Module:hi-verb

local export = {}

--[=[

Authorship: Ben Wing

]=]

--[=[

TERMINOLOGY:

-- "slot" = A particular combination of person/number/gender/tense/etc. Example slot names for verbs are "inf_mp" (masculine plural infinitive), "prog" (undeclined progressive form), "pfv_ind_fut_2sm" (second-person singular	 masculine perfective indicative future). Each slot is filled with zero or more forms.

-- "form" = The conjugated Hindi form representing the value of a given slot.

-- "lemma" = The dictionary form of a given Hindi term. Generally the direct masculine singular infinitive, but may occasionally be another form if that form is missing. ]=]

--[=[

FIXME:

1. (DONE) If rearrangement for syncretism stays, need to change accelerators. 2. (DONE) In add_slot_gendered, for participles, potentially put back obl|m|s for -e form accelerators. 3. (DONE) Split adjectival participle into perfective and habitual. 4. (DONE) Some errors in future intimate imperatives of पीना, देना, लेना. 5. Stop generating 3s and 3p forms (same as 2s and 1p forms, respectively) except for imperatives; rename 3s -> 23s and 1p -> 13p. 6. (DONE) Add alternative (regular) perfective participle of जाना; footnote that it only works with auxiliary जाना and occasionally करना in the habitual. 7. (DONE) Fix forms listed in imperative footnote for verbs like सीना, छूना. 8. (DONE) Remove fut2 forms (= to presumptive) from होना. 9. (DONE) Contrafactual -> PST only. 10. (DONE) In verbs like हिलना-डुलना, suffixes -गा and -वाला should occur only once. 11. (DONE) Indicative future of छूना should be छुऊँगा (maybe along with छूँगा?). 12. Merge cases where Devanagari spelling occurs twice with different translits. 13. (DONE) Add "rare" footnote for हूजिए. 14. (DONE) Add future tense to presumptive forms for non-aspectual and progressive. 15. (DONE) Remove first -गा in 3p fut imp of हिलना-डुलना. 16. (DONE) What is the progressive of हिलना-डुलना? Currently I have हिलते-हिलते-दुलते-दुलते. (It's just हिलते-डलते; fixed.) 17. (DONE) Do verbs like खाना have alternative perfective participles खाये, खायी, खायीं? (Yes, made the default with a y-footnote.) 18. (DONE) Should 2pl pres imperative in -o be -yo after -i? If so, is -o an alternative form? (Yes and yes, but the -y- is normally pronounced, so alternative form not listed.) 19. (DONE) Should we change the label of non-होना non-aspectual subjunctives to FUT only not PRES/FUT? (Yes. Done.)

FIXES NEEDING DISCUSSING:

2. Should we remove subjunctive forms of imperatives and convert them to a footnote? 6. Are forms like पिइयो (पीना) and जिइयो (जीना) are correct, and should forms like पियो and जियो be used instead or as alternatives? 7. Should we have distinct colors for masc/fem/combined rows or should they be a single color? ]=]

local lang = require("Module:languages").getByCode("hi") local m_table = require("Module:table") local m_links = require("Module:links") local m_string_utilities = require("Module:string utilities") local m_script_utilities = require("Module:script utilities") local iut = require("Module:inflection utilities") local m_para = require("Module:parameters") local com = require("Module:hi-common")

local u = require("Module:string/char") local rsplit = mw.text.split local rfind = mw.ustring.find local rmatch = mw.ustring.match local rgmatch = mw.ustring.gmatch local rsubn = mw.ustring.gsub local ulen = mw.ustring.len local usub = mw.ustring.sub local uupper = mw.ustring.upper local ulower = mw.ustring.lower

-- vowel diacritics; don't display nicely on their own local M = u(0x0901) local N = u(0x0902) local AA = u(0x093e) local AI = u(0x0948) local AU = u(0x094c) local E = u(0x0947) local EN = E .. N local I = u(0x093f) local II = u(0x0940) local IIN = II .. N local O = u(0x094b) local U = u(0x0941) local UU = u(0x0942) local UUM = UU .. M local R = u(0x0943) local VIRAMA = u(0x094d) local TILDE = u(0x0303)

-- 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

-- version of rsubn that returns a 2nd argument boolean indicating whether -- a substitution was made. local function rsubb(term, foo, bar) local retval, nsubs = rsubn(term, foo, bar) return retval, nsubs > 0 end

local function tag_text(text) return m_script_utilities.tag_text(text, lang) end

local function term_link(hi, tr) return m_links.full_link({term = hi, tr = tr, lang = lang}, "term") end

local irreg_perf = { ["कर"] = "की", ["जा"] = "ग*", -- this is a special sign to request independent endings in some cases ["ले"] = "ली", ["दे"] = "दी", ["हो"] = "हु", }

local irreg_subj = { ["दे"] = "द", ["ले"] = "ल", }

local irreg_polite_imp = { ["कर"] = {"कीज", "कर"}, ["ले"] = "लीज", ["दे"] = "दीज", ["पी"] = "पीज", ["हो"] = {"हो", {form = "हूज", footnotes = {"[rare]"}}}, }

local verb_slots_impers = { inf = "inf", inf_obl = "obl|inf", stem = "stem", conj = "conj|form", prog = "prog|form", }

local verb_slots_pers = { }

-- Add entries for a slot with only gender/number variants. -- `slot_prefix` is the prefix of the slot, typically specifying the tense/aspect; -- `tag_suffix` is the set of inflection tags to add after the gender/number tags, -- or "-" to use "-" as the inflection tags (which indicates that no accelerator entry -- should be generated); and `verb_slots` is the table (personal or impersonal) to -- add the entries to. local function add_slot_gendered(slot_prefix, tag_suffix, verb_slots) verb_slots = verb_slots or verb_slots_pers verb_slots[slot_prefix .. "_ms"] = tag_suffix == "-" and "-" or "m|s|" .. tag_suffix verb_slots[slot_prefix .. "_mp"] = tag_suffix == "-" and "-" or "m|p|" .. tag_suffix verb_slots[slot_prefix .. "_fs"] = tag_suffix == "-" and "-" or "f|s|" .. tag_suffix verb_slots[slot_prefix .. "_fp"] = tag_suffix == "-" and "-" or "f|p|" .. tag_suffix end

-- Same as add_slot_gendered but specifically for participles. This changes the inflection -- tags used, because the masculine singular entry is really only for direct masculine singular, -- and the masculine plural entry is also for oblique masculine singular. local function add_slot_gendered_part(slot_prefix, tag_suffix, verb_slots) verb_slots = verb_slots or verb_slots_pers verb_slots[slot_prefix .. "_ms"] = tag_suffix == "-" and "-" or "dir|m|s|" .. tag_suffix verb_slots[slot_prefix .. "_mp"] = tag_suffix == "-" and "-" or "m|p|" .. tag_suffix .. "|;|obl|m|s|" .. tag_suffix verb_slots[slot_prefix .. "_fs"] = tag_suffix == "-" and "-" or "f|s|" .. tag_suffix verb_slots[slot_prefix .. "_fp"] = tag_suffix == "-" and "-" or "f|p|" .. tag_suffix end

-- Compute the inflection tags associated with a given person/number/gender combination. local function personal_tags(slot_prefix, tag_suffix, persnum, gender) gender = gender and gender .. "|" or "" local suffix = gender .. tag_suffix if persnum == "2s" then -- only for imperatives return "2|s|intim|" .. suffix elseif persnum == "23s" then return "2|s|intim|" .. suffix .. "|;|3|s|" .. suffix elseif persnum == "13p" then return "13|p|" .. suffix .. "|;|2|formal|" .. suffix elseif persnum == "2p" then return "2|fam|" .. suffix elseif persnum == "3p" then -- only for imperatives return "3|p|" .. suffix .. "|;|2|formal|" .. suffix else -- 1s, 3s or 1p return persnum:gsub("^(.)(.)$", "%1|%2") .. "|" .. suffix end end

