মডিউল:la-verb
এই মডিউলের জন্য মডিউল:la-verb/নথি-এ নথিপত্র তৈরি করা হয়ে থাকতে পারে
local m_utilities = require("Module:utilities")
local m_table = require("Module:table")
-- FIXME, port remaining functions to [[Module:table]] and use it instead
local ut = require("Module:utils")
local m_links = require("Module:links")
local make_link = m_links.full_link
local m_la_headword = require("Module:la-headword")
local m_la_utilities = require("Module:la-utilities")
local m_para = require("Module:parameters")
-- TODO:
-- 1. (DONE) detect_decl_and_subtypes doesn't do anything with perf_stem or supine_stem.
-- 2. (DONE) Should error on bad subtypes.
-- 3. Make sure Google Books link still works.
-- 4. (DONE) Add 4++ that has alternative perfects -īvī/-iī.
-- 5. (DONE) If sup but no perf, allow passive perfect forms unless no-pasv-perf.
-- 6. (DONE) Remove no-actv-perf.
-- 7. (DONE) Support plural prefix/suffix and plural passive prefix/suffix
--
-- If enabled, compare this module with new version of module to make
-- sure all conjugations are the same.
local test_new_la_verb_module = false
local export = {}
local lang = require("Module:languages").getByCode("la")
local title = mw.title.getCurrentTitle()
local NAMESPACE = title.nsText
local PAGENAME = title.text
-- Conjugations are the functions that do the actual
-- conjugating by creating the forms of a basic verb.
-- They are defined further down.
local conjugations = {}
-- Check if this verb is reconstructed
-- i.e. the pagename is Reconstruction:Latin/...
local reconstructed = NAMESPACE == "Reconstruction" and PAGENAME:find("^Latin/")
-- Forward functions
local postprocess
local make_pres_1st
local make_pres_2nd
local make_pres_3rd
local make_pres_3rd_io
local make_pres_4th
local make_perf_and_supine
local make_perf
local make_deponent_perf
local make_supine
local make_sigm
local make_table
local make_indc_rows
local make_subj_rows
local make_impr_rows
local make_nonfin_rows
local make_vn_rows
local make_footnotes
local override
local checkexist
local checkirregular
local flatten_values
local link_google_books
local split = mw.text.split
local find = mw.ustring.find
local len = mw.ustring.len
local match = mw.ustring.match
local sub = mw.ustring.sub
local gsub = mw.ustring.gsub
local toNFD = mw.ustring.toNFD
-- version of gsub() that discards all but the first return value
local function gsub1(term, foo, bar)
local retval = gsub(term, foo, bar)
return retval
end
local function cfind(str, text)
-- Constant version of :find()
return str:find(text, nil, true)
end
local function form_is_empty(form)
return not form or form == "" or form == "-" or form == "—" or form == "—" or (
type(form) == "table" and (form[1] == "" or form[1] == "-" or form[1] == "—" or form[1] == "—")
)
end
local function initialize_slots()
local generic_slots = {}
local non_generic_slots = {}
local function handle_slot(slot, generic)
if generic then
table.insert(generic_slots, slot)
else
table.insert(non_generic_slots, slot)
end
end
for _, v in ipairs({"actv", "pasv"}) do
local function handle_tense(t, mood)
local non_pers_slot = t .. "_" .. v .. "_" .. mood
handle_slot(non_pers_slot, true)
for _, p in ipairs({"1s", "2s", "3s", "1p", "2p", "3p"}) do
handle_slot(p .. "_" .. non_pers_slot, false)
end
end
for _, t in ipairs({"pres", "impf", "futr", "perf", "plup", "futp", "sigf"}) do
handle_tense(t, "indc")
end
for _, t in ipairs({"pres", "impf", "perf", "plup", "siga"}) do
handle_tense(t, "subj")
end
for _, t in ipairs({"pres", "futr"}) do
handle_tense(t, "impr")
end
end
for _, f in ipairs({"inf", "ptc"}) do
for _, t in ipairs({"pres_actv", "perf_actv", "futr_actv", "pres_pasv", "perf_pasv", "futr_pasv"}) do
handle_slot(t .. "_" .. f, false)
end
end
for _, n in ipairs({"ger_gen", "ger_dat", "ger_acc", "ger_abl", "sup_acc", "sup_abl"}) do
handle_slot(n, false)
end
return non_generic_slots, generic_slots
end
local non_generic_slots, generic_slots = initialize_slots()
local potential_lemma_slots = {
"1s_pres_actv_indc", -- regular
"3s_pres_actv_indc", -- impersonal
"1s_perf_actv_indc", -- coepī
"3s_perf_actv_indc", -- doesn't occur?
}
-- Iterate over all the "slots" associated with a verb declension, where a slot
-- is e.g. 1s_pres_actv_indc (a non-generic slot), pres_actv_indc (a generic slot),
-- or linked_1s_pres_actv_indc (a linked slot). Only include the generic and/or linked
-- slots if called for.
local function iter_slots(include_generic, include_linked)
-- stage == 1: non-generic slots
-- stage == 2: generic slots
-- stage == 3: linked slots
local stage = 1
local slotnum = 0
local max_slotnum = #non_generic_slots
local function iter()
slotnum = slotnum + 1
if slotnum > max_slotnum then
slotnum = 1
stage = stage + 1
if stage == 2 then
if include_generic then
max_slotnum = #generic_slots
else
stage = stage + 1
end
end
if stage == 3 then
if include_linked then
max_slotnum = #potential_lemma_slots
else
stage = stage + 1
end
end
if stage > 3 then
return nil
end
end
if stage == 1 then
return non_generic_slots[slotnum]
elseif stage == 2 then
return generic_slots[slotnum]
else
return "linked_" .. potential_lemma_slots[slotnum]
end
end
return iter
end
local function ine(val)
if val == "" then
return nil
else
return val
end
end
local function track(page)
require("Module:debug").track("la-verb/" .. page)
return true
end
-- For a given form, we allow either strings (a single form) or lists of forms,
-- and treat strings equivalent to one-element lists.
local function forms_equal(form1, form2)
if type(form1) ~= "table" then
form1 = {form1}
end
if type(form2) ~= "table" then
form2 = {form2}
end
return m_table.deepEquals(form1, form2)
end
local function concat_vals(val)
if type(val) == "table" then
return table.concat(val, ",")
else
return val
end
end
-- Construct a one- or two-part link. For reasons I don't understand, if we're in
-- the reconstructed namespace (e.g. for the page [[Reconstruction:Latin/nuo]]), we
-- need to construct a special type of link; full_link() doesn't handle this
-- correctly (although it tries ...). Ideally we should fix full_link() instead of
-- doing this.
local function make_raw_link(page, display)
if reconstructed then
display = display or page
page = lang:makeEntryName(page)
return "[[" .. NAMESPACE .. ":Latin/" .. page .. "|" .. display .. "]]"
elseif display then
return "[[" .. lang:makeEntryName(page) .. "|" .. display .. "]]"
else
return "[[" .. page .. "]]"
end
end
local function split_prefix_and_base(lemma, main_verbs)
for _, main in ipairs(main_verbs) do
local prefix = match(lemma, "^(.*)" .. main .. "$")
if prefix then
return prefix, main
end
end
error("Argument " .. lemma .. " doesn't end in any of " .. table.concat(main_verbs, ","))
end
-- Given an ending (or possibly a full regex matching the entire lemma, if
-- a regex group is present), return the base minus the ending, or nil if
-- the ending doesn't match.
local function extract_base(lemma, ending)
if ending:find("%(") then
return match(lemma, ending)
else
return match(lemma, "^(.*)" .. ending .. "$")
end
end
-- Given ENDINGS_AND_SUBTYPES (a list of pairs of endings with associated
-- subtypes, where each pair consists of a single ending spec and a list of
-- subtypes), check each ending in turn against LEMMA. If it matches, return
-- the pair BASE, SUBTYPES where BASE is the remainder of LEMMA minus the
-- ending, and SUBTYPES is the subtypes associated with the ending. If no
-- endings match, throw an error if DECLTYPE is non-nil, mentioning the
-- DECLTYPE (the user-specified declension); but if DECLTYPE is nil, just
-- return the pair nil, nil.
--
-- The ending spec in ENDINGS_AND_SUBTYPES is one of the following:
--
-- 1. A simple string, e.g. "ātur", specifying an ending.
-- 2. A regex that should match the entire lemma (it should be anchored at
-- the beginning with ^ and at the end with $), and contains a single
-- capturing group to match the base.
local function get_subtype_by_ending(lemma, conjtype, specified_subtypes,
endings_and_subtypes)
for _, ending_and_subtypes in ipairs(endings_and_subtypes) do
local ending = ending_and_subtypes[1]
local subtypes = ending_and_subtypes[2]
not_this_subtype = false
for _, subtype in ipairs(subtypes) do
-- A subtype is directly canceled by specifying -SUBTYPE.
if specified_subtypes["-" .. subtype] then
not_this_subtype = true
break
end
end
if not not_this_subtype then
local base = extract_base(lemma, ending)
if base then
return base, subtypes
end
end
end
if conjtype then
error("Unrecognized ending for conjugation-" .. conjtype .. " verb: " .. lemma)
end
return nil, nil
end
local irreg_verbs_to_conj_type = {
["aiō"] = "3rd-io",
["aiiō"] = "3rd-io",
["ajō"] = "3rd-io",
["dīcō"] = "3rd",
["dūcō"] = "3rd",
["faciō"] = "3rd-io",
["fīō"] = "3rd",
["ferō"] = "3rd",
["inquam"] = "irreg",
["libet"] = "2nd",
["lubet"] = "2nd",
["licet"] = "2nd",
["volō"] = "irreg",
["mālō"] = "irreg",
["nōlō"] = "irreg",
["possum"] = "irreg",
["piget"] = "2nd",
["coepī"] = "irreg",
["sum"] = "irreg",
["edō"] = "3rd",
["dō"] = "1st",
["eō"] = "irreg",
}
local function detect_decl_and_subtypes(args)
local specs = split(args[1] or "", "%.")
local subtypes = {}
local conj_arg
for i, spec in ipairs(specs) do
if i == 1 then
conj_arg = spec
else
local begins_with_hyphen = find(spec, "^%-")
spec = spec:gsub("%-", "")
if begins_with_hyphen then
spec = "-" .. spec
end
subtypes[spec] = true
end
end
local orig_lemma = args[2] or mw.title.getCurrentTitle().subpageText
orig_lemma = gsub1(orig_lemma, "o$", "ō")
local lemma = m_links.remove_links(orig_lemma)
local base, conjtype, conj_subtype, detected_subtypes
local base_conj_arg, auto_perf_supine = match(conj_arg, "^([124])(%+%+?)$")
if base_conj_arg then
if auto_perf_supine == "++" and base_conj_arg ~= "4" then
error("Conjugation types 1++ and 2++ not allowed")
end
conj_arg = base_conj_arg
end
if sub(orig_lemma, 1, 1) == "-" then
subtypes.suffix = true
end
local auto_perf, auto_supine, auto_sigm
if subtypes.sigm or subtypes.sigmpasv or subtypes.suffix then
auto_sigm = true
end
if conj_arg == "1" then
conjtype = "1st"
base, detected_subtypes = get_subtype_by_ending(lemma, "1", subtypes, {
{"ō", {}},
{"or", {"depon"}},
{"at", {"impers"}},
{"ātur", {"depon", "impers"}},
{"ī", {"perfaspres"}},
})
if auto_perf_supine then
if subtypes.perfaspres then
auto_perf = base
else
auto_perf = base .. "āv"
auto_supine = base .. "āt"
end
end
if auto_sigm then
auto_sigm = base .. "āss"
end
if subtypes.suffix then
subtypes.p3inf = true
subtypes.sigmpasv = true
end
elseif conj_arg == "2" then
conjtype = "2nd"
base, detected_subtypes = get_subtype_by_ending(lemma, "2", subtypes, {
{"eō", {}},
{"eor", {"depon"}},
{"et", {"impers"}},
{"ētur", {"depon", "impers"}},
{"ī", {"perfaspres"}},
})
if auto_perf_supine then
if subtypes.perfaspres then
auto_perf = base
else
auto_perf = base .. "u"
auto_supine = base .. "it"
end
end
if auto_sigm then
auto_sigm = "-/ēss"
end
if subtypes.suffix then
subtypes.sigmpasv = true
end
elseif conj_arg == "3" then
base, detected_subtypes = get_subtype_by_ending(lemma, nil, subtypes, {
{"iō", {"I"}},
{"ior", {"depon", "I"}},
})
if base then
conjtype = "3rd-io"
else
base, detected_subtypes = get_subtype_by_ending(lemma, "3", subtypes, {
{"ō", {}},
{"or", {"depon"}},
{"it", {"impers"}},
{"itur", {"depon", "impers"}},
{"ī", {"perfaspres"}},
})
if subtypes.I then
conjtype = "3rd-io"
else
conjtype = "3rd"
end
end
if subtypes.perfaspres then
auto_perf = base
end
if subtypes.suffix then
auto_perf = "-"
auto_supine = "-"
auto_sigm = "-"
subtypes.sigmpasv = true
end
elseif conj_arg == "4" then
conjtype = "4th"
base, detected_subtypes = get_subtype_by_ending(lemma, "4", subtypes, {
{"iō", {}},
{"ior", {"depon"}},
{"it", {"impers"}},
{"ītur", {"depon", "impers"}},
{"ī", {"perfaspres"}},
})
if subtypes.perfaspres then
auto_perf = base
elseif auto_perf_supine == "++" then
auto_perf = base .. "īv/" .. base .. "i"
auto_supine = base .. "īt"
elseif auto_perf_supine == "+" then
auto_perf = base .. "īv"
auto_supine = base .. "īt"
end
if auto_sigm then
auto_sigm = base .. "īss"
end
if subtypes.suffix then
subtypes.sigm = true
end
elseif conj_arg == "irreg" then
conjtype = "irreg"
local prefix
prefix, base = split_prefix_and_base(lemma, {
"aiō",
"aiiō",
"ajō",
"dīcō",
"dūcō",
"faciō",
"fīō",
"ferō",
"inquam",
"libet",
"lubet",
"licet",
"volō",
"mālō",
"nōlō",
"possum",
"piget",
"coepī",
-- list sum after possum
"sum",
-- FIXME: Will praedō cause problems?
