refl}
 * {ins_sg_refl}
 * {ins_pl_refl}
 * {com_sg_refl}
 * {com_pl_refl}
 * {priv_sg_refl}
 * {priv_pl_refl}
 * {dirc_sg_refl}
 * {dirc_pl_refl}
 * {\cl}
 * {spos_indgen_sg}
 * {spos_indgen_pl}
 * {cpos_indgen_sg}
 * {cpos_indgen_pl}
 * {attr}
 * {nom_NUM}
 * {gen_NUM}
 * {acc_NUM}
 * {dat_loc_NUM}
 * {abl_NUM}
 * {ins_NUM}
 * {com_NUM}
 * {priv_NUM}
 * {dirc_NUM}
 * {nom_NUM_refl}
 * {gen_NUM_refl}
 * {acc_NUM_refl}
 * {dat_loc_NUM_refl}
 * {abl_NUM_refl}
 * {ins_NUM_refl}
 * {com_NUM_refl}
 * {priv_NUM_refl}
 * {dirc_NUM_refl}
 * {\cl}
 * {spos_indgen_NUM}
 * {cpos_indgen_NUM}
 * style="width:20em" | {nom}
 * {gen}
 * {acc}
 * {dat_loc}
 * {abl}
 * {ins}
 * {com}
 * {priv}
 * {dirc}
 * style="width:20em" | {nom_refl}
 * {gen_refl}
 * {acc_refl}
 * {dat_loc_refl}
 * {abl_refl}
 * {ins_refl}
 * {com_refl}
 * {priv_refl}
 * {dirc_refl}

function export.do_generate_forms( parent_args, pos, from_headword, def )

local params = { [1] = { required = true, default = "хаан" }, footnote = { list = true }, title = {}, pos = { default = "noun" } }

local args = m_para.process( parent_args, params ) if not match( args[1], "<.*>" ) then error( "Please specify declension" ) end local parse_props = { parse_indicator_spec = parse_indicator_spec }	local alternant_multiword_spec = iut.parse_inflected_text( args[1], parse_props ) alternant_multiword_spec.title = args.title alternant_multiword_spec.pos = pos or args.pos alternant_multiword_spec.footnotes = args.footnote alternant_multiword_spec.args = args normalize_all_lemmas( alternant_multiword_spec ) detect_all_indicator_specs( alternant_multiword_spec ) propagate_properties( alternant_multiword_spec, "number", "both", "both" ) local inflect_props = { skip_slot = function( slot ) return skip_slot( alternant_multiword_spec.number, slot ) end, slot_table = output_noun_slots_with_linked, get_variants = get_variants, inflect_word_spec = handle_derived_slots_and_overrides, lang = lang }	iut.inflect_multiword_or_alternant_multiword_spec( alternant_multiword_spec, inflect_props ) compute_categories_and_annotation( alternant_multiword_spec ) return alternant_multiword_spec end

function export.show( frame ) local parent_args = frame:getParent.args or frame.args local pos = propernoun( parent_args[1] or "хаан" ) and "proper noun" or "noun" local alternant_multiword_spec = export.do_generate_forms( parent_args, pos ) show_forms( alternant_multiword_spec ) return make_table( alternant_multiword_spec ) .. require( "Module:utilities" ).format_categories( alternant_multiword_spec.categories, lang ) end

function export.inflect_traditional_form( trad_form, cyrl_form, cyrl_form_args, inflection ) local parse_props = { parse_indicator_spec = parse_indicator_spec }	local alternant_multiword_spec = iut.parse_inflected_text( cyrl_form_args, parse_props ) local vh = vowelharmony( cyrl_form ) if alternant_multiword_spec.alternant_or_word_specs[1].decl == "n" then trad_form = trad_form .. n	end if match( inflection, "attr" ) then trad_form = attributive( trad_form, vh ) end if match( inflection, "|p$" ) then trad_form = plural( trad_form, vh ) end if match( inflection, "indgen" ) then trad_form = genitive( trad_form, vh ) end if match( inflection, "spos|indgen" ) then trad_form = singular_independent_genitive( trad_form, vh ) end if match( inflection, "cpos|indgen" ) then trad_form = collective_independent_genitive( trad_form, vh ) end if match( inflection, "gen" ) and not match( inflection, "indgen" ) then trad_form = genitive( trad_form, vh ) end if match( inflection, "acc" ) then trad_form = accusative( trad_form, vh ) end if match( inflection, "dat" ) then trad_form = dative_locative( trad_form, vh ) end if match( inflection, "abl" ) then trad_form = ablative( trad_form, vh ) end if match( inflection, "ins" ) then trad_form = instrumental( trad_form, vh ) end if match( inflection, "com" ) then trad_form = comitative( trad_form, vh ) end if match( inflection, "priv" ) then trad_form = privative( trad_form, vh ) end if match( inflection, "dirc" ) then trad_form = directive( trad_form, vh ) end if match( inflection, "refl" ) then trad_form = reflexive( trad_form, vh ) end return trad_form end

return export