-- Return the possible person/number combinations given the slot prefix. local function persnum_values(slot_prefix) if slot_prefix:find("^imp_") then return {"2s", "2p", "3p"} else return {"1s", "23s", "13p", "2p"} end end

-- Add entries for a slot with only person/number variants. See `add_slot_gendered`. local function add_slot_personal(slot_prefix, tag_suffix, verb_slots) verb_slots = verb_slots or verb_slots_pers for _, persnum in ipairs(persnum_values(slot_prefix)) do local slot = slot_prefix .. "_" .. persnum if tag_suffix == "-" then verb_slots[slot] = "-" else verb_slots[slot] = personal_tags(slot_prefix, tag_suffix, persnum) end end end

-- Add entries for a slot with person/number/gender variants. See `add_slot_gendered`. local function add_slot_gendered_personal(slot_prefix, tag_suffix, verb_slots) verb_slots = verb_slots or verb_slots_pers for _, persnum in ipairs(persnum_values(slot_prefix)) do		for _, gender in ipairs({"m", "f"}) do local slot = slot_prefix .. "_" .. persnum .. gender if tag_suffix == "-" then verb_slots[slot] = "-" else verb_slots[slot] = personal_tags(slot_prefix, tag_suffix, persnum, gender) end end end end

add_slot_gendered_part("inf", "inf|part", verb_slots_impers) add_slot_gendered_part("hab", "hab|part", verb_slots_impers) add_slot_gendered_part("pfv", "pfv|part", verb_slots_impers) add_slot_gendered_part("agent", "prospective//agentive|part", verb_slots_impers) add_slot_gendered_part("adj_pfv", "-", verb_slots_impers) add_slot_gendered_part("adj_hab", "-", verb_slots_impers)

add_slot_personal("ind_pres", "pres|ind") -- only for होना add_slot_gendered("ind_impf", "impf|ind") -- only for होना add_slot_gendered("ind_perf", "perf|ind") add_slot_gendered_personal("ind_fut", "fut|ind") add_slot_gendered_personal("presum", "presumptive") add_slot_personal("subj_pres", "pres|subj") -- only for होना add_slot_personal("subj_fut", "fut|subj") add_slot_gendered("cfact", "cfact") add_slot_personal("imp_pres", "pres|imp") add_slot_personal("imp_fut", "fut|imp")

add_slot_gendered_personal("hab_ind_pres", "-") add_slot_gendered("hab_ind_past", "-") add_slot_gendered_personal("hab_presum", "-") add_slot_gendered_personal("hab_subj", "-") add_slot_gendered("hab_cfact", "-")

for _, mood in ipairs({"pfv", "prog"}) do add_slot_gendered_personal(mood .. "_ind_pres", "-") add_slot_gendered(mood .. "_ind_past", "-") add_slot_gendered_personal(mood .. "_ind_fut", "-") add_slot_gendered_personal(mood .. "_presum", "-") add_slot_gendered_personal(mood .. "_subj_pres", "-") add_slot_gendered_personal(mood .. "_subj_fut", "-") add_slot_gendered(mood .. "_cfact", "-") end

verb_slots_impers["inf_ms_linked"] = verb_slots_impers["inf_ms"]

local all_verb_slots = {} for k, v in pairs(verb_slots_impers) do	all_verb_slots[k] = v end for k, v in pairs(verb_slots_pers) do	all_verb_slots[k] = v end

local function fut_subj_ye_note(slot, link, ending) if rfind(slot, "^ind_fut") then return {"[the forms " .. link("येगा") .. ", " .. link("येंगे") .. ", " ..			link("येगी") .. " and " .. link("येंगी") .. " can also be spelled without the y: " .. link("एगा") .. ", " .. link("एँगे") .. ", " .. link("एगी") .. " and " .. link("एँगी") .. "]"}	elseif rfind(slot, "^subj") then return {"[the forms " .. link("ये") .. " and " .. link("यें") .. " can also be spelled without the y: " .. link("ए") .. " and " .. link("एँ") .. "]"}	else error("Internal error: Don't know what to do with ending " .. ending .. " for slot " .. slot) end end

local function pfv_ye_yi_note(link) return {"[the participles " .. link("ये") .. ", " .. link("यी") .. " and " .. link("यीं") .. " can also be spelled without the y: " .. link("ए") .. ", " .. link("ई") .. " and " .. link("ईं") .. "]"} end