"edō",
-- list dō after edō
"dō",
"eō",
})
conj_subtype = irreg_verbs_to_conj_type[base]
args[1] = m_la_utilities.strip_macrons(base)
args[2] = prefix
-- args[3] and args[4] are used by ferō and sum and stay where they are
detected_subtypes = {}
else
error("Unrecognized conjugation '" .. conj_arg .. "'")
end
for _, detected_subtype in ipairs(detected_subtypes) do
if detected_subtype == "impers" and subtypes["3only"] then
-- 3only overrides impers
else
subtypes[detected_subtype] = true
end
end
if conjtype ~= "irreg" then
args[1] = base
local perf_stem, supine_stem
if subtypes.depon or subtypes.semidepon or subtypes.perfaspres then
supine_stem = args[3] or auto_supine
if supine_stem == "-" and not subtypes.suffix then
supine_stem = nil
end
if not supine_stem then
if subtypes.depon or subtypes.semidepon then
subtypes.noperf = true
end
subtypes.nosup = true
end
if subtypes.sigm or subtypes.sigmpasv then
local sigm_stem = args[5] or auto_sigm
if sigm_stem == "-" and not subtypes.suffix then
sigm_stem = nil
end
args[5] = sigm_stem
end
args[2] = supine_stem
args[3] = nil
else
perf_stem = args[3] or auto_perf
if perf_stem == "-" and not subtypes.suffix then
perf_stem = nil
end
if not perf_stem then
subtypes.noperf = true
end
supine_stem = args[4] or auto_supine
if supine_stem == "-" and not subtypes.suffix then
supine_stem = nil
end
if not supine_stem then
subtypes.nosup = true
end
if subtypes.sigm or subtypes.sigmpasv then
local sigm_stem = args[5] or auto_sigm
if sigm_stem == "-" and not subtypes.suffix then
sigm_stem = nil
end
args[5] = sigm_stem
end
args[2] = perf_stem
args[3] = supine_stem
end
args[4] = nil
end
for subtype, _ in pairs(subtypes) do
if not m_la_headword.allowed_subtypes[subtype] and
not m_la_headword.allowed_subtypes[sub(subtype, 2)] and
not (conjtype == "3rd" and subtype == "-I") and
not (conjtype == "3rd-io" and subtype == "I") and
not (subtype == "nound" or subtype == "sigm" or subtype == "sigmpasv" or subtype == "suffix") then
error("Unrecognized verb subtype " .. subtype)
end
end
return conjtype, conj_subtype, subtypes, orig_lemma, lemma
end
-- The main new entry point.
function export.show(frame)
local parent_args = frame:getParent().args
local data, typeinfo = export.make_data(parent_args)
local domain = frame:getParent().args['search']
-- Test code to compare existing module to new one.
if test_new_la_verb_module then
local m_new_la_verb = require("Module:User:Benwing2/la-verb")
local miscdata = {
title = data.title,
categories = data.categories,
}
local new_parent_args = frame:getParent().args
local newdata, newtypeinfo = m_new_la_verb.make_data(new_parent_args)
local newmiscdata = {
title = newdata.title,
categories = newdata.categories,
}
local all_verb_props = {"forms", "form_footnote_indices", "footnotes", "miscdata"}
local difconj = false
for _, prop in ipairs(all_verb_props) do
local table = prop == "miscdata" and miscdata or data[prop]
local newtable = prop == "miscdata" and newmiscdata or newdata[prop]
for key, val in pairs(table) do
local newval = newtable[key]
if not forms_equal(val, newval) then
-- Uncomment this to display the particular key and
-- differing forms.
--error(key .. " " .. (val and concat_vals(val) or "nil") .. " || " .. (newval and concat_vals(newval) or "nil"))
difconj = true
break
end
end
if difconj then
break
end
-- Do the comparison the other way as well in case of extra keys
-- in the new table.
for key, newval in pairs(newtable) do
local val = table[key]
if not forms_equal(val, newval) then
-- Uncomment this to display the particular key and
-- differing forms.
--error(key .. " " .. (val and concat_vals(val) or "nil") .. " || " .. (newval and concat_vals(newval) or "nil"))
difconj = true
break
end
end
if difconj then
break
end
end
track(difconj and "different-conj" or "same-conj")
end
if typeinfo.subtypes.suffix then data.categories = {} end
-- Check if the links to the verb forms exist
-- Has to happen after other categories are removed for suffixes
checkexist(data)
if domain == nil then
return make_table(data) .. m_utilities.format_categories(data.categories, lang)
else
local verb = data['forms']['1s_pres_actv_indc'] ~= nil and ('[['.. gsub(toNFD(data['forms']['1s_pres_actv_indc']),'[^%w]+',"")..'|'..data['forms']['1s_pres_actv_indc'].. ']]') or 'verb'
return link_google_books(verb, flatten_values(data['forms']), domain) end
end
local function concat_forms(data, typeinfo, include_props)
local ins_text = {}
for key, val in pairs(data.forms) do
local ins_form = {}
if type(val) ~= "table" then
val = {val}
end
for _, v in ipairs(val) do
if not form_is_empty(v) then
table.insert(ins_form,
gsub1(gsub1(gsub1(v, "|", "<!>"), "=", "<->"), ",", "<.>")
)
end
end
if #ins_form > 0 then
table.insert(ins_text, key .. "=" .. table.concat(ins_form, ","))
end
end
if include_props then
table.insert(ins_text, "conj_type=" .. typeinfo.conj_type)
if typeinfo.conj_subtype then
table.insert(ins_text, "conj_subtype=" .. typeinfo.conj_subtype)
end
local subtypes = {}
for subtype, _ in pairs(typeinfo.subtypes) do
table.insert(subtypes, subtype)
end
table.insert(ins_text, "subtypes=" .. table.concat(subtypes, "."))
end
return table.concat(ins_text, "|")
end
-- The entry point for 'la-generate-verb-forms' and 'la-generate-verb-props'
-- to generate all verb forms/props.
function export.generate_forms(frame)
local include_props = frame.args["include_props"]
local parent_args = frame:getParent().args
local data, typeinfo = export.make_data(parent_args)
return concat_forms(data, typeinfo, include_props)
end
-- Add prefixes and suffixes to non-generic slots. The generic slots (e.g.
-- perf_pasv_indc, whose text indicates to use the past passive participle +
-- the present active indicative of [[sum]]), handle prefixes and suffixes
-- themselves in make_perfect_passive().
local function add_prefix_suffix(data, typeinfo)
if not data.prefix and not data.suffix then
return
end
local active_prefix = data.prefix or ""
local passive_prefix = data.passive_prefix or ""
local plural_prefix = data.plural_prefix or ""
local plural_passive_prefix = data.plural_passive_prefix or ""
local active_prefix_no_links = m_links.remove_links(active_prefix)
local passive_prefix_no_links = m_links.remove_links(passive_prefix)
local plural_prefix_no_links = m_links.remove_links(plural_prefix)
local plural_passive_prefix_no_links = m_links.remove_links(plural_passive_prefix)
local active_suffix = data.suffix or ""
local passive_suffix = data.passive_suffix or ""
local plural_suffix = data.plural_suffix or ""
local plural_passive_suffix = data.plural_passive_suffix or ""
local active_suffix_no_links = m_links.remove_links(active_suffix)
local passive_suffix_no_links = m_links.remove_links(passive_suffix)
local plural_suffix_no_links = m_links.remove_links(plural_suffix)
local plural_passive_suffix_no_links = m_links.remove_links(plural_passive_suffix)
for slot in iter_slots(false, true) do
if not slot:find("ger_") then
local prefix, suffix, prefix_no_links, suffix_no_links
if slot:find("pasv") and slot:find("[123]p") then
prefix = plural_passive_prefix
suffix = plural_passive_suffix
prefix_no_links = plural_passive_prefix_no_links
suffix_no_links = plural_passive_suffix_no_links
elseif slot:find("pasv") and not slot:find("_inf") then
prefix = passive_prefix
suffix = passive_suffix
prefix_no_links = passive_prefix_no_links
suffix_no_links = passive_suffix_no_links
elseif slot:find("[123]p") then
prefix = plural_prefix
suffix = plural_suffix
prefix_no_links = plural_prefix_no_links
suffix_no_links = plural_suffix_no_links
else
prefix = active_prefix
suffix = active_suffix
prefix_no_links = active_prefix_no_links
suffix_no_links = active_suffix_no_links
end
local forms = data.forms[slot]
if not form_is_empty(forms) then
local affixed_forms = {}
if type(forms) ~= "table" then
forms = {forms}
end
for _, form in ipairs(forms) do
if form_is_empty(form) then
table.insert(affixed_forms, form)
elseif slot:find("^linked") then
-- If we're dealing with a linked slot, include the original links
-- in the prefix/suffix and also add a link around the form itself
-- if links aren't already present. (Note, above we early-exited
-- if there was no prefix and no suffix.)
if not form:find("[%[%]]") then
form = "[[" .. form .. "]]"
end
table.insert(affixed_forms, prefix .. form .. suffix)
elseif form:find("[%[%]]") then
-- If not dealing with a linked slot, but there are links in the slot,
-- include the original, potentially linked versions of the prefix and
-- suffix (e.g. in perfect passive forms).
table.insert(affixed_forms, prefix .. form .. suffix)
else
-- Otherwise, use the non-linking versions of the prefix and suffix
-- so that the whole term (including prefix/suffix) gets linked.
table.insert(affixed_forms, prefix_no_links .. form .. suffix_no_links)
end
end
data.forms[slot] = affixed_forms
end
end
end
end
local function notes_override(data, args)
local notes = {args["note1"], args["note2"], args["note3"]}
for n, note in pairs(notes) do
if note == "-" then
data.footnotes[n] = nil
elseif note == "p3inf" then
data.footnotes[n] = "The present passive infinitive in -ier is a rare poetic form which is attested."
elseif note == "poetsyncperf" then
data.footnotes[n] = "At least one rare poetic syncopated perfect form is attested."
elseif note == "sigm" then
data.footnotes[n] = "At least one use of the archaic \"sigmatic future\" and \"sigmatic aorist\" tenses is attested, which are used by Old Latin writers; most notably Plautus and Terence. The sigmatic future is generally ascribed a future or future perfect meaning, while the sigmatic aorist expresses a possible desire (\"might want to\")."
elseif note == "sigmpasv" then
data.footnotes[n] = "At least one use of the archaic \"sigmatic future\" and \"sigmatic aorist\" tenses is attested, which are used by Old Latin writers; most notably Plautus and Terence. The sigmatic future is generally ascribed a future or future perfect meaning, while the sigmatic aorist expresses a possible desire (\"might want to\"). It is also attested as having a rare sigmatic future passive indicative form (\"will have been\")."
elseif note == "sigmdepon" then
data.footnotes[n] = "At least one use of the archaic \"sigmatic future\" tense is attested, which is used by Old Latin writers; most notably Plautus and Terence. The sigmatic future is generally ascribed a future or future perfect meaning, and, as the verb is deponent, takes the form of what would otherwise be the rare sigmatic future passive indicative tense."
elseif note then
data.footnotes[n] = note
end
end
if args["notes"] == "-" then
data.footnotes = {}
end
end
local function set_linked_forms(data, typeinfo)
-- Generate linked variants of slots that may be the lemma.
-- If the form is the same as the lemma (with links removed),
-- substitute the original lemma (with links included).
for _, slot in ipairs(potential_lemma_slots) do
local forms = data.forms[slot]
local linked_forms = {}
if forms then
if type(forms) ~= "table" then
forms = {forms}
end
for _, form in ipairs(forms) do
if form == typeinfo.lemma then
table.insert(linked_forms, typeinfo.orig_lemma)
else
table.insert(linked_forms, form)
end
end
end
data.forms["linked_" .. slot] = linked_forms
end
end
function export.make_data(parent_args, from_headword, def1, def2)
local params = {
[1] = {required = true, default = def1 or "1+"},
[2] = {required = true, default = def2 or "amō"},
[3] = {},
[4] = {},
[5] = {},
prefix = {},
passive_prefix = {},
plural_prefix = {},
plural_passive_prefix = {},
gen_prefix = {},
dat_prefix = {},
acc_prefix = {},
abl_prefix = {},
suffix = {},
passive_suffix = {},
plural_suffix = {},
plural_passive_suffix = {},
gen_suffix = {},
dat_suffix = {},
acc_suffix = {},
abl_suffix = {},
label = {},
note1= {},
note2= {},
note3= {},
notes= {},
-- examined directly in export.show()
search = {}
}
for slot in iter_slots(true, false) do
params[slot] = {}
end
if from_headword then
params.lemma = {list = true}
params.id = {}
params.cat = {list = true}
end
local args = m_para.process(parent_args, params)
local conj_type, conj_subtype, subtypes, orig_lemma, lemma =
detect_decl_and_subtypes(args)
if not conjugations[conj_type] then
error("Unknown conjugation type '" .. conj_type .. "'")
end
local data = {
forms = {},
title = {},
categories = args.cat and ut.clone(args.cat) or {},
form_footnote_indices = {},
footnotes = {},
id = args.id,
overriding_lemma = args.lemma,
} --note: the addition of red superscripted footnotes ('<sup style="color: red">' ... </sup>) is only implemented for the three form printing loops in which it is used
local typeinfo = {
lemma = lemma,
orig_lemma = orig_lemma,
conj_type = conj_type,
conj_subtype = conj_subtype,
subtypes = subtypes,
}
if args.passive_prefix and not args.prefix then
error("Can't specify passive_prefix= without prefix=")
end
if args.plural_prefix and not args.prefix then
error("Can't specify plural_prefix= without prefix=")
end
if args.plural_passive_prefix and not args.prefix then
error("Can't specify plural_passive_prefix= without prefix=")
end
if args.passive_suffix and not args.suffix then
error("Can't specify passive_suffix= without suffix=")
end
if args.plural_suffix and not args.suffix then
error("Can't specify plural_suffix= without suffix=")
end
if args.plural_passive_suffix and not args.suffix then
error("Can't specify plural_passive_suffix= without suffix=")
end
local function normalize_prefix(prefix)
if not prefix then
return nil
end
local no_space_prefix = match(prefix, "(.*)_$")
if no_space_prefix then
return no_space_prefix
elseif find(prefix, "%-$") then
return prefix
else
return prefix .. " "
end
end
local function normalize_suffix(suffix)
if not suffix then
return nil
end
local no_space_suffix = match(suffix, "^_(.*)$")
if no_space_suffix then
return no_space_suffix
elseif find(suffix, "^%-") then
return suffix
else
return " " .. suffix
end
end
data.prefix = normalize_prefix(args.prefix)
data.passive_prefix = normalize_prefix(args.passive_prefix) or data.prefix
data.plural_prefix = normalize_prefix(args.plural_prefix) or data.prefix
-- First fall back to the passive prefix (e.g. poenās dare, where the
-- plural noun is used with both singular and plural verbs, but there's a
-- separate passive form ''poenae datur''), then to the plural prefix,
-- then to the base prefix.