-- Add one inflected form to `base.forms`, specifically to the list of forms associated with -- the slot `slot` in the table in `base.forms`. Each element of the list is an object of the -- form {form=FORM, translit=TRANSLIT, footnotes=FOOTNOTES}, where TRANSLIT is missing if no -- manual translit needs to be given and FOOTNOTES is missing if there aren't any footnotes. -- If FOOTNOTES is present it is a list of footnotes, where each footnote is e.g. "[rare or archaic]", -- i.e. surrounded by brackets, with the first character lowercase and no final period. -- (The brackets are automatically removed, the first character capitalized and a final period added.) -- -- `stem` is the Devanagari stem to add the ending to. -- `translit_stem` is the transliteration of `stem`, or nil to use the default transliteration. -- `ending` is the Devanagari ending to add to the stem, possibly with sandhi changes to the -- stem or ending. -- `footnotes` is a list of associated footnotes in the same format as FOOTNOTES above, or nil. -- `double_word` if given causes the resulting form to be doubled with a hyphen in between the two -- parts, for use with the progressive form (e.g. करते-करते of verb करना). local function add(base, stem, translit_stem, slot, ending, footnotes, double_word) local function doadd(new_stem, new_translit_stem, new_ending, slot_footnotes) new_ending = new_ending or ending if new_ending and base.notlast then -- If we're not the last verb in a multiword expression, chop off -- anything after a space. This is to handle verbs like हिलना-डुलना, -- which have e.g. nonaspectual subjunctive 1sg masc हिलूँ-डुलूँ -- but perfective future indicative 1sg masc हिला-डुला हूँगा. Also, there -- are some special cases: -- (1) the conjunctive form should be e.g. हिल-डुलकर or हिल-डुलके -- (2) the future indicative should be e.g. 1sg हिलूँ-डुलूँगा -- (3) the future imperative 3pl should be e.g. हिलिये-डुलियेगा -- (4) the agentive should be e.g. हिलने-डुलनेवाला if slot == "conj" then new_ending = "" elseif slot:find("^ind_fut") then new_ending = rsub(new_ending, "ग.$", "") -- गा, गे or गी elseif slot == "imp_fut_3p" then new_ending = rsub(new_ending, "गा$", "") elseif slot:find("^agent") then new_ending = rsub(new_ending, "वाल." .. N .. "?$", "") -- वाला, वाले, वाली, वालीं else new_ending = rsub(new_ending, " .*", "") end end com.add_form(base, new_stem or stem, new_translit_stem or translit_stem, slot,			new_ending, iut.combine_footnotes(slot_footnotes, footnotes), "link words", double_word) end if ending then if rfind(stem, "[" .. II .. I .. "ईइ]$") then -- Implement sandhi changes after stem ending in -ī or -i. local stem_butlast, translit_stem_butlast = com.strip_ending_from_stem(stem, translit_stem, rfind(stem, II .. "$") and II or I)			local ending_first = usub(ending, 1, 1) if ending_first == E then local form_stem = stem_butlast .. I local form_tr = translit_stem_butlast and translit_stem_butlast .. "i" local function link(form_ending) return term_link(form_stem .. form_ending, form_tr and form_tr .. (lang:transliterate(form_ending))) end local y_footnote if slot:find("pfv") or slot:find("perf") then y_footnote = {"[the participle " .. link("ये") .. " can also be spelled without the y: " .. link("ए") .. "]"}				else y_footnote = fut_subj_ye_note(slot, link, ending) end doadd(form_stem .. "य", form_tr and form_tr .. "y", nil, y_footnote) return elseif ending_first == II then doadd(stem_butlast, translit_stem_butlast) return elseif ending_first ~= I and rfind(ending_first, "[" .. com.vowels .. "]") then doadd(stem_butlast .. I .. "य", translit_stem_butlast and translit_stem_butlast .. "iy") return end elseif rfind(stem, "[" .. UU .. U .. "ऊउ]$") then -- Implement sandhi changes after stem ending in -ū or -u. local stem_butlast, translit_stem_butlast = com.strip_ending_from_stem(stem, translit_stem,				rfind(stem, UU .. "$") and UU or U)			local ending_first = usub(ending, 1, 1) if rfind(ending_first, "[" .. com.vowels .. "]") then doadd(stem_butlast .. U, translit_stem_butlast and translit_stem_butlast .. "u") return end elseif rfind(stem, "[" .. AA .. O .. "आऔ]$") and rfind(ending, "^" .. AA) then -- Implement sandhi changes after stem ending in -ā or -o and an ending beginning in -ā (always a			-- perfective participle). doadd(stem .. "य", translit_stem and translit_stem .. "y") return elseif rfind(stem, "[" .. AA .. "आ]$") then local function link(form_ending) return term_link(stem .. form_ending, translit_stem and translit_stem .. (lang:transliterate(form_ending))) end local y_footnote -- Implement sandhi changes after stem ending in -ā and a perfective participle ending beginning in -- -e, -ī or -ī̃, or a future or subjunctive form beginning in -e. if slot:find("pfv") or slot:find("perf") then y_footnote = pfv_ye_yi_note(link) elseif rfind(ending, "^" .. E) then y_footnote = fut_subj_ye_note(slot, link, ending) end if y_footnote then doadd(stem .. "य", translit_stem and translit_stem .. "y", nil, y_footnote) return end elseif rfind(stem, "[" .. E .. "ए]$") then -- Implement sandhi changes after stem ending in -e and a perfective participle ending beginning in -- -ā, -e, -ī or -ī̃. if slot:find("pfv") or slot:find("perf") then local function link(form_ending) return term_link(stem .. form_ending, translit_stem and translit_stem .. (lang:transliterate(form_ending))) end local y_footnote = {"[the participles " .. link("या") .. ", " .. link("ये") .. ", " .. link("यी") .. " and " .. link("यीं") .. " can also be spelled without the y: " .. link("आ") .. ", " .. link("ए") .. ", " .. link("ई") .. " and " .. link("ईं") .. "]"}				doadd(stem .. "य", translit_stem and translit_stem .. "y", nil, y_footnote) return end elseif rfind(stem, "%*$") then -- Special hacks for ग(य)-, perfective stem of जाना. local stem_butlast, translit_stem_butlast = com.strip_ending_from_stem(stem, translit_stem, "%*") if ending:find("^" .. E) or ending:find("^" .. II) then local function link(form_ending) return term_link(stem_butlast .. form_ending,						translit_stem and translit_stem .. (lang:transliterate(form_ending))) end local y_footnote = pfv_ye_yi_note(link) -- Use full translit_stem rather than stripping off the final 'a' that should be there. -- Need to specify independent endings (diacritic endings get converted to independent ones after				-- an explicit vowel, but here there is no explicit vowel). doadd(stem_butlast, translit_stem,					ending:find("^" .. E) and rsub(ending, "^" .. E, "ए") or rsub(ending, "^" .. II, "ई"),					y_footnote) -- doadd(stem_butlast .. "य", translit_stem and translit_stem .. "y") else doadd(stem_butlast .. "य", translit_stem and translit_stem .. "y") end return end end

doadd end

-- Add the conjugation for a tense/aspect row with gender/number variants only. local function add_conj_gendered(base, slot_prefix, stem, translit_stem, m_s, m_p, f_s, f_p, footnotes) if not stem then stem = base.stem translit_stem = base.stem_translit end add(base, stem, translit_stem, slot_prefix .. "_ms", m_s, footnotes) add(base, stem, translit_stem, slot_prefix .. "_mp", m_p, footnotes) add(base, stem, translit_stem, slot_prefix .. "_fs", f_s, footnotes) add(base, stem, translit_stem, slot_prefix .. "_fp", f_p, footnotes) end

-- Add the conjugation for a tense/aspect row with person/number variants only. local function add_conj_personal(base, slot_prefix, stem, translit_stem, s1, s23, p13, p2, footnotes) if not stem then stem = base.stem translit_stem = base.stem_translit end add(base, stem, translit_stem, slot_prefix .. "_1s", s1, footnotes) add(base, stem, translit_stem, slot_prefix .. "_23s", s23, footnotes) add(base, stem, translit_stem, slot_prefix .. "_13p", p13, footnotes) add(base, stem, translit_stem, slot_prefix .. "_2p", p2, footnotes) end

-- Add the conjugation for a tense/aspect row with person/number/gender variants. local function add_conj_gendered_personal(base, slot_prefix, stem, translit_stem,	s1m, s23m, p13m, p2m, s1f, s23f, p13f, p2f, footnotes) if not stem then stem = base.stem translit_stem = base.stem_translit end add(base, stem, translit_stem, slot_prefix .. "_1sm", s1m, footnotes) add(base, stem, translit_stem, slot_prefix .. "_23sm", s23m, footnotes) add(base, stem, translit_stem, slot_prefix .. "_13pm", p13m, footnotes) add(base, stem, translit_stem, slot_prefix .. "_2pm", p2m, footnotes) add(base, stem, translit_stem, slot_prefix .. "_1sf", s1f, footnotes) add(base, stem, translit_stem, slot_prefix .. "_23sf", s23f, footnotes) add(base, stem, translit_stem, slot_prefix .. "_13pf", p13f, footnotes) add(base, stem, translit_stem, slot_prefix .. "_2pf", p2f, footnotes) end

local function handle_derived_slots_and_overrides(base) -- No overrides implemented currently. -- process_slot_overrides(base)

-- 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. -- (NOTE: Not currently used by .) for _, slot in ipairs({"inf_ms"}) do iut.insert_forms(base.forms, slot .. "_linked", iut.map_forms(base.forms[slot], function(form, translit) if form == base.orig_lemma_no_links and translit == base.lemma_translit and rfind(base.orig_lemma, "%[%[") then return base.orig_lemma, base.lemma_translit else return form, translit end end)) end end

local conjs = {} local conjprops = {}

conjs["normal"] = function(base) local function fetch_irreg(irreg_table) if irreg_table[base.stem] then local stem = irreg_table[base.stem] return stem, nil else return base.stem, base.stem_translit end end

local perf, trperf = fetch_irreg(irreg_perf) local subj, trsubj = fetch_irreg(irreg_subj) local polite_imp, tr_polite_imp = fetch_irreg(irreg_polite_imp)

-- Undeclined forms add(base, base.stem, base.stem_translit, "stem", "") add(base, base.stem, base.stem_translit, "inf", "ना") add(base, base.stem, base.stem_translit, "inf_obl", "ने") add(base, base.stem, base.stem_translit, "conj", "कर") add(base, base.stem, base.stem_translit, "conj", "के") -- Normally progressive form is doubled (e.g. करते-करते), but not in multiword -- expressions like हिलना-डुलना. add(base, base.stem, base.stem_translit, "prog", "ते", nil, not base.multiword)