data.plural_passive_prefix = normalize_prefix(args.plural_passive_prefix) or
normalize_prefix(args.passive_prefix) or data.plural_prefix
data.gen_prefix = normalize_prefix(args.gen_prefix)
data.dat_prefix = normalize_prefix(args.dat_prefix)
data.acc_prefix = normalize_prefix(args.acc_prefix)
data.abl_prefix = normalize_prefix(args.abl_prefix)
data.suffix = normalize_suffix(args.suffix)
data.passive_suffix = normalize_suffix(args.passive_suffix) or data.suffix
data.plural_suffix = normalize_suffix(args.plural_suffix) or data.suffix
-- Same as above for prefixes.
data.plural_passive_suffix = normalize_suffix(args.plural_passive_suffix) or
normalize_suffix(args.passive_suffix) or data.plural_suffix
data.gen_suffix = normalize_suffix(args.gen_suffix)
data.dat_suffix = normalize_suffix(args.dat_suffix)
data.acc_suffix = normalize_suffix(args.acc_suffix)
data.abl_suffix = normalize_suffix(args.abl_suffix)
-- Generate the verb forms
conjugations[conj_type](args, data, typeinfo)
-- Post-process the forms
postprocess(data, typeinfo)
-- Override with user-set forms
override(data, args)
-- Set linked_* forms
set_linked_forms(data, typeinfo)
-- Prepend any prefixes, append any suffixes
add_prefix_suffix(data)
if args["label"] then
ut.insert_if_not(data.title, args["label"])
end
notes_override(data, args)
-- Check if the verb is irregular
if not conj_type == 'irreg' then checkirregular(args, data) end
return data, typeinfo
end
local function form_contains(forms, form)
if type(forms) == "string" then
return forms == form
else
return ut.contains(forms, form)
end
end
-- Add a value to a given form key, e.g. "1s_pres_actv_indc". If the
-- value is already present in the key, it won't be added again.
--
-- The value is formed by concatenating STEM and SUF. SUF can be a list,
-- in which case STEM will be concatenated in turn to each value in the
-- list and all the resulting forms added to the key.
--
-- POS is the position to insert the form(s) at; default is at the end.
-- To insert at the beginning specify 1 for POS.
local function add_form(data, key, stem, suf, pos)
if not suf then
return
end
if type(suf) ~= "table" then
suf = {suf}
end
for _, s in ipairs(suf) do
if not data.forms[key] then
data.forms[key] = {}
elseif type(data.forms[key]) == "string" then
data.forms[key] = {data.forms[key]}
end
ut.insert_if_not(data.forms[key], stem .. s, pos)
end
end
-- Add a value to all persons/numbers of a given tense/voice/mood, e.g.
-- "pres_actv_indc" (specified by KEYTYPE). If a value is already present
-- in a key, it won't be added again.
--
-- The value for a given person/number combination is formed by concatenating
-- STEM and the appropriate suffix for that person/number, e.g. SUF1S. The
-- suffix can be a list, in which case STEM will be concatenated in turn to
-- each value in the list and all the resulting forms added to the key. To
-- not add a value for a specific person/number, specify nil or {} for the
-- suffix for the person/number.
local function add_forms(data, keytype, stem, suf1s, suf2s, suf3s, suf1p, suf2p, suf3p)
add_form(data, "1s_" .. keytype, stem, suf1s)
add_form(data, "2s_" .. keytype, stem, suf2s)
add_form(data, "3s_" .. keytype, stem, suf3s)
add_form(data, "1p_" .. keytype, stem, suf1p)
add_form(data, "2p_" .. keytype, stem, suf2p)
add_form(data, "3p_" .. keytype, stem, suf3p)
end
-- Add a value to the 2nd person (singular and plural) of a given
-- tense/voice/mood. This works like add_forms().
local function add_2_forms(data, keytype, stem, suf2s, suf2p)
add_form(data, "2s_" .. keytype, stem, suf2s)
add_form(data, "2p_" .. keytype, stem, suf2p)
end
-- Add a value to the 2nd and 3rd persons (singular and plural) of a given
-- tense/voice/mood. This works like add_forms().
local function add_23_forms(data, keytype, stem, suf2s, suf3s, suf2p, suf3p)
add_form(data, "2s_" .. keytype, stem, suf2s)
add_form(data, "3s_" .. keytype, stem, suf3s)
add_form(data, "2p_" .. keytype, stem, suf2p)
add_form(data, "3p_" .. keytype, stem, suf3p)
end
-- Clear out all forms from a given key (e.g. "1s_pres_actv_indc").
local function clear_form(data, key)
data.forms[key] = nil
end
-- Clear out all forms from all persons/numbers a given tense/voice/mood
-- (e.g. "pres_actv_indc").
local function clear_forms(data, keytype)
clear_form(data, "1s_" .. keytype)
clear_form(data, "2s_" .. keytype)
clear_form(data, "3s_" .. keytype)
clear_form(data, "1p_" .. keytype)
clear_form(data, "2p_" .. keytype)
clear_form(data, "3p_" .. keytype)
end
local function make_perfect_passive(data)
local ppp = data.forms["perf_pasv_ptc"]
if type(ppp) ~= "table" then
ppp = {ppp}
end
local ppplinks = {}
for _, pppform in ipairs(ppp) do
table.insert(ppplinks, make_link({lang = lang, term = pppform}, "term"))
end
local ppplink = table.concat(ppplinks, " or ")
local sumlink = make_link({lang = lang, term = "sum"}, "term")
text_for_slot = {
perf_pasv_indc = "present active indicative",
futp_pasv_indc = "future active indicative",
plup_pasv_indc = "imperfect active indicative",
perf_pasv_subj = "present active subjunctive",
plup_pasv_subj = "imperfect active subjunctive"
}
local prefix_joiner = data.passive_prefix and data.passive_prefix:find(" $") and "+ " or ""
local suffix_joiner = data.passive_suffix and data.passive_suffix:find("^ ") and " +" or ""
for slot, text in pairs(text_for_slot) do
data.forms[slot] =
(data.passive_prefix or "") .. prefix_joiner .. ppplink .. " + " ..
text .. " of " .. sumlink .. suffix_joiner .. (data.passive_suffix or "")
end
ppp = data.forms["1s_pres_actv_indc"]
if type(ppp) ~= "table" then
ppp = {ppp}
end
if ppp[1] == "faciō" then
ppp = {"factum"}
ppplinks = {}
for _, pppform in ipairs(ppp) do
table.insert(ppplinks, make_link({lang = lang, term = pppform}, "term"))
end
ppplink = table.concat(ppplinks, " or ")
sumlink = make_link({lang = lang, term = "sum"}, "term")
for slot, text in pairs(text_for_slot) do
data.forms[slot] =
data.forms[slot] .. " or " .. ppplink .. " + " .. text .. " of " .. sumlink
end
end
end
-- Make the gerund and gerundive/future passive participle. For the forms
-- labeled "gerund", we generate both gerund and gerundive variants if there's
-- a case-specific prefix or suffix for the case in question; otherwise we
-- generate only the gerund per se. BASE is the stem (ending in -nd).
-- UND_VARIANT, if true, means that a gerundive in -und should be generated
-- along with a gerundive in -end. NO_GERUND means to skip generating any
-- gerunds (and gerundive variants). NO_FUTR_PASV_PTC means to skip generating
-- the future passive participle.
local function make_gerund(data, typeinfo, base, und_variant, no_gerund, no_futr_pasv_ptc)
local neut_endings = {
nom = "um",
gen = "ī",
dat = "ō",
acc = "um",
abl = "ō",
}
local endings
if typeinfo.subtypes.f then
endings = {
nom = "a",
gen = "ae",
dat = "ae",
acc = "am",
abl = "ā",
}
elseif typeinfo.subtypes.n then
endings = neut_endings
elseif typeinfo.subtypes.mp then
endings = {
nom = "ī",
gen = "ōrum",
dat = "īs",
acc = "ōs",
abl = "īs",
}
elseif typeinfo.subtypes.fp then
endings = {
nom = "ae",
gen = "ārum",
dat = "īs",
acc = "ās",
abl = "īs",
}
elseif typeinfo.subtypes.np then
endings = {
nom = "a",
gen = "ōrum",
dat = "īs",
acc = "a",
abl = "īs",
}
else
endings = {
nom = "us",
gen = "ī",
dat = "ō",
acc = "um",
abl = "ō",
}
end
if find(base, "[uv]end$") or typeinfo.subtypes.nound then
-- Per Lane's grammar section 899: "Verbs in -ere and -īre often have
-- -undus, when not preceded by u or v, especially in formal style"
-- There is also an optional exclusion if -undus is not attested
und_variant = false
end
local und_base = und_variant and base:gsub("end$", "und")
for case, ending in pairs(endings) do
if case == "nom" then
if not no_futr_pasv_ptc then
if typeinfo.subtypes.passimpers then
ending = "um"
end
add_form(data, "futr_pasv_ptc", "", base .. ending)
if und_base then
add_form(data, "futr_pasv_ptc", "", und_base .. ending)
end
end
elseif (data[case .. "_prefix"] or data[case .. "_suffix"]) and not no_gerund then
add_form(data, "ger_" .. case, "", (data[case .. "_prefix"] or "")
.. base .. ending .. (data[case .. "_suffix"] or ""))
if und_base then
add_form(data, "ger_" .. case, "", (data[case .. "_prefix"] or "")
.. und_base .. ending .. (data[case .. "_suffix"] or ""))
end
end
end
if not no_gerund then
for case, ending in pairs(neut_endings) do
add_form(data, "ger_" .. case, "",
(data.prefix or "") .. base .. ending .. (data.suffix or ""))
end
end
end
postprocess = function(data, typeinfo)
-- Maybe clear out the supine-derived forms (except maybe for the
-- future active participle). Do this first because some code below
-- looks at the perfect participle to derive other forms.
if typeinfo.subtypes.nosup then
-- Some verbs have no supine forms or forms derived from the supine
if typeinfo.subtypes.perfaspres == nil then
ut.insert_if_not(data.title, "no [[supine]] stem")
end
ut.insert_if_not(data.categories, "Latin verbs with missing supine stem")
ut.insert_if_not(data.categories, "Latin defective verbs")
for key, _ in pairs(data.forms) do
if cfind(key, "sup") or (
key == "perf_actv_ptc" or key == "perf_pasv_ptc" or key == "perf_pasv_inf" or
key == "futr_actv_ptc" or key == "futr_actv_inf" or key == "futr_pasv_inf" or
(typeinfo.subtypes.depon or typeinfo.subtypes.semidepon or
typeinfo.subtypes.optsemidepon) and key == "perf_actv_inf"
) then
data.forms[key] = nil
end
end
elseif typeinfo.subtypes.supfutractvonly then
-- Some verbs have no supine forms or forms derived from the supine,
-- except for the future active infinitive/participle
if typeinfo.subtypes.perfaspres == nil then
ut.insert_if_not(data.title, "no [[supine]] stem except in the [[future]] [[active]] [[participle]]")
end
ut.insert_if_not(data.categories, "Latin verbs with missing supine stem except in the future active participle")
ut.insert_if_not(data.categories, "Latin defective verbs")
for key, _ in pairs(data.forms) do
if cfind(key, "sup") or (
key == "perf_actv_ptc" or key == "perf_pasv_ptc" or key == "perf_pasv_inf" or
key == "futr_pasv_inf"
) then
data.forms[key] = nil
end
end
end
-- Add information for the passive perfective forms
if data.forms["perf_pasv_ptc"] and not form_is_empty(data.forms["perf_pasv_ptc"]) then
if typeinfo.subtypes.passimpers then
-- this should always be a table because it's generated only in
-- make_supine()
local pppforms = data.forms["perf_pasv_ptc"]
for _, ppp in ipairs(pppforms) do
if not form_is_empty(ppp) then
-- make_supine() already generated the neuter form of the PPP.