-- Participles add_conj_gendered(base, "inf", nil, nil, "ना", "ने", "नी", "नीं") add_conj_gendered(base, "hab", nil, nil, "ता", "ते", "ती", "तीं") add_conj_gendered(base, "pfv", perf, trperf, AA, E, II, IIN) if base.stem == "जा" then add_conj_gendered(base, "pfv", "जा", nil, AA, E, II, IIN,			{"[only with the copula " .. term_link("जाना") ..				" and (in the habitual aspect only) with the auxiliary verb " .. term_link("करना") .. "]"}) end add_conj_gendered(base, "agent", nil, nil, "नेवाला", "नेवाले", "नेवाली", "नेवालीं") add_conj_gendered(base, "adj_pfv", perf, trperf, AA .. " हुआ", E .. " हुए", II .. " हुई", II .. " हुईं") add_conj_gendered(base, "adj_hab", nil, nil, "ता हुआ", "ते हुए", "ती हुई", "ती हुईं")

-- Non-aspectual add_conj_gendered(base, "ind_perf", perf, trperf, AA, E, II, IIN) add_conj_gendered_personal(base, "ind_fut", subj, trsubj,		UUM .. "गा", E .. "गा", EN .. "गे", O .. "गे",		UUM .. "गी", E .. "गी", EN .. "गी", O .. "गी") if base.stem == "हो" then add_conj_gendered_personal(base, "presum", "", "",			"हूँगा", "होगा", "होंगे", "होगे",			"हूँगी", "होगी", "होंगी", "होगी") add_conj_personal(base, "ind_pres", "", "", "हूँ", "है", "हैं", "हो") add_conj_gendered(base, "ind_impf", "थ", "th", AA, E, II, IIN) add_conj_personal(base, "subj_pres", "", "", "हूँ", "हो", "हों", "हो") end add_conj_personal(base, "subj_fut", subj, trsubj, UUM, E, EN, O)	add_conj_gendered(base, "cfact", nil, nil, "ता", "ते", "ती", "तीं")

add(base, base.stem, base.stem_translit, "imp_pres_2s", "") add(base, subj, trsubj, "imp_pres_2p", O) add(base, subj, trsubj, "imp_fut_2s", I .. "यो") add(base, base.stem, base.stem_translit, "imp_fut_2p", "ना") -- There may be more than one possible polite imperative stem, particularly for -- irregular verbs. Loop over them. if type(polite_imp) ~= "table" or polite_imp.form then polite_imp = {polite_imp} end if tr_polite_imp and type(tr_polite_imp) ~= "table" then tr_polite_imp = {tr_polite_imp} end for i, polimp in ipairs(polite_imp) do		local tr_polimp = tr_polite_imp and tr_polite_imp[i] local imp_footnote if polimp.form then imp_footnote = polimp.footnotes polimp = polimp.form end -- Implement sandhi changes after stem ending in -ī or -ū, before ending in i-. -- FIXME: Merge these with the sandhi code in add. local sandhi_polimp, sandhi_tr_polimp if rfind(polimp, II .. "$") then sandhi_polimp, sandhi_tr_polimp = com.strip_ending_from_stem(polimp, tr_polimp, II) sandhi_polimp = sandhi_polimp .. I sandhi_tr_polimp = sandhi_tr_polimp and sandhi_tr_polimp .. "i" or nil elseif rfind(polimp, UU .. "$") then sandhi_polimp, sandhi_tr_polimp = com.strip_ending_from_stem(polimp, tr_polimp, UU) sandhi_polimp = sandhi_polimp .. U sandhi_tr_polimp = sandhi_tr_polimp and sandhi_tr_polimp .. "u" or nil else sandhi_polimp, sandhi_tr_polimp = polimp, tr_polimp end local function link_i(form_ending) return term_link(sandhi_polimp .. I .. form_ending,				sandhi_tr_polimp and sandhi_tr_polimp .. "i" .. (lang:transliterate(form_ending))) end local y_footnote = { "[the forms " .. link_i("ये") .. " and " .. link_i("येगा") .. " can also be spelled without the y: " .. link_i("ए") .. " and " .. link_i("एगा") .. "]"}		local all_footnotes = iut.combine_footnotes(imp_footnote, y_footnote) add(base, polimp, tr_polimp, "imp_pres_3p", I .. "ये", all_footnotes) add(base, polimp, tr_polimp, "imp_fut_3p", I .. "येगा", all_footnotes) end

-- Habitual add_conj_gendered_personal(base, "hab_ind_pres", nil, nil,		"ता हूँ", "ता है", "ते हैं", "ते हो",		"ती हूँ", "ती है", "ती हैं", "ती हो") add_conj_gendered(base, "hab_ind_past", nil, nil, "ता था", "ते थे", "ती थी", "ती थीं") add_conj_gendered_personal(base, "hab_presum", nil, nil,		"ता हूँगा", "ता होगा", "ते होंगे", "ते होगे",		"ती हूँगी", "ती होगी", "ती होंगी", "ती होगी") add_conj_gendered_personal(base, "hab_subj", nil, nil,		"ता हूँ", "ता हो", "ते हों", "ते हो",		"ती हूँ", "ती हो", "ती हों", "ती हो") add_conj_gendered(base, "hab_cfact", nil, nil,		"ता होता", "ते होते", "ती होती", "ती होतीं")

-- Perfective add_conj_gendered_personal(base, "pfv_ind_pres", perf, trperf,		AA .. " हूँ", AA .. " है", E .. " हैं", E .. " हो",		II .. " हूँ", II .. " है", II .. " हैं", II .. " हो") add_conj_gendered(base, "pfv_ind_past", perf, trperf,		AA .. " था", E .. " थे", II .. " थी", II .. " थीं") add_conj_gendered_personal(base, "pfv_ind_fut", perf, trperf,		AA .. " हूँगा", AA .. " होगा", E .. " होंगे", E .. " होगे",		II .. " हूँगी", II .. " होगी", II .. " होंगी", II .. " होगी") add_conj_gendered_personal(base, "pfv_presum", perf, trperf,		AA .. " हूँगा", AA .. " होगा", E .. " होंगे", E .. " होगे",		II .. " हूँगी", II .. " होगी", II .. " होंगी", II .. " होगी") add_conj_gendered_personal(base, "pfv_subj_pres", perf, trperf,		AA .. " हूँ", AA .. " हो", E .. " हों", E .. " हो",		II .. " हूँ", II .. " हो", II .. " हों", II .. " हो") add_conj_gendered_personal(base, "pfv_subj_fut", perf, trperf,		AA .. " होऊँ", AA .. " होए", E .. " होएँ", E .. " होओ",		II .. " होऊँ", II .. " होए", II .. " होएँ", II .. " होओ") add_conj_gendered(base, "pfv_cfact", perf, trperf, AA .. " होता", E .. " होते", II .. " होती", II .. " होतीं")

-- Progressive add_conj_gendered_personal(base, "prog_ind_pres", nil, nil,		" रहा हूँ", " रहा है", " रहे हैं", " रहे हो",		" रही हूँ", " रही है", " रही हैं", " रही हो") add_conj_gendered(base, "prog_ind_past", nil, nil,		" रहा था", " रहे थे", " रही थी", " रही थीं") add_conj_gendered_personal(base, "prog_ind_fut", nil, nil,		" रहा हूँगा", " रहा होगा", " रहे होंगे", " रहे होगे",		" रही हूँगी", " रही होगी", " रही होंगी", " रही होगी") add_conj_gendered_personal(base, "prog_presum", nil, nil,		" रहा हूँगा", " रहा होगा", " रहे होंगे", " रहे होगे",		" रही हूँगी", " रही होगी", " रही होंगी", " रही होगी") add_conj_gendered_personal(base, "prog_subj_pres", nil, nil,		" रहा हूँ", " रहा हो", " रहे हों", " रहे हो",		" रही हूँ", " रही हो", " रही हों", " रही हो") add_conj_gendered_personal(base, "prog_subj_fut", nil, nil,		" रहा होऊँ", " रहा होए", " रहे होएँ", " रहे होओ",		" रही होऊँ", " रही होए", " रही होएँ", " रही होओ") add_conj_gendered(base, "prog_cfact", nil, nil, " रहा होता", " रहे होते", " रही होती", " रही होतीं") end

--[=[ Parse an indicator spec (text consisting of angle brackets and zero or more dot-separated indicators within them). Return value is an object of the form

{ forms = {}, -- forms for a single spec alternant; see `forms` below

-- The following additional fields are added by other functions: orig_lemma = "ORIGINAL-LEMMA", -- as given by the user or taken from pagename orig_lemma_no_links = "ORIGINAL-LEMMA-NO-LINKS", -- links removed lemma = "LEMMA", -- `orig_lemma_no_links`, converted to singular form if plural phon_lemma = "LEMMA-PHONETIC-RESPELLING", -- as specified by the user; may be missing lemma_translit = "LEMMA-TRANSLIT", -- translit of phon_lemma (if present) forms = { SLOT = { {		form = "FORM", footnotes = {"FOOTNOTE", "FOOTNOTE", ...} -- may be missing },	 ...	},	...  },  conj = "CONJ", -- declension, e.g. "normal" (the only one currently implemented) } ]=] local function parse_indicator_spec(angle_bracket_spec) local inside = rmatch(angle_bracket_spec, "^<(.*)>$") assert(inside) local base = {overrides = {}, forms = {}} if inside ~= "" then local segments = iut.parse_balanced_segment_run(inside, "[", "]") local dot_separated_groups = iut.split_alternating_runs(segments, "%.") for i, dot_separated_group in ipairs(dot_separated_groups) do -- No indicators allowed currently. local part = dot_separated_group[1] error("Unrecognized indicator '" .. part .. "': '" .. inside .. "'") end end return base end

local function detect_indicator_spec(base) base.conj = "normal" base.stem, base.stem_translit = com.strip_ending(base, "ना") end

local function detect_all_indicator_specs(alternant_multiword_spec) iut.map_word_specs(alternant_multiword_spec, function(base)		detect_indicator_spec(base)	end)

-- Set notlast=true on verbs that aren't the last one in a multiword expression, and -- multiword=true on all verbs in multiword expressions (as well as at top level), so -- we can properly handle verbs like हिलना-डुलना. for i, alternant_or_word_spec in ipairs(alternant_multiword_spec.alternant_or_word_specs) do		if alternant_or_word_spec.alternants then for _, multiword_spec in ipairs(alternant_or_word_spec.alternants) do				for j, word_spec in ipairs(multiword_spec.word_specs) do					if j < #multiword_spec.word_specs then word_spec.notlast = true end if #multiword_spec.word_specs > 1 then word_spec.multiword = true alternant_multiword_spec.multiword = true end end end else if i < #alternant_multiword_spec.alternant_or_word_specs then alternant_or_word_spec.notlast = true end if #alternant_multiword_spec.alternant_or_word_specs > 1 then alternant_or_word_spec.multiword = true alternant_multiword_spec.multiword = true end end end end

local function conjugate_verb(base) if not conjs[base.conj] then error("Internal error: Unrecognized conjugation type '" .. base.conj .. "'") end conjs[base.conj](base) if base.multiword then -- See comment in add_variant_codes for the purpose of this. com.add_variant_codes(base) end handle_derived_slots_and_overrides(base) end

-- Compute the categories to add the verb to, as well as the annotation to display in the -- conjugation title bar. We combine the code to do these functions as both categories and -- title bar contain similar information. local function compute_categories_and_annotation(alternant_multiword_spec) local cats = {} local function insert(cattype) cattype = rsub(cattype, "~", alternant_multiword_spec.pos) m_table.insertIfNot(cats, "Hindi " .. cattype) end local annotation if alternant_multiword_spec.manual then alternant_multiword_spec.annotation = "" else local function do_word_spec(base) if base.lemma_translit and (lang:transliterate(base.lemma)) ~= base.lemma_translit then insert("~ with phonetic respelling") end end iut.map_word_specs(alternant_multiword_spec, function(base)			do_word_spec(base)		end) end alternant_multiword_spec.categories = cats end

-- Convert forms from their list/object form (see the comments to add for how this works) -- to strings that can be directly filled into the table. Approximately, each form is converted -- to a formatted link with accelerators and the results are concatenated, followed by an newline -- and then the formatted transliterations. local function show_forms(alternant_multiword_spec) local lemmas = alternant_multiword_spec.forms.inf_ms or {} local props = { lemmas = lemmas, slot_table = verb_slots_impers, lang = lang, include_translit = true, }	if alternant_multiword_spec.multiword then -- Remove variant codes that were added to ensure only parallel variants in -- multiword expressions like हिलना-डुलना get generated. See com.add_variant_codes -- for more information. props.canonicalize = function(form) return com.remove_variant_codes(form) end end iut.show_forms(alternant_multiword_spec.forms, props) alternant_multiword_spec.forms.footnote_impers = alternant_multiword_spec.forms.footnote props.slot_table = verb_slots_pers iut.show_forms(alternant_multiword_spec.forms, props) alternant_multiword_spec.forms.footnote_pers = alternant_multiword_spec.forms.footnote end

-- Generate the conjugation table. This should be called after show_forms has converted -- each form to a formatted string. local function make_table(alternant_multiword_spec) local table_spec_impersonal = [=[ Impersonal forms of {inf_raw} {\op}| class="inflection-table inflection-hi inflection-verb" data-toggle-category="inflection" style="width:100%" ! class="hi-tense-aspect-cell" colspan=100% | Undeclined ! class="hi-tense-aspect-cell" colspan=2 | Stem ! class="hi-tense-aspect-cell" colspan=2 | Infinitive ! class="hi-tense-aspect-cell" colspan=2 | Oblique Infinitive ! class="hi-tense-aspect-cell" colspan=2 | Conjunctive ! class="hi-tense-aspect-cell" colspan=2 | Progressive ! class="hi-tense-aspect-cell" colspan=100% | Participles ! {dir} {m} {s} ! {m} {p} {obl} {m} {s} ! {f} {s} ! {f} {p} ! class="hi-tense-aspect-cell" colspan=2 | Infinitive ! class="hi-tense-aspect-cell" colspan=2 | Habitual ! class="hi-tense-aspect-cell" colspan=2 | Perfective ! class="hi-tense-aspect-cell" colspan=2 | Prospective Agentive ! class="hi-tense-aspect-cell" rowspan=2 | Adjectival ! class="hi-tense-aspect-cell" | Perfective ! class="hi-tense-aspect-cell" | Habitual
 * colspan="100%" | {stem}
 * colspan="100%" | {inf}
 * colspan="100%" | {inf_obl}
 * colspan="100%" | {conj}
 * colspan="100%" | {prog}
 * - class="hi-part-gender-number-header"
 * class="hi-tense-aspect-cell" colspan=2 |
 * class="hi-tense-aspect-cell" colspan=2 |
 * {inf_ms}
 * {inf_mp}
 * {inf_fs}
 * {inf_fp}
 * {hab_ms}
 * {hab_mp}
 * {hab_fs}
 * {hab_fp}
 * {pfv_ms}
 * {pfv_mp}
 * {pfv_fs}
 * {pfv_fp}
 * {agent_ms}
 * {agent_mp}
 * {agent_fs}
 * {agent_fp}
 * {adj_pfv_ms}
 * {adj_pfv_mp}
 * {adj_pfv_fs}
 * {adj_pfv_fp}
 * {adj_hab_ms}
 * {adj_hab_mp}
 * {adj_hab_fs}
 * {adj_hab_fp}
 * {\cl}{notes_clause} ]=]

local person_number_header_two_row = [=[ ]=]
 * - class="hi-table-header"
 * rowspan=2 |
 * rowspan=2 |
 * class="hi-mf-cell" rowspan=2 |

local person_number_header_sg_pl_headers = [=[ ! colspan=3 | Singular ! colspan=3 | Plural ]=]

local person_number_header_table_div = [=[ ]=]
 * - class="hi-table-header"

local person_number_header_pers_num_headers = [=[ ! 1st मैं ! 2nd तू ! 3rd यह/वह, ये/वो ! 2nd तुम ! 1st हम ! 3rd, 2nd ये/वो/वे, आप ]=]