local nns_ppp = make_raw_link(ppp)
add_form(data, "3s_perf_pasv_indc", nns_ppp, " [[est]]")
add_form(data, "3s_futp_pasv_indc", nns_ppp, " [[erit]]")
add_form(data, "3s_plup_pasv_indc", nns_ppp, " [[erat]]")
add_form(data, "3s_perf_pasv_subj", nns_ppp, " [[sit]]")
add_form(data, "3s_plup_pasv_subj", nns_ppp, {" [[esset]]", " [[foret]]"})
end
end
elseif typeinfo.subtypes.pass3only then
local pppforms = data.forms["perf_pasv_ptc"]
if type(pppforms) ~= "table" then
pppforms = {pppforms}
end
for _, ppp in ipairs(pppforms) do
if not form_is_empty(ppp) then
local ppp_s, ppp_p
if typeinfo.subtypes.mp then
ppp_p = make_raw_link(gsub1(ppp, "ī$", "us"), ppp)
elseif typeinfo.subtypes.fp then
ppp_p = make_raw_link(gsub1(ppp, "ae$", "us"), ppp)
elseif typeinfo.subtypes.np then
ppp_p = make_raw_link(gsub1(ppp, "a$", "us"), ppp)
elseif typeinfo.subtypes.f then
local ppp_lemma = gsub1(ppp, "a$", "us")
ppp_s = make_raw_link(ppp_lemma, ppp)
ppp_p = make_raw_link(ppp_lemma, gsub1(ppp, "a$", "ae"))
elseif typeinfo.subtypes.n then
local ppp_lemma = gsub1(ppp, "um$", "us")
ppp_s = make_raw_link(ppp_lemma, ppp)
ppp_p = make_raw_link(ppp_lemma, gsub1(ppp, "um$", "a"))
else
ppp_s = make_raw_link(ppp)
ppp_p = make_raw_link(ppp, gsub1(ppp, "us$", "ī"))
end
if not typeinfo.subtypes.mp and not typeinfo.subtypes.fp and not typeinfo.subtypes.np then
add_form(data, "3s_perf_pasv_indc", ppp_s, " [[est]]")
add_form(data, "3s_futp_pasv_indc", ppp_s, " [[erit]]")
add_form(data, "3s_plup_pasv_indc", ppp_s, " [[erat]]")
add_form(data, "3s_perf_pasv_subj", ppp_s, " [[sit]]")
add_form(data, "3s_plup_pasv_subj", ppp_s, {" [[esset]]", " [[foret]]"})
end
add_form(data, "3p_perf_pasv_indc", ppp_p, " [[sunt]]")
add_form(data, "3p_futp_pasv_indc", ppp_p, " [[erunt]]")
add_form(data, "3p_plup_pasv_indc", ppp_p, " [[erant]]")
add_form(data, "3p_perf_pasv_subj", ppp_p, " [[sint]]")
add_form(data, "3p_plup_pasv_subj", ppp_p, {" [[essent]]", " [[forent]]"})
end
end
else
make_perfect_passive(data)
end
end
if typeinfo.subtypes.perfaspres then
-- Perfect forms as present tense
ut.insert_if_not(data.title, "no [[present tense|present]] stem")
if typeinfo.subtypes.nosup then
ut.insert_if_not(data.title, "no [[supine]] stem")
elseif typeinfo.subtypes.supfutractvonly then
ut.insert_if_not(data.title, "no [[supine]] stem except in the [[future]] [[active]] [[participle]]")
end
ut.insert_if_not(data.title, "active only")
ut.insert_if_not(data.title, "[[perfect]] forms as present")
ut.insert_if_not(data.title, "pluperfect as imperfect")
ut.insert_if_not(data.title, "future perfect as future")
ut.insert_if_not(data.categories, "Latin defective verbs")
ut.insert_if_not(data.categories, "Latin active-only verbs")
ut.insert_if_not(data.categories, "Latin verbs with missing present stem")
ut.insert_if_not(data.categories, "Latin verbs with perfect forms having imperfective meanings")
-- Change perfect passive participle to perfect active participle
data.forms["perf_actv_ptc"] = data.forms["perf_pasv_ptc"]
-- Change perfect active infinitive to present active infinitive
data.forms["pres_actv_inf"] = data.forms["perf_actv_inf"]
-- Remove passive forms
-- Remove present active, imperfect active and future active forms
for key, _ in pairs(data.forms) do
if key ~= "futr_actv_inf" and key ~= "futr_actv_ptc" and (
cfind(key, "pasv") or cfind(key, "pres") and key ~= "pres_actv_inf" or
cfind(key, "impf") or cfind(key, "futr")
) then
data.forms[key] = nil
end
end
-- Change perfect forms to non-perfect forms
for key, form in pairs(data.forms) do
if cfind(key, "perf") and key ~= "perf_actv_ptc" then
data.forms[key:gsub("perf", "pres")] = form
data.forms[key] = nil
elseif cfind(key, "plup") then
data.forms[key:gsub("plup", "impf")] = form
data.forms[key] = nil
elseif cfind(key, "futp") then
data.forms[key:gsub("futp", "futr")] = form
data.forms[key] = nil
elseif cfind(key, "ger") then
data.forms[key] = nil
end
end
data.forms["pres_actv_ptc"] = nil
end
-- Types of irregularity related primarily to the active.
-- These could in theory be combined with those related to the passive and imperative,
-- i.e. there's no reason there couldn't be an impersonal deponent verb with no imperatives.
if typeinfo.subtypes.impers then
-- Impersonal verbs have only third-person singular forms.
ut.insert_if_not(data.title, "[[impersonal]]")
ut.insert_if_not(data.categories, "Latin impersonal verbs")
-- Remove all non-3sg forms
for key, _ in pairs(data.forms) do
if key:find("^[12][sp]") or key:find("^3p") then
data.forms[key] = nil
end
end
elseif typeinfo.subtypes["3only"] then
ut.insert_if_not(data.title, "[[third person]] only")
ut.insert_if_not(data.categories, "Latin third-person-only verbs")
-- Remove all non-3sg forms
for key, _ in pairs(data.forms) do
if key:find("^[12][sp]") then
data.forms[key] = nil
end
end
end
if typeinfo.subtypes.nopasvperf and not typeinfo.subtypes.nosup and
not typeinfo.subtypes.supfutractvonly then
-- Some verbs have no passive perfect forms (e.g. ārēscō, -ěre).
-- Only do anything here if the verb has a supine; otherwise it
-- necessarily has no passive perfect forms.
ut.insert_if_not(data.title, "no passive perfect forms")
ut.insert_if_not(data.categories, "Latin defective verbs")
-- Remove all passive perfect forms
for key, _ in pairs(data.forms) do
if cfind(key, "pasv") and (cfind(key, "perf") or cfind(key, "plup") or cfind(key, "futp")) then
data.forms[key] = nil
end
end
end
-- Handle certain irregularities in the passive
if typeinfo.subtypes.optsemidepon then
-- Optional semi-deponent verbs use perfective passive forms with active
-- meaning, but also have perfect active forms with the same meaning,
-- and have no imperfective passive. We already generated the perfective
-- forms but need to clear out the imperfective passive.
ut.insert_if_not(data.title, "optionally [[semi-deponent]]")
ut.insert_if_not(data.categories, "Latin semi-deponent verbs")
ut.insert_if_not(data.categories, "Latin optionally semi-deponent verbs")
-- Remove imperfective passive forms
for key, _ in pairs(data.forms) do
if cfind(key, "pres_pasv") or cfind(key, "impf_pasv") or cfind(key, "futr_pasv") then
data.forms[key] = nil
end
end
elseif typeinfo.subtypes.semidepon then
-- Semi-deponent verbs use perfective passive forms with active meaning,
-- and have no imperfective passive
ut.insert_if_not(data.title, "[[semi-deponent]]")
ut.insert_if_not(data.categories, "Latin semi-deponent verbs")
-- Remove perfective active and imperfective passive forms
for key, _ in pairs(data.forms) do
if cfind(key, "perf_actv") or cfind(key, "plup_actv") or cfind(key, "futp_actv") or cfind(key, "pres_pasv") or cfind(key, "impf_pasv") or cfind(key, "futr_pasv") then
data.forms[key] = nil
end
end
-- Change perfective passive to active
for key, form in pairs(data.forms) do
if cfind(key, "perf_pasv") or cfind(key, "plup_pasv") or cfind(key, "futp_pasv") then
data.forms[key:gsub("pasv", "actv")] = form
data.forms[key] = nil
end
end
elseif typeinfo.subtypes.depon then
-- Deponent verbs use passive forms with active meaning
ut.insert_if_not(data.title, "[[deponent]]")
ut.insert_if_not(data.categories, "Latin deponent verbs")
-- Remove active forms and future passive infinitive
for key, _ in pairs(data.forms) do
if cfind(key, "actv") and key ~= "pres_actv_ptc" and key ~= "futr_actv_ptc" and key ~= "futr_actv_inf" and cfind(key, "sigf") == nil or key == "futr_pasv_inf" then
data.forms[key] = nil
end
end
-- Change passive to active
for key, form in pairs(data.forms) do
if cfind(key, "pasv") and key ~= "pres_pasv_ptc" and key ~= "futr_pasv_ptc" and key ~= "futr_pasv_inf" then
data.forms[key:gsub("pasv", "actv")] = form
data.forms[key] = nil
end
end
end
if typeinfo.subtypes.noperf then
-- Some verbs have no perfect stem (e.g. inalbēscō, -ěre)
ut.insert_if_not(data.title, "no [[perfect tense|perfect]] stem")
ut.insert_if_not(data.categories, "Latin verbs with missing perfect stem")
ut.insert_if_not(data.categories, "Latin defective verbs")
-- Remove all active perfect forms (passive perfect forms may
-- still exist as they are formed with the supine stem)
for key, _ in pairs(data.forms) do
if cfind(key, "actv") and (cfind(key, "perf") or cfind(key, "plup") or cfind(key, "futp")) then
data.forms[key] = nil
end
end
end
if typeinfo.subtypes.nopass then
-- Remove all passive forms
ut.insert_if_not(data.title, "active only")
ut.insert_if_not(data.categories, "Latin active-only verbs")
-- Remove all non-3sg and passive forms
for key, _ in pairs(data.forms) do
if cfind(key, "pasv") then
data.forms[key] = nil
end
end
elseif typeinfo.subtypes.pass3only then
-- Some verbs have only third-person forms in the passive
ut.insert_if_not(data.title, "only third-person forms in passive")
ut.insert_if_not(data.categories, "Latin verbs with third-person passive")
-- Remove all non-3rd-person passive forms and all passive imperatives
for key, _ in pairs(data.forms) do
if cfind(key, "pasv") and (key:find("^[12][sp]") or cfind(key, "impr")) then
data.forms[key] = nil
end
-- For phrasal verbs with a plural complement, also need to erase the
-- 3s forms.
if typeinfo.subtypes.mp or typeinfo.subtypes.fp or typeinfo.subtypes.np then
if cfind(key, "pasv") and key:find("^3s") then
data.forms[key] = nil
end
end
end
elseif typeinfo.subtypes.passimpers then
-- Some verbs are impersonal in the passive
ut.insert_if_not(data.title, "[[impersonal]] in passive")
ut.insert_if_not(data.categories, "Latin verbs with impersonal passive")
-- Remove all non-3sg passive forms
for key, _ in pairs(data.forms) do
if cfind(key, "pasv") and (key:find("^[12][sp]") or key:find("^3p") or cfind(key, "impr")) or cfind(key, "futr_pasv_inf") then
data.forms[key] = nil
end
end
end
-- Handle certain irregularities in the imperative
if typeinfo.subtypes.noimp then
-- Some verbs have no imperatives
ut.insert_if_not(data.title, "no [[imperative]]s")
ut.insert_if_not(data.categories, "Latin verbs with missing imperative")
ut.insert_if_not(data.categories, "Latin defective verbs")
-- Remove all imperative forms
for key, _ in pairs(data.forms) do
if cfind(key, "impr") then
data.forms[key] = nil
end
end
end
-- Handle certain irregularities in the future
if typeinfo.subtypes.nofut then
-- Some verbs (e.g. soleō) have no future
ut.insert_if_not(data.title, "no [[future]]")
ut.insert_if_not(data.categories, "Latin verbs with missing future")
ut.insert_if_not(data.categories, "Latin defective verbs")
-- Remove all future forms
for key, _ in pairs(data.forms) do
if cfind(key, "fut") then -- handles futr = future and futp = future perfect
data.forms[key] = nil
end
end
end
-- Add the ancient future_passive_participle of certain verbs
-- if typeinfo.pres_stem == "lāb" then
-- data.forms["futr_pasv_ptc"] = "lābundus"
-- elseif typeinfo.pres_stem == "collāb" then
-- data.forms["futr_pasv_ptc"] = "collābundus"
-- elseif typeinfo.pres_stem == "illāb" then
-- data.forms["futr_pasv_ptc"] = "illābundus"
-- elseif typeinfo.pres_stem == "relāb" then
-- data.forms["futr_pasv_ptc"] = "relābundus"
-- end
-- Add the poetic present passive infinitive forms of certain verbs
if typeinfo.subtypes.p3inf then
local is_depon = typeinfo.subtypes.depon
local form = "pres_" .. (is_depon and "actv" or "pasv") .. "_inf"
local noteindex = #(data.footnotes) + 1
local formval = data.forms[form]
if type(formval) ~= "table" then
formval = {formval}
end
local newvals = mw.clone(formval)
for _, fv in ipairs(formval) do
table.insert(newvals, sub(fv, 1, -2) .. "ier")
end
data.forms[form] = newvals
data.form_footnote_indices[form] = tostring(noteindex)
data.footnotes[noteindex] = 'The present passive infinitive in -ier is a rare poetic form which is attested.'
end
--Add the syncopated perfect forms, omitting the separately handled fourth conjugation cases
if typeinfo.subtypes.poetsyncperf then
local sss = {
--infinitive
{'perf_actv_inf', 'sse'},
--perfect actives
{'2s_perf_actv_indc', 'stī'},
{'3s_perf_actv_indc', 't'},
{'1p_perf_actv_indc', 'mus'},
{'2p_perf_actv_indc', 'stis'},
{'3p_perf_actv_indc', 'runt'},
--pluperfect actives
{'1s_plup_actv_indc', 'ram'},
{'2s_plup_actv_indc', 'rās'},
{'3s_plup_actv_indc', 'rat'},
{'1p_plup_actv_indc', 'rāmus'},
{'2p_plup_actv_indc', 'rātis'},
{'3p_plup_actv_indc', 'rant'},
--future perfect actives
{'1s_futp_actv_indc', 'rō'},
{'2s_futp_actv_indc', 'ris'},
{'3s_futp_actv_indc', 'rit'},
{'1p_futp_actv_indc', 'rimus'},
{'2p_futp_actv_indc', 'ritis'},
{'3p_futp_actv_indc', 'rint'},
--perfect subjunctives
{'1s_perf_actv_subj', 'rim'},
{'2s_perf_actv_subj', 'rīs'},
{'3s_perf_actv_subj', 'rit'},
{'1p_perf_actv_subj', 'rīmus'},
{'2p_perf_actv_subj', 'rītis'},
{'3p_perf_actv_subj', 'rint'},
--pluperfect subjunctives
{'1s_plup_actv_subj', 'ssem'},
{'2s_plup_actv_subj', 'ssēs'},
{'3s_plup_actv_subj', 'sset'},
{'1p_plup_actv_subj', 'ssēmus'},
{'2p_plup_actv_subj', 'ssētis'},
{'3p_plup_actv_subj', 'ssent'}
}
local noteindex = #(data.footnotes)+1
function add_sync_perf(form, suff_sync)
local formval = data.forms[form]
if type(formval) ~= "table" then
formval = {formval}
end
local newvals = mw.clone(formval)
for _, fv in ipairs(formval) do
-- Can only syncopate 'vi', 've', 'vē', or any one of them spelled with a 'u' after a vowel
if fv:find('v[ieē]' .. suff_sync .. '$') or fv:find('vē' .. suff_sync .. '$') or find(fv, '[aeiouyāēīōūȳăĕĭŏŭ]u[ieē]' .. suff_sync.. '$') or find(fv, '[aeiouyāēīōūȳăĕĭŏŭ]uē' .. suff_sync.. '$') then
ut.insert_if_not(newvals, sub(fv, 1, -len(suff_sync) - 3) .. suff_sync)
end
end
data.forms[form] = newvals
data.form_footnote_indices[form] = noteindex
end
for _, v in ipairs(sss) do
add_sync_perf(v[1], v[2])
end
data.footnotes[noteindex] = "At least one rare poetic syncopated perfect form is attested." end
-- Add category for sigmatic forms
if typeinfo.subtypes.sigm or typeinfo.subtypes.sigmpasv then
ut.insert_if_not(data.categories, "Latin verbs with sigmatic forms")
end
-- Add subcategory for passive sigmatic forms
if typeinfo.subtypes.sigmpasv or (typeinfo.subtypes.sigm and typeinfo.subtypes.depon) then
ut.insert_if_not(data.categories, "Latin verbs with passive sigmatic forms")
end
end
--[=[
Conjugation functions
]=]--
local function get_regular_stems(args, typeinfo)
-- Get the parameters
if typeinfo.subtypes.depon or typeinfo.subtypes.semidepon then
-- Deponent and semi-deponent verbs don't have the perfective principal part.
-- But optionally semi-deponent verbs do.
typeinfo.pres_stem = ine(args[1])
typeinfo.perf_stem = nil
typeinfo.supine_stem = ine(args[2])
elseif typeinfo.subtypes.perfaspres then
typeinfo.perf_stem = ine(args[1])
typeinfo.supine_stem = ine(args[2])
else
typeinfo.pres_stem = ine(args[1])
typeinfo.perf_stem = ine(args[2])
typeinfo.supine_stem = ine(args[3])
end
if typeinfo.subtypes.sigm or typeinfo.subtypes.sigmpasv then
typeinfo.sigm_stem = ine(args[5])
end
-- Prepare stems
if not typeinfo.pres_stem then
if NAMESPACE == "টেমপ্লেট" or typeinfo.subtypes.perfaspres then
typeinfo.pres_stem = "-"
else
error("Present stem has not been provided")
end
end
if typeinfo.perf_stem then
typeinfo.perf_stem = split(typeinfo.perf_stem, "/")
else
typeinfo.perf_stem = {}
end
if typeinfo.supine_stem then
typeinfo.supine_stem = split(typeinfo.supine_stem, "/")
else
typeinfo.supine_stem = {}
end
if typeinfo.sigm_stem then
typeinfo.sigm_stem = split(typeinfo.sigm_stem, "/")
else
typeinfo.sigm_stem = {}
end
end
local function has_perf_in_s_or_x(pres_stem, perf_stem)
if pres_stem == perf_stem then
return false
end
return perf_stem and perf_stem:find("[sx]$") ~= nil
end
conjugations["1st"] = function(args, data, typeinfo)
get_regular_stems(args, typeinfo)
table.insert(data.title, "[[Appendix:Latin first conjugation|first conjugation]]")
table.insert(data.categories, "Latin first conjugation verbs")
for _, perf_stem in ipairs(typeinfo.perf_stem) do
if perf_stem == typeinfo.pres_stem .. "āv" then
table.insert(data.categories, "Latin first conjugation verbs with perfect in -av-")
elseif perf_stem == typeinfo.pres_stem .. "u" then
table.insert(data.categories, "Latin first conjugation verbs with perfect in -u-")
elseif perf_stem == typeinfo.pres_stem then
table.insert(data.categories, "Latin first conjugation verbs with suffixless perfect")
else
table.insert(data.categories, "Latin first conjugation verbs with irregular perfect")
end
end
make_pres_1st(data, typeinfo, typeinfo.pres_stem)
make_perf_and_supine(data, typeinfo)
make_sigm(data, typeinfo, typeinfo.sigm_stem)
--Additional forms in specific cases
if typeinfo.pres_stem == "dīlapid" then
add_form(data, "3p_sigf_actv_indc", "", "dīlapidāssunt", 2 )
elseif typeinfo.pres_stem == "invol" then
add_form(data, "3s_sigf_actv_indc", "", "involāsit", 2 )
elseif typeinfo.pres_stem == "viol" then
local noteindex = #(data.footnotes) + 1
add_form(data, "3p_futp_actv_indc", "", "violārint", 2 )
add_form(data, "3p_perf_actv_subj", "", "violārint", 2 )
add_form(data, "3s_sigf_actv_indc", "", "violāsit", 2 )
data.form_footnote_indices["3p_futp_actv_indc"] = tostring(noteindex)
data.form_footnote_indices["3p_perf_actv_subj"] = tostring(noteindex)
data.footnotes[noteindex] = 'Archaic.'
end
end
conjugations["2nd"] = function(args, data, typeinfo)
get_regular_stems(args, typeinfo)
table.insert(data.title, "[[Appendix:Latin second conjugation|second conjugation]]")
table.insert(data.categories, "Latin second conjugation verbs")
for _, perf_stem in ipairs(typeinfo.perf_stem) do
local pres_stem = typeinfo.pres_stem
pres_stem = pres_stem:gsub("qu", "1")
perf_stem = perf_stem:gsub("qu", "1")
if perf_stem == pres_stem .. "ēv" then
table.insert(data.categories, "Latin second conjugation verbs with perfect in -ev-")
elseif perf_stem == pres_stem .. "u" then
table.insert(data.categories, "Latin second conjugation verbs with perfect in -u-")
elseif perf_stem == pres_stem then
table.insert(data.categories, "Latin second conjugation verbs with suffixless perfect")
elseif has_perf_in_s_or_x(pres_stem, perf_stem) then
table.insert(data.categories, "Latin second conjugation verbs with perfect in -s- or -x-")
else
table.insert(data.categories, "Latin second conjugation verbs with irregular perfect")
end
end
make_pres_2nd(data, typeinfo, typeinfo.pres_stem)
make_perf_and_supine(data, typeinfo)
make_sigm(data, typeinfo, typeinfo.sigm_stem)
--Additional forms in specific cases
if typeinfo.pres_stem == "noc" then
add_form(data, "3s_siga_actv_subj", "", "noxsīt", 2 )
end
end
local function set_3rd_conj_categories(data, typeinfo)
table.insert(data.categories, "Latin third conjugation verbs")
for _, perf_stem in ipairs(typeinfo.perf_stem) do
local pres_stem = typeinfo.pres_stem
pres_stem = pres_stem:gsub("qu", "1")
perf_stem = perf_stem:gsub("qu", "1")
if perf_stem == pres_stem .. "āv" then
table.insert(data.categories, "Latin third conjugation verbs with perfect in -av-")
elseif perf_stem == pres_stem .. "ēv" then
table.insert(data.categories, "Latin third conjugation verbs with perfect in -ev-")
elseif perf_stem == pres_stem .. "īv" then
table.insert(data.categories, "Latin third conjugation verbs with perfect in -iv-")
elseif perf_stem == pres_stem .. "i" then
table.insert(data.categories, "Latin third conjugation verbs with perfect in -i-")
elseif perf_stem == pres_stem .. "u" then
table.insert(data.categories, "Latin third conjugation verbs with perfect in -u-")
elseif perf_stem == pres_stem then
table.insert(data.categories, "Latin third conjugation verbs with suffixless perfect")
elseif has_perf_in_s_or_x(pres_stem, perf_stem) then
table.insert(data.categories, "Latin third conjugation verbs with perfect in -s- or -x-")
else
table.insert(data.categories, "Latin third conjugation verbs with irregular perfect")
end
end
end
conjugations["3rd"] = function(args, data, typeinfo)
get_regular_stems(args, typeinfo)
table.insert(data.title, "[[Appendix:Latin third conjugation|third conjugation]]")
set_3rd_conj_categories(data, typeinfo)
if typeinfo.pres_stem and match(typeinfo.pres_stem,"[āēīōū]sc$") then
table.insert(data.categories, "Latin inchoative verbs")
end
make_pres_3rd(data, typeinfo, typeinfo.pres_stem)
make_perf_and_supine(data, typeinfo)
make_sigm(data, typeinfo, typeinfo.sigm_stem)
--Additional forms in specific cases
--FIXME: needs to be cleared up
if match(typeinfo.pres_stem, "nōsc") then
local noteindex = #(data.footnotes) + 1
add_form(data, "2s_perf_actv_indc", "", sub(typeinfo.perf_stem[1],1,-2) .. "stī", 2 )
add_form(data, "1p_perf_actv_indc", "", sub(typeinfo.perf_stem[1],1,-2) .. "mus", 2 )
add_form(data, "2p_perf_actv_indc", "", sub(typeinfo.perf_stem[1],1,-2) .. "stis", 2 )
add_form(data, "3p_perf_actv_indc", "", sub(typeinfo.perf_stem[1],1,-2) .. "runt", 3 )
add_form(data, "1s_plup_actv_indc", "", sub(typeinfo.perf_stem[1],1,-2) .. "ram", 2 )
add_form(data, "2s_plup_actv_indc", "", sub(typeinfo.perf_stem[1],1,-2) .. "rās", 2 )
add_form(data, "3s_plup_actv_indc", "", sub(typeinfo.perf_stem[1],1,-2) .. "rat", 2 )
add_form(data, "1p_plup_actv_indc", "", sub(typeinfo.perf_stem[1],1,-2) .. "rāmus", 2 )
add_form(data, "2p_plup_actv_indc", "", sub(typeinfo.perf_stem[1],1,-2) .. "rātis", 2 )
add_form(data, "3p_plup_actv_indc", "", sub(typeinfo.perf_stem[1],1,-2) .. "rant", 2 )
add_form(data, "1s_futp_actv_indc", "", sub(typeinfo.perf_stem[1],1,-2) .. "rō", 2 )
add_form(data, "2s_futp_actv_indc", "", sub(typeinfo.perf_stem[1],1,-2) .. "ris", 2 )
add_form(data, "3s_futp_actv_indc", "", sub(typeinfo.perf_stem[1],1,-2) .. "rit", 2 )
add_form(data, "1p_futp_actv_indc", "", sub(typeinfo.perf_stem[1],1,-2) .. "rimus", 2 )
add_form(data, "2p_futp_actv_indc", "", sub(typeinfo.perf_stem[1],1,-2) .. "ritis", 2 )
add_form(data, "3p_futp_actv_indc", "", sub(typeinfo.perf_stem[1],1,-2) .. "rint", 2 )
add_form(data, "1s_perf_actv_subj", "", sub(typeinfo.perf_stem[1],1,-2) .. "rim", 2 )
add_form(data, "2s_perf_actv_subj", "", sub(typeinfo.perf_stem[1],1,-2) .. "rīs", 2 )
add_form(data, "3s_perf_actv_subj", "", sub(typeinfo.perf_stem[1],1,-2) .. "rit", 2 )
add_form(data, "1p_perf_actv_subj", "", sub(typeinfo.perf_stem[1],1,-2) .. "rīmus", 2 )
add_form(data, "2p_perf_actv_subj", "", sub(typeinfo.perf_stem[1],1,-2) .. "rītis", 2 )
add_form(data, "3p_perf_actv_subj", "", sub(typeinfo.perf_stem[1],1,-2) .. "rint", 2 )
add_form(data, "1s_plup_actv_subj", "", sub(typeinfo.perf_stem[1],1,-2) .. "ssem", 2 )
add_form(data, "2s_plup_actv_subj", "", sub(typeinfo.perf_stem[1],1,-2) .. "ssēs", 2 )
add_form(data, "3s_plup_actv_subj", "", sub(typeinfo.perf_stem[1],1,-2) .. "sset", 2 )
add_form(data, "1p_plup_actv_subj", "", sub(typeinfo.perf_stem[1],1,-2) .. "ssēmus", 2 )
add_form(data, "2p_plup_actv_subj", "", sub(typeinfo.perf_stem[1],1,-2) .. "ssētis", 2 )
add_form(data, "3p_plup_actv_subj", "", sub(typeinfo.perf_stem[1],1,-2) .. "ssent", 2 )
add_form(data, "perf_actv_inf", "", sub(typeinfo.perf_stem[1],1,-2) .. "sse", 2 )
data.form_footnote_indices["2s_perf_actv_indc"] = tostring(noteindex)
data.form_footnote_indices["1p_perf_actv_indc"] = tostring(noteindex)
data.form_footnote_indices["2p_perf_actv_indc"] = tostring(noteindex)
data.form_footnote_indices["3p_perf_actv_indc"] = tostring(noteindex)
data.form_footnote_indices["1s_plup_actv_indc"] = tostring(noteindex)
data.form_footnote_indices["2s_plup_actv_indc"] = tostring(noteindex)
data.form_footnote_indices["3s_plup_actv_indc"] = tostring(noteindex)
data.form_footnote_indices["1p_plup_actv_indc"] = tostring(noteindex)
data.form_footnote_indices["2p_plup_actv_indc"] = tostring(noteindex)
data.form_footnote_indices["3p_plup_actv_indc"] = tostring(noteindex)
data.form_footnote_indices["1s_futp_actv_indc"] = tostring(noteindex)
data.form_footnote_indices["2s_futp_actv_indc"] = tostring(noteindex)
data.form_footnote_indices["3s_futp_actv_indc"] = tostring(noteindex)
data.form_footnote_indices["1p_futp_actv_indc"] = tostring(noteindex)
data.form_footnote_indices["2p_futp_actv_indc"] = tostring(noteindex)
data.form_footnote_indices["3p_futp_actv_indc"] = tostring(noteindex)
data.form_footnote_indices["1s_perf_actv_subj"] = tostring(noteindex)
data.form_footnote_indices["2s_perf_actv_subj"] = tostring(noteindex)
data.form_footnote_indices["3s_perf_actv_subj"] = tostring(noteindex)
data.form_footnote_indices["1p_perf_actv_subj"] = tostring(noteindex)
data.form_footnote_indices["2p_perf_actv_subj"] = tostring(noteindex)
data.form_footnote_indices["3p_perf_actv_subj"] = tostring(noteindex)
data.form_footnote_indices["1s_plup_actv_subj"] = tostring(noteindex)
data.form_footnote_indices["2s_plup_actv_subj"] = tostring(noteindex)
data.form_footnote_indices["3s_plup_actv_subj"] = tostring(noteindex)
data.form_footnote_indices["1p_plup_actv_subj"] = tostring(noteindex)
data.form_footnote_indices["2p_plup_actv_subj"] = tostring(noteindex)
data.form_footnote_indices["3p_plup_actv_subj"] = tostring(noteindex)
data.form_footnote_indices["perf_actv_inf"] = tostring(noteindex)
data.footnotes[noteindex] = 'The verb \"nōscō\" and its compounds frequently drop the syllables \"vi\" and \"ve\" from their perfect, pluperfect and future perfect conjugations.'