-- Regular person-number header used at the top of the table and in the middle. local person_number_header = person_number_header_table_div .. person_number_header_two_row .. person_number_header_sg_pl_headers .. person_number_header_table_div .. person_number_header_pers_num_headers -- Reversed person-number header used at the bottom of the table. "Reversed" means that -- the two rows are in reversed order; but internally we can't switch the order of everything -- (e.g. the double-row cells at the left side), so we need to break up the header into multiple -- parts and only reverse certain parts. local reversed_person_number_header = person_number_header_table_div .. person_number_header_two_row .. person_number_header_pers_num_headers .. person_number_header_table_div .. person_number_header_sg_pl_headers

local table_spec_personal = [=[ Personal forms of {inf_raw} {\op}| class="inflection-table inflection-hi inflection-verb" data-toggle-category="inflection" style="width:100%" ! class="hi-sec-div" rowspan=1 colspan=100% | Non-Aspectual {person_number_header}{pres_impf_table}! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | {PERF} ! class="hi-mf-cell" | {m} ! class="hi-mf-cell" | {f} ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | {FUT} ! class="hi-mf-cell" | {m} ! class="hi-mf-cell" | {f} {presum_table}{subj_table} ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | Contrafactual ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | {PST} ! class="hi-mf-cell" | {m} ! class="hi-mf-cell" | {f} ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | Imperative ! class="hi-tense-aspect-cell" rowspan=1 colspan=1 | {PRS} ! class="hi-mf-cell" | {mf} ! class="hi-tense-aspect-cell" rowspan=1 colspan=1 | {FUT} ! class="hi-mf-cell" | {mf} ! class="hi-sec-div" rowspan=1 colspan=100% | Habitual Aspect ! class="hi-tense-aspect-cell" rowspan=4 colspan=1 | Indicative ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | {PRS} ! class="hi-mf-cell" | {m} ! class="hi-mf-cell" | {f} ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | {PST} ! class="hi-mf-cell" | {m} ! class="hi-mf-cell" | {f} ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | Presumptive ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | {PRS_PST} ! class="hi-mf-cell" | {m} ! class="hi-mf-cell" | {f} ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | Subjunctive ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | {PRS} ! class="hi-mf-cell" | {m} ! class="hi-mf-cell" | {f} ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | Contrafactual ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | {PST} ! class="hi-mf-cell" | {m} ! class="hi-mf-cell" | {f} ! class="hi-sec-div" rowspan=1 colspan=100% | Perfective Aspect {person_number_header}|- class="hi-row-m" ! class="hi-tense-aspect-cell" rowspan=6 colspan=1 | Indicative ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | {PRS} ! class="hi-mf-cell" | {m} ! class="hi-mf-cell" | {f} ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | {PST} ! class="hi-mf-cell" | {m} ! class="hi-mf-cell" | {f} ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | {FUT} ! class="hi-mf-cell" | {m} ! class="hi-mf-cell" | {f} ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | Presumptive ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | {PRS_PST} ! class="hi-mf-cell" | {m} ! class="hi-mf-cell" | {f} ! class="hi-tense-aspect-cell" rowspan=4 colspan=1 | Subjunctive ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | {PRS} ! class="hi-mf-cell" | {m} ! class="hi-mf-cell" | {f} ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | {FUT} ! class="hi-mf-cell" | {m} ! class="hi-mf-cell" | {f} ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | Contrafactual ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | {PST} ! class="hi-mf-cell" | {m} ! class="hi-mf-cell" | {f} ! class="hi-sec-div" rowspan=1 colspan=100% | Progressive Aspect ! class="hi-tense-aspect-cell" rowspan=6 colspan=1 | Indicative ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | {PRS} ! class="hi-mf-cell" | {m} ! class="hi-mf-cell" | {f} ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | {PST} ! class="hi-mf-cell" | {m} ! class="hi-mf-cell" | {f} ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | {FUT} ! class="hi-mf-cell" | {m} ! class="hi-mf-cell" | {f} ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | Presumptive ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | {PRS_PST_FUT} ! class="hi-mf-cell" | {m} ! class="hi-mf-cell" | {f} ! class="hi-tense-aspect-cell" rowspan=4 colspan=1 | Subjunctive ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | {PRS} ! class="hi-mf-cell" | {m} ! class="hi-mf-cell" | {f} ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | {FUT} ! class="hi-mf-cell" | {m} ! class="hi-mf-cell" | {f} ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | Contrafactual ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | {PST} ! class="hi-mf-cell" | {m} ! class="hi-mf-cell" | {f} {reversed_person_number_header}|{\cl}{notes_clause} ]=]
 * colspan=3 | {ind_perf_ms}
 * colspan=3 | {ind_perf_mp}
 * - class="hi-row-f"
 * colspan=4 | {ind_perf_fs}
 * colspan=2 | {ind_perf_fp}
 * - class="hi-row-m"
 * {ind_fut_1sm}
 * colspan=2 | {ind_fut_23sm}
 * {ind_fut_2pm}
 * colspan=2 | {ind_fut_13pm}
 * - class="hi-row-f"
 * {ind_fut_1sf}
 * colspan=2 | {ind_fut_23sf}
 * {ind_fut_2pf}
 * colspan=2 | {ind_fut_13pf}
 * - class="hi-row-m"
 * colspan=3 | {cfact_ms}
 * colspan=3 | {cfact_mp}
 * - class="hi-row-f"
 * colspan=4 | {cfact_fs}
 * colspan=2 | {cfact_fp}
 * {imp_pres_2s}
 * {imp_pres_2p}
 * {imp_pres_3p}
 * {imp_pres_2p}
 * {imp_pres_3p}
 * {imp_pres_3p}
 * {imp_fut_2s}
 * {imp_fut_2p}
 * {imp_fut_3p}
 * {imp_fut_2p}
 * {imp_fut_3p}
 * {imp_fut_3p}
 * - class="hi-row-m"
 * {hab_ind_pres_1sm}
 * colspan=2 | {hab_ind_pres_23sm}
 * {hab_ind_pres_2pm}
 * colspan=2 | {hab_ind_pres_13pm}
 * - class="hi-row-f"
 * {hab_ind_pres_1sf}
 * colspan=2 | {hab_ind_pres_23sf}
 * {hab_ind_pres_2pf}
 * colspan=2 | {hab_ind_pres_13pf}
 * - class="hi-row-m"
 * colspan=3 | {hab_ind_past_ms}
 * colspan=3 | {hab_ind_past_mp}
 * - class="hi-row-f"
 * colspan=4 | {hab_ind_past_fs}
 * colspan=2 | {hab_ind_past_fp}
 * - class="hi-row-m"
 * {hab_presum_1sm}
 * colspan=2 | {hab_presum_23sm}
 * {hab_presum_2pm}
 * colspan=2 | {hab_presum_13pm}
 * - class="hi-row-f"
 * {hab_presum_1sf}
 * colspan=2 | {hab_presum_23sf}
 * {hab_presum_2pf}
 * colspan=2 | {hab_presum_13pf}
 * - class="hi-row-m"
 * {hab_subj_1sm}
 * colspan=2 | {hab_subj_23sm}
 * {hab_subj_2pm}
 * colspan=2 | {hab_subj_13pm}
 * - class="hi-row-f"
 * {hab_subj_1sf}
 * colspan=2 | {hab_subj_23sf}
 * {hab_subj_2pf}
 * colspan=2 | {hab_subj_13pf}
 * - class="hi-row-m"
 * colspan=3 | {hab_cfact_ms}
 * colspan=3 | {hab_cfact_mp}
 * - class="hi-row-f"
 * colspan=4 | {hab_cfact_fs}
 * colspan=2 | {hab_cfact_fp}
 * {pfv_ind_pres_1sm}
 * colspan=2 | {pfv_ind_pres_23sm}
 * {pfv_ind_pres_2pm}
 * colspan=2 | {pfv_ind_pres_13pm}
 * - class="hi-row-f"
 * {pfv_ind_pres_1sf}
 * colspan=2 | {pfv_ind_pres_23sf}
 * {pfv_ind_pres_2pf}
 * colspan=2 | {pfv_ind_pres_13pf}
 * - class="hi-row-m"
 * colspan=3 | {pfv_ind_past_ms}
 * colspan=3 | {pfv_ind_past_mp}
 * - class="hi-row-f"
 * colspan=4 | {pfv_ind_past_fs}
 * colspan=2 | {pfv_ind_past_fp}
 * - class="hi-row-m"
 * {pfv_ind_fut_1sm}
 * colspan=2 | {pfv_ind_fut_23sm}
 * {pfv_ind_fut_2pm}
 * colspan=2 | {pfv_ind_fut_13pm}
 * - class="hi-row-f"
 * {pfv_ind_fut_1sf}
 * colspan=2 | {pfv_ind_fut_23sf}
 * {pfv_ind_fut_2pf}
 * colspan=2 | {pfv_ind_fut_13pf}
 * - class="hi-row-m"
 * {pfv_presum_1sm}
 * colspan=2 | {pfv_presum_23sm}
 * {pfv_presum_2pm}
 * colspan=2 | {pfv_presum_13pm}
 * - class="hi-row-f"
 * {pfv_presum_1sf}
 * colspan=2 | {pfv_presum_23sf}
 * {pfv_presum_2pf}
 * colspan=2 | {pfv_presum_13pf}
 * - class="hi-row-m"
 * {pfv_subj_pres_1sm}
 * colspan=2 | {pfv_subj_pres_23sm}
 * {pfv_subj_pres_2pm}
 * colspan=2 | {pfv_subj_pres_13pm}
 * - class="hi-row-f"
 * {pfv_subj_pres_1sf}
 * colspan=2 | {pfv_subj_pres_23sf}
 * {pfv_subj_pres_2pf}
 * colspan=2 | {pfv_subj_pres_13pf}
 * - class="hi-row-m"
 * {pfv_subj_fut_1sm}
 * colspan=2 | {pfv_subj_fut_23sm}
 * {pfv_subj_fut_2pm}
 * colspan=2 | {pfv_subj_fut_13pm}
 * - class="hi-row-f"
 * {pfv_subj_fut_1sf}
 * colspan=2 | {pfv_subj_fut_23sf}
 * {pfv_subj_fut_2pf}
 * colspan=2 | {pfv_subj_fut_13pf}
 * - class="hi-row-m"
 * colspan=3 | {pfv_cfact_ms}
 * colspan=3 | {pfv_cfact_mp}
 * - class="hi-row-f"
 * colspan=4 | {pfv_cfact_fs}
 * colspan=2 | {pfv_cfact_fp}
 * - class="hi-row-m"
 * {prog_ind_pres_1sm}
 * colspan=2 | {prog_ind_pres_23sm}
 * {prog_ind_pres_2pm}
 * colspan=2 | {prog_ind_pres_13pm}
 * - class="hi-row-f"
 * {prog_ind_pres_1sf}
 * colspan=2 | {prog_ind_pres_23sf}
 * {prog_ind_pres_2pf}
 * colspan=2 | {prog_ind_pres_13pf}
 * - class="hi-row-m"
 * colspan=3 | {prog_ind_past_ms}
 * colspan=3 | {prog_ind_past_mp}
 * - class="hi-row-f"
 * colspan=4 | {prog_ind_past_fs}
 * colspan=2 | {prog_ind_past_fp}
 * - class="hi-row-m"
 * {prog_ind_fut_1sm}
 * colspan=2 | {prog_ind_fut_23sm}
 * {prog_ind_fut_2pm}
 * colspan=2 | {prog_ind_fut_13pm}
 * - class="hi-row-f"
 * {prog_ind_fut_1sf}
 * colspan=2 | {prog_ind_fut_23sf}
 * {prog_ind_fut_2pf}
 * colspan=2 | {prog_ind_fut_13pf}
 * - class="hi-row-m"
 * {prog_presum_1sm}
 * colspan=2 | {prog_presum_23sm}
 * {prog_presum_2pm}
 * colspan=2 | {prog_presum_13pm}
 * - class="hi-row-f"
 * {prog_presum_1sf}
 * colspan=2 | {prog_presum_23sf}
 * {prog_presum_2pf}
 * colspan=2 | {prog_presum_13pf}
 * - class="hi-row-m"
 * {prog_subj_pres_1sm}
 * colspan=2 | {prog_subj_pres_23sm}
 * {prog_subj_pres_2pm}
 * colspan=2 | {prog_subj_pres_13pm}
 * - class="hi-row-f"
 * {prog_subj_pres_1sf}
 * colspan=2 | {prog_subj_pres_23sf}
 * {prog_subj_pres_2pf}
 * colspan=2 | {prog_subj_pres_13pf}
 * - class="hi-row-m"
 * {prog_subj_fut_1sm}
 * colspan=2 | {prog_subj_fut_23sm}
 * {prog_subj_fut_2pm}
 * colspan=2 | {prog_subj_fut_13pm}
 * - class="hi-row-f"
 * {prog_subj_fut_1sf}
 * colspan=2 | {prog_subj_fut_23sf}
 * {prog_subj_fut_2pf}
 * colspan=2 | {prog_subj_fut_13pf}
 * - class="hi-row-m"
 * colspan=3 | {prog_cfact_ms}
 * colspan=3 | {prog_cfact_mp}
 * - class="hi-row-f"
 * colspan=4 | {prog_cfact_fs}
 * colspan=2 | {prog_cfact_fp}

local pres_impf_table = [=[ ! class="hi-tense-aspect-cell" rowspan=7 colspan=1 | Indicative ! class="hi-tense-aspect-cell" rowspan=1 colspan=1 | {PRS} ! class="hi-mf-cell" | {mf} ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | {IMPF} ! class="hi-mf-cell" | {m} ! class="hi-mf-cell" | {f} ]=]
 * {ind_pres_1s}
 * colspan=2 | {ind_pres_23s}
 * {ind_pres_2p}
 * colspan=2 | {ind_pres_13p}
 * - class="hi-row-m"
 * colspan=3 | {ind_impf_ms}
 * colspan=3 | {ind_impf_mp}
 * - class="hi-row-f"
 * colspan=4 | {ind_impf_fs}
 * colspan=2 | {ind_impf_fp}
 * - class="hi-row-m"

local pres_impf_table_missing = [=[ ! class="hi-tense-aspect-cell" rowspan=4 colspan=1 | Indicative ]=]
 * - class="hi-row-m"