end
if typeinfo.pres_stem == "ulcīsc" then
local noteindex = #(data.footnotes) + 1
add_form(data, "1s_sigf_actv_indc", "", "ullō", 2 )
data.form_footnote_indices["1s_sigf_actv_indc"] = tostring(noteindex)
data.footnotes[noteindex] = 'The form \"ullō\" may have resulted from a later, erroneous misreading of \"ulsō\".'
end
end
conjugations["3rd-io"] = function(args, data, typeinfo)
get_regular_stems(args, typeinfo)
table.insert(data.title, "[[Appendix:Latin third conjugation|third conjugation]] ''iō''-variant")
set_3rd_conj_categories(data, typeinfo)
make_pres_3rd_io(data, typeinfo, typeinfo.pres_stem)
make_perf_and_supine(data, typeinfo)
make_sigm(data, typeinfo, typeinfo.sigm_stem)
end
local function ivi_ive(form)
form = form:gsub("īvī", "iī")
form = form:gsub("īvi", "ī")
form = form:gsub("īve", "ī")
form = form:gsub("īvē", "ē")
return form
end
conjugations["4th"] = function(args, data, typeinfo)
get_regular_stems(args, typeinfo)
table.insert(data.title, "[[Appendix:Latin fourth conjugation|fourth conjugation]]")
table.insert(data.categories, "Latin fourth conjugation verbs")
for _, perf_stem in ipairs(typeinfo.perf_stem) do
local pres_stem = typeinfo.pres_stem
pres_stem = pres_stem:gsub("qu", "1")
perf_stem = perf_stem:gsub("qu", "1")
if perf_stem == pres_stem .. "īv" then
table.insert(data.categories, "Latin fourth conjugation verbs with perfect in -iv-")
elseif perf_stem == pres_stem .. "i" then
table.insert(data.categories, "Latin fourth conjugation verbs with perfect in -i-")
elseif perf_stem == pres_stem .. "u" then
table.insert(data.categories, "Latin fourth conjugation verbs with perfect in -u-")
elseif perf_stem == pres_stem then
table.insert(data.categories, "Latin fourth conjugation verbs with suffixless perfect")
elseif has_perf_in_s_or_x(pres_stem, perf_stem) then
table.insert(data.categories, "Latin fourth conjugation verbs with perfect in -s- or -x-")
else
table.insert(data.categories, "Latin fourth conjugation verbs with irregular perfect")
end
end
make_pres_4th(data, typeinfo, typeinfo.pres_stem)
make_perf_and_supine(data, typeinfo)
make_sigm(data, typeinfo, typeinfo.sigm_stem)
if form_contains(data.forms["1s_pres_actv_indc"], "serviō") or form_contains(data.forms["1s_pres_actv_indc"], "saeviō") then
add_forms(data, "impf_actv_indc", typeinfo.pres_stem,
{"iēbam", "ībam"},
{"iēbās", "ībās"},
{"iēbat", "ībat"},
{"iēbāmus", "ībāmus"},
{"iēbātis", "ībātis"},
{"iēbant", "ībant"}
)
add_forms(data, "futr_actv_indc", typeinfo.pres_stem,
{"iam", "ībō"},
{"iēs", "ībis"},
{"iet", "ībit"},
{"iēmus", "ībimus"},
{"iētis", "ībitis"},
{"ient", "ībunt"}
)
end
if typeinfo.subtypes.alwayssyncperf or typeinfo.subtypes.optsyncperf then
for key, form in pairs(data.forms) do
if cfind(key, "perf") or cfind(key, "plup") or cfind(key, "futp") then
local forms = data.forms[key]
if type(forms) ~= "table" then
forms = {forms}
end
data.forms[key] = {}
for _, f in ipairs(forms) do
if typeinfo.subtypes.optsyncperf then
ut.insert_if_not(data.forms[key], f)
end
ut.insert_if_not(data.forms[key], ivi_ive(f))
end
end
end
end
end
-- Irregular conjugations
local irreg_conjugations = {}
conjugations["irreg"] = function(args, data, typeinfo)
local verb = ine(args[1])
local prefix = ine(args[2])
if not verb then
if NAMESPACE == "টেমপ্লেট" then
verb = "sum"
else
error("The verb to be conjugated has not been specified.")
end
end
if not irreg_conjugations[verb] then
error("The verb '" .. verb .. "' is not recognised as an irregular verb.")
end
typeinfo.verb = verb
typeinfo.prefix = prefix
-- Generate the verb forms
irreg_conjugations[verb](args, data, typeinfo)
end
irreg_conjugations["aio"] = function(args, data, typeinfo)
table.insert(data.title, "[[Appendix:Latin third conjugation|third conjugation]] iō-variant")
table.insert(data.title, "[[Appendix:Latin irregular verbs|irregular]]")
table.insert(data.title, "active only")
table.insert(data.title, "highly [[defective verb|defective]]")
table.insert(data.categories, "Latin third conjugation verbs")
table.insert(data.categories, "Latin irregular verbs")
table.insert(data.categories, "Latin active-only verbs")
table.insert(data.categories, "Latin defective verbs")
-- Signal to {{la-verb}} to display the verb as irregular and highly defective
typeinfo.subtypes.irreg = true
typeinfo.subtypes.highlydef = true
local prefix = typeinfo.prefix or ""
data.forms["1s_pres_actv_indc"] = prefix .. "aiō"
data.forms["2s_pres_actv_indc"] = prefix .. "ais"
data.forms["3s_pres_actv_indc"] = prefix .. "ait"
data.forms["3p_pres_actv_indc"] = prefix .. "aiunt"
data.forms["1s_impf_actv_indc"] = prefix .. "aiēbam"
data.forms["2s_impf_actv_indc"] = prefix .. "aiēbās"
data.forms["3s_impf_actv_indc"] = prefix .. "aiēbat"
data.forms["1p_impf_actv_indc"] = prefix .. "aiēbāmus"
data.forms["2p_impf_actv_indc"] = prefix .. "aiēbātis"
data.forms["3p_impf_actv_indc"] = prefix .. "aiēbant"
data.forms["2s_perf_actv_indc"] = prefix .. "aistī"
data.forms["3s_perf_actv_indc"] = prefix .. "ait"
data.forms["2s_pres_actv_subj"] = prefix .. "aiās"
data.forms["3s_pres_actv_subj"] = prefix .. "aiat"
data.forms["3p_pres_actv_subj"] = prefix .. "aiant"
data.forms["2s_pres_actv_impr"] = prefix .. "ai"
data.forms["pres_actv_inf"] = prefix .. "aiere"
data.forms["pres_actv_ptc"] = prefix .. "aiēns"
end
irreg_conjugations["aiio"] = function(args, data, typeinfo)
table.insert(data.title, "[[Appendix:Latin third conjugation|third conjugation]] iō-variant")
table.insert(data.title, "[[Appendix:Latin irregular verbs|irregular]]")
table.insert(data.title, "active only")
table.insert(data.title, "highly [[defective verb|defective]]")
table.insert(data.categories, "Latin third conjugation verbs")
table.insert(data.categories, "Latin irregular verbs")
table.insert(data.categories, "Latin active-only verbs")
table.insert(data.categories, "Latin defective verbs")
-- Signal to {{la-verb}} to display the verb as irregular and highly defective
typeinfo.subtypes.irreg = true
typeinfo.subtypes.highlydef = true
local prefix = typeinfo.prefix or ""
data.forms["1s_pres_actv_indc"] = prefix .. "aiiō"
data.forms["2s_pres_actv_indc"] = prefix .. "ais"
data.forms["3s_pres_actv_indc"] = prefix .. "ait"
data.forms["3p_pres_actv_indc"] = prefix .. "aiunt"
data.forms["1s_impf_actv_indc"] = prefix .. "aiiēbam"
data.forms["2s_impf_actv_indc"] = prefix .. "aiiēbās"
data.forms["3s_impf_actv_indc"] = prefix .. "aiiēbat"
data.forms["1p_impf_actv_indc"] = prefix .. "aiiēbāmus"
data.forms["2p_impf_actv_indc"] = prefix .. "aiiēbātis"
data.forms["3p_impf_actv_indc"] = prefix .. "aiiēbant"
data.forms["2s_perf_actv_indc"] = prefix .. "aistī"
data.forms["3s_perf_actv_indc"] = prefix .. "ait"
data.forms["2s_pres_actv_subj"] = prefix .. "aiiās"
data.forms["3s_pres_actv_subj"] = prefix .. "aiiat"
data.forms["3p_pres_actv_subj"] = prefix .. "aiiant"
data.forms["2s_pres_actv_impr"] = prefix .. "ai"
data.forms["pres_actv_inf"] = prefix .. "aiiere"
data.forms["pres_actv_ptc"] = prefix .. "aiiēns"
end
irreg_conjugations["ajo"] = function(args, data, typeinfo)
table.insert(data.title, "[[Appendix:Latin third conjugation|third conjugation]] iō-variant")
table.insert(data.title, "[[Appendix:Latin irregular verbs|irregular]]")
table.insert(data.title, "active only")
table.insert(data.title, "highly [[defective verb|defective]]")
table.insert(data.categories, "Latin third conjugation verbs")
table.insert(data.categories, "Latin irregular verbs")
table.insert(data.categories, "Latin active-only verbs")
table.insert(data.categories, "Latin defective verbs")
-- Signal to {{la-verb}} to display the verb as irregular and highly defective
typeinfo.subtypes.irreg = true
typeinfo.subtypes.highlydef = true
local prefix = typeinfo.prefix or ""
data.forms["1s_pres_actv_indc"] = prefix .. "ajō"
data.forms["2s_pres_actv_indc"] = prefix .. "ais"
data.forms["3s_pres_actv_indc"] = prefix .. "ait"
data.forms["3p_pres_actv_indc"] = prefix .. "ajunt"
data.forms["1s_impf_actv_indc"] = prefix .. "ajēbam"
data.forms["2s_impf_actv_indc"] = prefix .. "ajēbās"
data.forms["3s_impf_actv_indc"] = prefix .. "ajēbat"
data.forms["1p_impf_actv_indc"] = prefix .. "ajēbāmus"
data.forms["2p_impf_actv_indc"] = prefix .. "ajēbātis"
data.forms["3p_impf_actv_indc"] = prefix .. "ajēbant"
data.forms["2s_perf_actv_indc"] = prefix .. "aistī"
data.forms["3s_perf_actv_indc"] = prefix .. "ait"
data.forms["2s_pres_actv_subj"] = prefix .. "ajās"
data.forms["3s_pres_actv_subj"] = prefix .. "ajat"
data.forms["3p_pres_actv_subj"] = prefix .. "ajant"
data.forms["2s_pres_actv_impr"] = prefix .. "ai"
data.forms["pres_actv_inf"] = prefix .. "ajere"
data.forms["pres_actv_ptc"] = prefix .. "ajēns"
end
irreg_conjugations["dico"] = function(args, data, typeinfo)
table.insert(data.title, "[[Appendix:Latin third conjugation|third conjugation]]")
table.insert(data.title, "[[Appendix:Latin irregular verbs|irregular]] short imperative")
table.insert(data.categories, "Latin third conjugation verbs")
table.insert(data.categories, "Latin irregular verbs")
local prefix = typeinfo.prefix or ""
make_pres_3rd(data, typeinfo, prefix .. "dīc")
make_perf(data, prefix .. "dīx")
make_supine(data, typeinfo, prefix .. "dict")
make_sigm(data, typeinfo, prefix .. "dīx")
--Archaic regular imperative
local noteindex = #(data.footnotes) + 1
add_form(data, "2s_pres_actv_impr", prefix, "dīc", 1)
data.form_footnote_indices["2s_pres_actv_impr"] = tostring(noteindex)
--Archaic future forms
if prefix == "" then
add_form(data, "1s_futr_actv_indc", "", "dīcēbō", 2 )
add_form(data, "3s_futr_actv_indc", "", "dīcēbit", 2 )
data.form_footnote_indices["1s_futr_actv_indc"] = tostring(noteindex)
data.form_footnote_indices["3s_futr_actv_indc"] = tostring(noteindex)
end
data.footnotes[noteindex] = 'Archaic.'
end
irreg_conjugations["do"] = function(args, data, typeinfo)
table.insert(data.title, "[[Appendix:Latin first conjugation|first conjugation]]")
table.insert(data.title, "[[Appendix:Latin irregular verbs|irregular]] short ''a'' in most forms except " .. make_link({lang = lang, alt = "dās"}, "term") .. " and " .. make_link({lang = lang, alt = "dā"}, "term"))
table.insert(data.categories, "Latin first conjugation verbs")
table.insert(data.categories, "Latin irregular verbs")
-- Signal to {{la-verb}} to display the verb as irregular
typeinfo.subtypes.irreg = true
local prefix = typeinfo.prefix or ""
make_perf(data, prefix .. "ded")
make_supine(data, typeinfo, prefix .. "dat")
-- Active imperfective indicative
add_forms(data, "pres_actv_indc", prefix, "dō", "dās", "dat", "damus", "datis", "dant")
add_forms(data, "impf_actv_indc", prefix, "dabam", "dabās", "dabat", "dabāmus", "dabātis", "dabant")
add_forms(data, "futr_actv_indc", prefix, "dabō", "dabis", "dabit", "dabimus", "dabitis", "dabunt")
-- Passive imperfective indicative
add_forms(data, "pres_pasv_indc", prefix, "dor", {"daris", "dare"}, "datur", "damur", "daminī", "dantur")
add_forms(data, "impf_pasv_indc", prefix, "dabar", {"dabāris", "dabāre"}, "dabātur", "dabāmur", "dabāminī", "dabantur")
add_forms(data, "futr_pasv_indc", prefix, "dabor", {"daberis", "dabere"}, "dabitur", "dabimur", "dabiminī", "dabuntur")
-- Active imperfective subjunctive
add_forms(data, "pres_actv_subj", prefix, "dem", "dēs", "det", "dēmus", "dētis", "dent")
add_forms(data, "impf_actv_subj", prefix, "darem", "darēs", "daret", "darēmus", "darētis", "darent")
-- Passive imperfective subjunctive
add_forms(data, "pres_pasv_subj", prefix, "der", {"dēris", "dēre"}, "dētur", "dēmur", "dēminī", "dentur")
add_forms(data, "impf_pasv_subj", prefix, "darer", {"darēris", "darēre"}, "darētur", "darēmur", "darēminī", "darentur")
-- Imperative
add_2_forms(data, "pres_actv_impr", prefix, "dā", "date")
add_23_forms(data, "futr_actv_impr", prefix, "datō", "datō", "datōte", "dantō")
add_2_forms(data, "pres_pasv_impr", prefix, "dare", "daminī")
-- no 2p form
add_23_forms(data, "futr_pasv_impr", prefix, "dator", "dator", {}, "dantor")
-- Present infinitives
data.forms["pres_actv_inf"] = prefix .. "dare"
data.forms["pres_pasv_inf"] = prefix .. "darī"
-- Imperfective participles
data.forms["pres_actv_ptc"] = prefix .. "dāns"
-- Gerund
make_gerund(data, typeinfo, prefix .. "dand")
end
irreg_conjugations["duco"] = function(args, data, typeinfo)
table.insert(data.title, "[[Appendix:Latin third conjugation|third conjugation]]")
table.insert(data.title, "[[Appendix:Latin irregular verbs|irregular]] short imperative")
table.insert(data.categories, "Latin third conjugation verbs")
table.insert(data.categories, "Latin irregular verbs")
local prefix = typeinfo.prefix or ""
make_pres_3rd(data, typeinfo, prefix .. "dūc")
make_perf(data, prefix .. "dūx")
make_supine(data, typeinfo, prefix .. "duct")
make_sigm(data, typeinfo, prefix .. "dūx")
add_form(data, "2s_pres_actv_impr", prefix, "dūc", 1)
end
irreg_conjugations["edo"] = function(args, data, typeinfo)
table.insert(data.title, "[[Appendix:Latin third conjugation|third conjugation]]")
table.insert(data.title, "some [[Appendix:Latin irregular verbs|irregular]] alternative forms")
table.insert(data.categories, "Latin third conjugation verbs")
table.insert(data.categories, "Latin irregular verbs")
-- Signal to {{la-verb}} to display the verb as irregular
typeinfo.subtypes.irreg = true
local prefix = typeinfo.prefix or ""
make_pres_3rd(data, typeinfo, prefix .. "ed")
make_perf(data, prefix .. "ēd")
make_supine(data, typeinfo, prefix .. "ēs")
-- Active imperfective indicative
add_forms(data, "pres_actv_indc", prefix, {}, "ēs", "ēst", {}, "ēstis", {})
-- Passive imperfective indicative
add_form(data, "3s_pres_pasv_indc", prefix, "ēstur")
-- Active imperfective subjunctive
add_forms(data, "pres_actv_subj", prefix, "edim", "edīs", "edit", "edīmus", "edītis", "edint")
add_forms(data, "impf_actv_subj", prefix, "ēssem", "ēssēs", "ēsset", "ēssēmus", "ēssētis", "ēssent")
-- Active imperative
add_2_forms(data, "pres_actv_impr", prefix, "ēs", "ēste")
add_23_forms(data, "futr_actv_impr", prefix, "ēstō", "ēstō", "ēstōte", {})
-- Present infinitives
add_form(data, "pres_actv_inf", prefix, "ēsse")
end
irreg_conjugations["eo"] = function(args, data, typeinfo)
table.insert(data.title, "[[Appendix:Latin irregular verbs|irregular]]")
table.insert(data.categories, "Latin irregular verbs")
local prefix = typeinfo.prefix or ""
make_perf(data, prefix .. "i")
make_supine(data, typeinfo, prefix .. "it")
-- Active imperfective indicative
add_forms(data, "pres_actv_indc", prefix, "eō", "īs", "it", "īmus", "ītis",
prefix == "prōd" and {"eunt", "īnunt"} or "eunt")
add_forms(data, "impf_actv_indc", prefix, "ībam", "ībās", "ībat", "ībāmus", "ībātis", "ībant")
add_forms(data, "futr_actv_indc", prefix, "ībō", "ībis", "ībit", "ībimus", "ībitis", "ībunt")
-- Active perfective indicative
add_form(data, "1s_perf_actv_indc", prefix, "īvī")
data.forms["2s_perf_actv_indc"] = {prefix .. "īstī", prefix .. "īvistī"}
add_form(data, "3s_perf_actv_indc", prefix, "īvit")
data.forms["2p_perf_actv_indc"] = prefix .. "īstis"
-- Passive imperfective indicative
add_forms(data, "pres_pasv_indc", prefix, "eor", { "īris", "īre"}, "ītur", "īmur", "īminī", "euntur")
add_forms(data, "impf_pasv_indc", prefix, "ībar", {"ībāris", "ībāre"}, "ībātur", "ībāmur", "ībāminī", "ībantur")
add_forms(data, "futr_pasv_indc", prefix, "ībor", {"īberis", "ībere"}, "ībitur", "ībimur", "ībiminī", "ībuntur")
-- Active imperfective subjunctive
add_forms(data, "pres_actv_subj", prefix, "eam", "eās", "eat", "eāmus", "eātis", "eant")
add_forms(data, "impf_actv_subj", prefix, "īrem", "īrēs", "īret", "īrēmus", "īrētis", "īrent")
-- Active perfective subjunctive
data.forms["1s_plup_actv_subj"] = prefix .. "īssem"
data.forms["2s_plup_actv_subj"] = prefix .. "īssēs"
data.forms["3s_plup_actv_subj"] = prefix .. "īsset"
data.forms["1p_plup_actv_subj"] = prefix .. "īssēmus"
data.forms["2p_plup_actv_subj"] = prefix .. "īssētis"
data.forms["3p_plup_actv_subj"] = prefix .. "īssent"
-- Passive imperfective subjunctive
add_forms(data, "pres_pasv_subj", prefix, "ear", {"eāris", "eāre"}, "eātur", "eāmur", "eāminī", "eantur")
add_forms(data, "impf_pasv_subj", prefix, "īrer", {"īrēris", "īrēre"}, "īrētur", "īrēmur", "īrēminī", "īrentur")
-- Imperative
add_2_forms(data, "pres_actv_impr", prefix, "ī", "īte")
add_23_forms(data, "futr_actv_impr", prefix, "ītō", "ītō", "ītōte", "euntō")
add_2_forms(data, "pres_pasv_impr", prefix, "īre", "īminī")
add_23_forms(data, "futr_pasv_impr", prefix, "ītor", "ītor", {}, "euntor")
-- Present infinitives
data.forms["pres_actv_inf"] = prefix .. "īre"
data.forms["pres_pasv_inf"] = prefix .. "īrī"
-- Perfect/future infinitives
data.forms["perf_actv_inf"] = prefix .. "īsse"
-- Imperfective participles
data.forms["pres_actv_ptc"] = prefix .. "iēns"
-- Gerund
make_gerund(data, typeinfo, prefix .. "eund")
end
local function fio(data, prefix, voice)
-- Active/passive imperfective indicative
add_forms(data, "pres_" .. voice .. "_indc", prefix,
"fīō", "fīs", "fit", "fīmus", "fītis", "fīunt")
add_forms(data, "impf_" .. voice .. "_indc", prefix .. "fīēb",
"am", "ās", "at", "āmus", "ātis", "ant")
add_forms(data, "futr_" .. voice .. "_indc", prefix .. "fī",
"am", "ēs", "et", "ēmus", "ētis", "ent")
-- Active/passive imperfective subjunctive
add_forms(data, "pres_" .. voice .. "_subj", prefix .. "fī",
"am", "ās", "at", "āmus", "ātis", "ant")
add_forms(data, "impf_" .. voice .. "_subj", prefix .. "fier",
"em", "ēs", "et", "ēmus", "ētis", "ent")
-- Active/passive imperative
add_2_forms(data, "pres_" .. voice .. "_impr", prefix .. "fī", "", "te")
add_23_forms(data, "futr_" .. voice .. "_impr", prefix .. "fī", "tō", "tō", "tōte", "untō")
-- Active/passive present infinitive
add_form(data, "pres_" .. voice .. "_inf", prefix, "fierī")
end
irreg_conjugations["facio"] = function(args, data, typeinfo)
table.insert(data.title, "[[Appendix:Latin third conjugation|third conjugation]] ''iō''-variant")
table.insert(data.title, "[[Appendix:Latin irregular verbs|irregular]] and partially [[suppletive]] in the passive")
table.insert(data.categories, "Latin third conjugation verbs")
table.insert(data.categories, "Latin irregular verbs")
table.insert(data.categories, "Latin suppletive verbs")
local prefix = typeinfo.prefix or ""
make_pres_3rd_io(data, typeinfo, prefix .. "fac", "nopass")
-- We said no passive, but we do want the future passive participle.
make_gerund(data, typeinfo, prefix .. "faciend", "und-variant", "no-gerund")
make_perf(data, prefix .. "fēc")
make_supine(data, typeinfo, prefix .. "fact")
make_sigm(data, typeinfo, prefix .. "fax")
if prefix == "" then
-- Active imperative
add_form(data, "2s_pres_actv_impr", "", "fac", 1)
-- Sigmatic forms
add_form(data, "1s_sigf_actv_indc", "", {"faxsō", "facsō", "faxiō"}, 2)
add_form(data, "2s_sigf_actv_indc", "", {"faxsis", "facsis", "facxis", "facxsis"}, 2)
add_form(data, "3s_sigf_actv_indc", "", "faxsit", 2)
add_form(data, "1p_sigf_actv_indc", "", "faxsimus", 2)
add_form(data, "2p_sigf_actv_indc", "", "faxsitis", 2)
add_form(data, "3p_sigf_actv_indc", "", "faxsint", 2)
add_form(data, "1s_siga_actv_subj", "", {"faxsim", "faxēm"}, 2)
add_form(data, "2s_siga_actv_subj", "", {"faxsīs", "faxseis", "faxeis", "faxēs"}, 2)
add_form(data, "3s_siga_actv_subj", "", {"faxsīt", "faxeit", "faxēt"}, 2)
add_form(data, "1p_siga_actv_subj", "", {"faxsīmus", "faxeimus"}, 2)
add_form(data, "2p_siga_actv_subj", "", {"faxsītis", "faxeitis"}, 2)
add_form(data, "3p_siga_actv_subj", "", {"faxsint", "faxēnt"}, 2)
end
fio(data, prefix, "pasv")
end
irreg_conjugations["fio"] = function(args, data, typeinfo)
table.insert(data.title, "[[Appendix:Latin third conjugation|third conjugation]] ''iō''-variant")
table.insert(data.title, "[[Appendix:Latin irregular verbs|irregular]] long ''ī''")
if not typeinfo.subtypes.nosup then
table.insert(data.title, "[[suppletive]] in the supine stem")
end
table.insert(data.categories, "Latin third conjugation verbs")
table.insert(data.categories, "Latin irregular verbs")
table.insert(data.categories, "Latin suppletive verbs")
local prefix = typeinfo.prefix or ""
typeinfo.subtypes.semidepon = true
fio(data, prefix, "actv")
make_supine(data, typeinfo, prefix .. "fact")
-- Perfect/future infinitives
data.forms["futr_actv_inf"] = data.forms["futr_pasv_inf"]
-- Imperfective participles
data.forms["pres_actv_ptc"] = nil
data.forms["futr_actv_ptc"] = nil
-- Gerund
make_gerund(data, typeinfo, prefix .. "fiend", "und-variant")
end
irreg_conjugations["fero"] = function(args, data, typeinfo)
table.insert(data.title, "[[Appendix:Latin third conjugation|third conjugation]]")
table.insert(data.title, "[[Appendix:Latin irregular verbs|irregular]]")
table.insert(data.title, "[[suppletive]]")
table.insert(data.categories, "Latin third conjugation verbs")
table.insert(data.categories, "Latin irregular verbs")
table.insert(data.categories, "Latin suppletive verbs")
-- Signal to {{la-verb}} to display the verb as irregular
typeinfo.subtypes.irreg = true
local prefix_pres = typeinfo.prefix or ""
local prefix_perf = ine(args[3])
local prefix_supine = ine(args[4])
prefix_perf = prefix_perf or prefix_pres
prefix_supine = prefix_supine or prefix_pres
make_pres_3rd(data, typeinfo, prefix_pres .. "fer")
if prefix_perf == "" then
make_perf(data, {"tul", "tetul"})
local noteindex = #(data.footnotes) + 1
for slot in iter_slots(false, false) do
if cfind(slot, "perf") or cfind(slot, "plup") or cfind(slot, "futp") then
data.form_footnote_indices[slot] = tostring(noteindex)
data.footnotes[noteindex] = 'Archaic.'