local presum_table = [=[ ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | Presumptive ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | {PRS_PST_FUT} ! class="hi-mf-cell" | {m} ! class="hi-mf-cell" | {f} ]=]
 * - class="hi-row-m"
 * {presum_1sm}
 * colspan=2 | {presum_23sm}
 * {presum_2pm}
 * colspan=2 | {presum_13pm}
 * - class="hi-row-f"
 * {presum_1sf}
 * colspan=2 | {presum_23sf}
 * {presum_2pf}
 * colspan=2 | {presum_13pf}

local combined_subj = [=[ ! class="hi-tense-aspect-cell" rowspan=1 colspan=1 | Subjunctive ! class="hi-tense-aspect-cell" rowspan=1 colspan=1 | {FUT} ! class="hi-mf-cell" | {mf}
 * {subj_fut_1s}
 * colspan=2 | {subj_fut_23s}
 * {subj_fut_2p}
 * colspan=2 | {subj_fut_13p}]=]

local split_subj = [=[ ! class="hi-tense-aspect-cell" rowspan=2 colspan=1 | Subjunctive ! class="hi-tense-aspect-cell" rowspan=1 colspan=1 | {PRS} ! class="hi-mf-cell" | {mf} ! class="hi-tense-aspect-cell" rowspan=1 colspan=1 | {FUT} ! class="hi-mf-cell" | {mf}
 * {subj_pres_1s}
 * colspan=2 | {subj_pres_23s}
 * {subj_pres_2p}
 * colspan=2 | {subj_pres_13p}
 * {subj_fut_1s}
 * colspan=2 | {subj_fut_23s}
 * {subj_fut_2p}
 * colspan=2 | {subj_fut_13p}]=]

local notes_template = [===[ {footnote} ]===]

local forms = alternant_multiword_spec.forms

local function make_gender_abbr(title, text) return ' ' .. text .. ' '	end local function make_tense_aspect_abbr(title, text) local template = [=[ {text} ]=] return m_string_utilities.format(template, {title = title, text = text}) end forms.m = make_gender_abbr("masculine gender", "m") forms.f = make_gender_abbr("feminine gender", "f") forms.mf = forms.m .. " " .. forms.f	forms.s = make_gender_abbr("singular number", "s") forms.p = make_gender_abbr("plural number", "p") forms.dir = make_gender_abbr("direct", "dir") forms.obl = make_gender_abbr("oblique", "obl") forms.PERF = make_tense_aspect_abbr("Perfect", "PERF") forms.IMPF = make_tense_aspect_abbr("Imperfect", "IMPF") forms.PST = make_tense_aspect_abbr("Past", "PST") forms.FUT = make_tense_aspect_abbr("Future", "FUT") forms.PRS = make_tense_aspect_abbr("Present", "PRS") forms.PRS_FUT = make_tense_aspect_abbr("Present/Future", "PRS FUT") forms.PRS_PST = make_tense_aspect_abbr("Present/Past", "PRS PST") forms.PRS_PST_FUT = make_tense_aspect_abbr("Present/Past/Future", "PRS PST FUT") forms.inf_raw = tag_text(forms.lemma)

-- Now format the impersonal table. forms.footnote = forms.footnote_impers forms.notes_clause = forms.footnote ~= "" and m_string_utilities.format(notes_template, forms) or "" local formatted_table_impers = m_string_utilities.format(table_spec_impersonal, forms)

-- Now format the personal table. forms.footnote = forms.footnote_pers forms.notes_clause = forms.footnote ~= "" and m_string_utilities.format(notes_template, forms) or "" if forms.ind_pres_1s ~= "—" then -- होना forms.subj_table = m_string_utilities.format(split_subj, forms) forms.pres_impf_table = m_string_utilities.format(pres_impf_table, forms) forms.presum_table = m_string_utilities.format(presum_table, forms) else forms.subj_table = m_string_utilities.format(combined_subj, forms) forms.pres_impf_table = pres_impf_table_missing forms.presum_table = "" end forms.person_number_header = person_number_header forms.reversed_person_number_header = reversed_person_number_header local formatted_table_pers = m_string_utilities.format(table_spec_personal, forms)

-- Concatenate both. return require("Module:TemplateStyles")("Module:hi-verb/style.css") .. formatted_table_impers .. formatted_table_pers end

-- Externally callable function to parse and conjugate a verb given user-specified arguments. -- Return value is WORD_SPEC, an object where the conjugated forms are in `WORD_SPEC.forms` -- for each slot. If there are no values for a slot, the slot key will be missing. The value -- for a given slot is a list of objects {form=FORM, translit=TRANSLIT, footnotes=FOOTNOTES}. function export.do_generate_forms(parent_args, pos, from_headword, def) local params = { [1] = {template_default = def or "करना"}, title = {}, pagename = {}, }

if from_headword then params["lemma"] = {list = true} params["id"] = {} end

local args = m_para.process(parent_args, params) local pagename = args.pagename or mw.loadData("Module:headword/data").pagename

if not args[1] then args[1] = pagename -- If pagename has spaces in it, add links around each word if args[1]:find(" ") then args[1] = "" .. rsub(args[1], " ", " ") .. "" end end local parse_props = { parse_indicator_spec = parse_indicator_spec, lang = lang, transliterate_respelling = com.transliterate_respelling, allow_default_indicator = true, allow_blank_lemma = true, }	local alternant_multiword_spec = iut.parse_inflected_text(args[1], parse_props) alternant_multiword_spec.title = args.title alternant_multiword_spec.pos = pos or "verbs" alternant_multiword_spec.args = args alternant_multiword_spec.pagename = pagename com.normalize_all_lemmas(alternant_multiword_spec) detect_all_indicator_specs(alternant_multiword_spec) local inflect_props = { slot_table = all_verb_slots, lang = lang, inflect_word_spec = conjugate_verb, -- Return the variant code that was added to ensure only parallel variants in -- multiword expressions like हिलना-डुलना get generated. See com.add_variant_codes -- for more information. get_variants = alternant_multiword_spec.multiword and com.get_variants or nil, -- We add links around the generated verbal forms rather than allow the entire multiword -- expression to be a link, so ensure that user-specified links get included as well. include_user_specified_links = true, }	iut.inflect_multiword_or_alternant_multiword_spec(alternant_multiword_spec, inflect_props) compute_categories_and_annotation(alternant_multiword_spec) return alternant_multiword_spec end

-- Entry point for. Template-callable function to parse and conjugate a verb given -- user-specified arguments and generate a displayable table of the conjugated forms. function export.show(frame) local parent_args = frame:getParent.args local alternant_multiword_spec = export.do_generate_forms(parent_args) show_forms(alternant_multiword_spec) return make_table(alternant_multiword_spec) .. require("Module:utilities").format_categories(alternant_multiword_spec.categories, lang) end

-- Concatenate all forms of all slots into a single string of the form -- "SLOT=FORM,FORM,...|SLOT=FORM,FORM,...|...". Each FORM is either a string in Devanagari or -- (if manual translit is present) a specification of the form "FORM//TRANSLIT" where FORM is the -- Devanagari representation of the form and TRANSLIT its manual transliteration. Embedded pipe symbols -- (as might occur in embedded links) are converted to <!>. If INCLUDE_PROPS is given, also include -- additional properties (currently, none). This is for use by bots. local function concat_forms(alternant_multiword_spec, include_props) local ins_text = {} for slot, _ in pairs(all_verb_slots) do		local formtext = iut.concat_forms_in_slot(alternant_multiword_spec.forms[slot]) if formtext then table.insert(ins_text, slot .. "=" .. formtext) end end return table.concat(ins_text, "|") end

-- Template-callable function to parse and conjugate a verb given user-specified arguments and return -- the forms as a string of the same form as documented in concat_forms above. function export.generate_forms(frame) local include_props = frame.args["include_props"] local parent_args = frame:getParent.args local alternant_multiword_spec = export.do_generate_forms(parent_args) return concat_forms(alternant_multiword_spec, include_props) end

return export