end
end
else
make_perf(data, prefix_perf .. "tul")
end
make_supine(data, typeinfo, prefix_supine .. "lāt")
-- Active imperfective indicative
data.forms["2s_pres_actv_indc"] = prefix_pres .. "fers"
data.forms["3s_pres_actv_indc"] = prefix_pres .. "fert"
data.forms["2p_pres_actv_indc"] = prefix_pres .. "fertis"
-- Passive imperfective indicative
data.forms["3s_pres_pasv_indc"] = prefix_pres .. "fertur"
-- Active imperfective subjunctive
data.forms["1s_impf_actv_subj"] = prefix_pres .. "ferrem"
data.forms["2s_impf_actv_subj"] = prefix_pres .. "ferrēs"
data.forms["3s_impf_actv_subj"] = prefix_pres .. "ferret"
data.forms["1p_impf_actv_subj"] = prefix_pres .. "ferrēmus"
data.forms["2p_impf_actv_subj"] = prefix_pres .. "ferrētis"
data.forms["3p_impf_actv_subj"] = prefix_pres .. "ferrent"
-- Passive present indicative
data.forms["2s_pres_pasv_indc"] = {prefix_pres .. "ferris", prefix_pres .. "ferre"}
-- Passive imperfective subjunctive
data.forms["1s_impf_pasv_subj"] = prefix_pres .. "ferrer"
data.forms["2s_impf_pasv_subj"] = {prefix_pres .. "ferrēris", prefix_pres .. "ferrēre"}
data.forms["3s_impf_pasv_subj"] = prefix_pres .. "ferrētur"
data.forms["1p_impf_pasv_subj"] = prefix_pres .. "ferrēmur"
data.forms["2p_impf_pasv_subj"] = prefix_pres .. "ferrēminī"
data.forms["3p_impf_pasv_subj"] = prefix_pres .. "ferrentur"
-- Imperative
data.forms["2s_pres_actv_impr"] = prefix_pres .. "fer"
data.forms["2p_pres_actv_impr"] = prefix_pres .. "ferte"
data.forms["2s_futr_actv_impr"] = prefix_pres .. "fertō"
data.forms["3s_futr_actv_impr"] = prefix_pres .. "fertō"
data.forms["2p_futr_actv_impr"] = prefix_pres .. "fertōte"
data.forms["2s_pres_pasv_impr"] = prefix_pres .. "ferre"
data.forms["2s_futr_pasv_impr"] = prefix_pres .. "fertor"
data.forms["3s_futr_pasv_impr"] = prefix_pres .. "fertor"
-- Present infinitives
data.forms["pres_actv_inf"] = prefix_pres .. "ferre"
data.forms["pres_pasv_inf"] = prefix_pres .. "ferrī"
end
irreg_conjugations["inquam"] = function(args, data, typeinfo)
table.insert(data.title, "[[Appendix:Latin irregular verbs|irregular]]")
table.insert(data.title, "highly [[defective verb|defective]]")
table.insert(data.categories, "Latin irregular verbs")
table.insert(data.categories, "Latin defective verbs")
-- Signal to {{la-verb}} to display the verb as highly defective
-- (it already displays as irregular because conj == "irreg" and
-- subconj == "irreg")
typeinfo.subtypes.highlydef = true
data.forms["1s_pres_actv_indc"] = "inquam"
data.forms["2s_pres_actv_indc"] = "inquis"
data.forms["3s_pres_actv_indc"] = "inquit"
data.forms["1p_pres_actv_indc"] = "inquimus"
data.forms["2p_pres_actv_indc"] = "inquitis"
data.forms["3p_pres_actv_indc"] = "inquiunt"
data.forms["2s_futr_actv_indc"] = "inquiēs"
data.forms["3s_futr_actv_indc"] = "inquiet"
data.forms["3s_impf_actv_indc"] = "inquiēbat"
data.forms["1s_perf_actv_indc"] = "inquiī"
data.forms["2s_perf_actv_indc"] = "inquistī"
data.forms["3s_perf_actv_indc"] = "inquit"
data.forms["3s_pres_actv_subj"] = "inquiat"
data.forms["2s_pres_actv_impr"] = "inque"
data.forms["2s_futr_actv_impr"] = "inquitō"
data.forms["3s_futr_actv_impr"] = "inquitō"
data.forms["pres_actv_ptc"] = "inquiēns"
end
local function libet_lubet(data, typeinfo, stem)
table.insert(data.title, "[[Appendix:Latin second conjugation|second conjugation]]")
table.insert(data.title, "mostly [[impersonal]]")
table.insert(data.categories, "Latin second conjugation verbs")
table.insert(data.categories, "Latin impersonal verbs")
typeinfo.subtypes.nopass = true
local prefix = typeinfo.prefix or ""
stem = prefix .. stem
-- Active imperfective indicative
data.forms["3s_pres_actv_indc"] = stem .. "et"
data.forms["3s_impf_actv_indc"] = stem .. "ēbat"
data.forms["3s_futr_actv_indc"] = stem .. "ēbit"
-- Active perfective indicative
data.forms["3s_perf_actv_indc"] = {stem .. "uit", "[[" .. stem .. "itum]] [[est]]"}
data.forms["3s_plup_actv_indc"] = {stem .. "uerat", "[[" .. stem .. "itum]] [[erat]]"}
data.forms["3s_futp_actv_indc"] = {stem .. "uerit", "[[" .. stem .. "itum]] [[erit]]"}
-- Active imperfective subjunctive
data.forms["3s_pres_actv_subj"] = stem .. "eat"
data.forms["3s_impf_actv_subj"] = stem .. "ēret"
-- Active perfective subjunctive
data.forms["3s_perf_actv_subj"] = {stem .. "uerit", "[[" .. stem .. "itum]] [[sit]]"}
data.forms["3s_plup_actv_subj"] = {stem .. "uisset", "[[" .. stem .. "itum]] [[esset]]"}
data.forms["3p_plup_actv_subj"] = stem .. "uissent"
-- Present infinitives
data.forms["pres_actv_inf"] = stem .. "ēre"
-- Perfect infinitive
data.forms["perf_actv_inf"] = {stem .. "uisse", "[[" .. stem .. "itum]] [[esse]]"}
-- Imperfective participles
data.forms["pres_actv_ptc"] = stem .. "ēns"
data.forms["perf_actv_ptc"] = stem .. "itum"
end
irreg_conjugations["libet"] = function(args, data, typeinfo)
libet_lubet(data, typeinfo, "lib")
end
irreg_conjugations["lubet"] = function(args, data, typeinfo)
libet_lubet(data, typeinfo, "lub")
end
irreg_conjugations["licet"] = function(args, data, typeinfo)
table.insert(data.title, "[[Appendix:Latin second conjugation|second conjugation]]")
table.insert(data.title, "mostly [[impersonal]]")
table.insert(data.categories, "Latin second conjugation verbs")
table.insert(data.categories, "Latin impersonal verbs")
typeinfo.subtypes.nopass = true
-- Active imperfective indicative
data.forms["3s_pres_actv_indc"] = "licet"
data.forms["3p_pres_actv_indc"] = "licent"
data.forms["3s_impf_actv_indc"] = "licēbat"
data.forms["3p_impf_actv_indc"] = "licēbant"
data.forms["3s_futr_actv_indc"] = "licēbit"
-- Active perfective indicative
data.forms["3s_perf_actv_indc"] = {"licuit", "[[licitum]] [[est]]"}
data.forms["3s_plup_actv_indc"] = {"licuerat", "[[licitum]] [[erat]]"}
data.forms["3s_futp_actv_indc"] = {"licuerit", "[[licitum]] [[erit]]"}
-- Active imperfective subjunctive
data.forms["3s_pres_actv_subj"] = "liceat"
data.forms["3p_pres_actv_subj"] = "liceant"
data.forms["3s_impf_actv_subj"] = "licēret"
-- Perfective subjunctive
data.forms["3s_perf_actv_subj"] = {"licuerit", "[[licitum]] [[sit]]"}
data.forms["3s_plup_actv_subj"] = {"licuisset", "[[licitum]] [[esset]]"}
-- Imperative
data.forms["2s_futr_actv_impr"] = "licētō"
data.forms["3s_futr_actv_impr"] = "licētō"
-- Infinitives
data.forms["pres_actv_inf"] = "licēre"
data.forms["perf_actv_inf"] = {"licuisse", "[[licitum]] [[esse]]"}
data.forms["futr_actv_inf"] = "[[licitūrum]] [[esse]]"
-- Participles
data.forms["pres_actv_ptc"] = "licēns"
data.forms["perf_actv_ptc"] = "licitus"
data.forms["futr_actv_ptc"] = "licitūrus"
end
-- Handle most forms of volō, mālō, nōlō.
local function volo_malo_nolo(data, indc_stem, subj_stem)
-- Present active indicative needs to be done individually as each
-- verb is different.
add_forms(data, "impf_actv_indc", indc_stem .. "ēb", "am", "ās", "at", "āmus", "ātis", "ant")
add_forms(data, "futr_actv_indc", indc_stem, "am", "ēs", "et", "ēmus", "ētis", "ent")
-- Active imperfective subjunctive
add_forms(data, "pres_actv_subj", subj_stem, "im", "īs", "it", "īmus", "ītis", "int")
add_forms(data, "impf_actv_subj", subj_stem .. "l", "em", "ēs", "et", "ēmus", "ētis", "ent")
-- Present infinitives
data.forms["pres_actv_inf"] = subj_stem .. "le"
-- Imperfective participles
data.forms["pres_actv_ptc"] = indc_stem .. "ēns"
end
irreg_conjugations["volo"] = function(args, data, typeinfo)
table.insert(data.title, "[[Appendix:Latin irregular verbs|irregular]]")
table.insert(data.title, "[[suppletive]] in the second-person singular indicative present")
table.insert(data.categories, "Latin irregular verbs")
table.insert(data.categories, "Latin suppletive verbs")
local prefix = typeinfo.prefix or ""
typeinfo.subtypes.nopass = true
typeinfo.subtypes.noimp = true
make_perf(data, prefix .. "volu")
-- Active imperfective indicative
add_forms(data, "pres_actv_indc", prefix,
"volō", "vīs", prefix ~= "" and "vult" or {"vult", "volt"},
"volumus", prefix ~= "" and "vultis" or {"vultis", "voltis"}, "volunt")
volo_malo_nolo(data, prefix .. "vol", prefix .. "vel")
end
irreg_conjugations["malo"] = function(args, data, typeinfo)
table.insert(data.title, "[[Appendix:Latin irregular verbs|irregular]]")
table.insert(data.title, "[[suppletive]] in the second-person singular indicative present")
table.insert(data.categories, "Latin irregular verbs")
table.insert(data.categories, "Latin suppletive verbs")
typeinfo.subtypes.nopass = true
typeinfo.subtypes.noimp = true
make_perf(data, "mālu")
-- Active imperfective indicative
add_forms(data, "pres_actv_indc", "",
"mālō", "māvīs", "māvult", "mālumus", "māvultis", "mālunt")
volo_malo_nolo(data, "māl", "māl")
end
irreg_conjugations["nolo"] = function(args, data, typeinfo)
table.insert(data.title, "[[Appendix:Latin irregular verbs|irregular]]")
table.insert(data.title, "[[suppletive]] in the second-person singular indicative present")
table.insert(data.categories, "Latin irregular verbs")
table.insert(data.categories, "Latin suppletive verbs")
typeinfo.subtypes.nopass = true
make_perf(data, "nōlu")
-- Active imperfective indicative
add_forms(data, "pres_actv_indc", "",
"nōlō", "nōn vīs", "nōn vult", "nōlumus", "nōn vultis", "nōlunt")
add_forms(data, "impf_actv_indc", "nōlēb", "am", "ās", "at", "āmus", "ātis", "ant")
volo_malo_nolo(data, "nōl", "nōl")
-- Imperative
add_2_forms(data, "pres_actv_impr", "nōlī", "", "te")
add_23_forms(data, "futr_actv_impr", "nōl", "itō", "itō", "itōte", "untō")
end
irreg_conjugations["possum"] = function(args, data, typeinfo)
table.insert(data.title, "highly [[Appendix:Latin irregular verbs|irregular]]")
table.insert(data.title, "[[suppletive]]")
table.insert(data.categories, "Latin irregular verbs")
table.insert(data.categories, "Latin suppletive verbs")
typeinfo.subtypes.nopass = true
make_perf(data, "potu")
-- Active imperfective indicative
add_forms(data, "pres_actv_indc", "", "possum", "potes", "potest",
"possumus", "potestis", "possunt")
add_forms(data, "impf_actv_indc", "poter", "am", "ās", "at", "āmus", "ātis", "ant")
add_forms(data, "futr_actv_indc", "poter", "ō", {"is", "e"}, "it", "imus", "itis", "unt")
-- Active imperfective subjunctive
add_forms(data, "pres_actv_subj", "poss", "im", "īs", "it", "īmus", "ītis", "int")
add_forms(data, "impf_actv_subj", "poss", "em", "ēs", "et", "ēmus", "ētis", "ent")
-- Present infinitives
data.forms["pres_actv_inf"] = "posse"
-- Imperfective participles
data.forms["pres_actv_ptc"] = "potēns"
end
irreg_conjugations["piget"] = function(args, data, typeinfo)
table.insert(data.title, "[[Appendix:Latin second conjugation|second conjugation]]")
table.insert(data.title, "[[impersonal]]")
table.insert(data.title, "[[semi-deponent]]")
table.insert(data.categories, "Latin second conjugation verbs")
table.insert(data.categories, "Latin impersonal verbs")
table.insert(data.categories, "Latin semi-deponent verbs")
table.insert(data.categories, "Latin defective verbs")
local prefix = typeinfo.prefix or ""
--[[
-- not used
local ppplink = make_link({lang = lang, term = prefix .. "ausus"}, "term")
local sumlink = make_link({lang = lang, term = "sum"}, "term")
--]]
data.forms["3s_pres_actv_indc"] = prefix .. "piget"
data.forms["3s_impf_actv_indc"] = prefix .. "pigēbat"
data.forms["3s_futr_actv_indc"] = prefix .. "pigēbit"
data.forms["3s_perf_actv_indc"] = {prefix .. "piguit", "[[" .. prefix .. "pigitum]] [[est]]"}
data.forms["3s_plup_actv_indc"] = {prefix .. "piguerat", "[[" .. prefix .. "pigitum]] [[erat]]"}
data.forms["3s_futp_actv_indc"] = {prefix .. "piguerit", "[[" .. prefix .. "pigitum]] [[erit]]"}
data.forms["3s_pres_actv_subj"] = prefix .. "pigeat"
data.forms["3s_impf_actv_subj"] = prefix .. "pigēret"
data.forms["3s_perf_actv_subj"] = {prefix .. "piguerit", "[[" .. prefix .. "pigitum]] [[sit]]"}
data.forms["3s_plup_actv_subj"] = {prefix .. "piguisset", "[[" .. prefix .. "pigitum]] [[esset]]"}
data.forms["pres_actv_inf"] = prefix .. "pigēre"
data.forms["perf_actv_inf"] = "[[" .. prefix .. "pigitum]] [[esse]]"
data.forms["pres_actv_ptc"] = prefix .. "pigēns"
data.forms["perf_actv_ptc"] = prefix .. "pigitum"
-- Gerund
make_gerund(data, typeinfo, prefix .. "pigend")
end
irreg_conjugations["coepi"] = function(args, data, typeinfo)
table.insert(data.title, "[[Appendix:Latin third conjugation|third conjugation]]")
table.insert(data.title, "no [[present tense|present]] stem")
table.insert(data.categories, "Latin third conjugation verbs")
table.insert(data.categories, "Latin verbs with missing present stem")
table.insert(data.categories, "Latin defective verbs")
local prefix = typeinfo.prefix or ""
make_perf(data, prefix .. "coep")
make_supine(data, typeinfo, prefix .. "coept")
make_perfect_passive(data)
end
-- The vowel of the prefix is lengthened if it ends in -n and the next word begins with f- or s-.
local function lengthen_prefix(prefix)
return prefix:gsub("([aeiou]n)$", {["an"] = "ān", ["en"] = "ēn", ["in"] = "īn", ["on"] = "ōn", ["un"] = "ūn"})
end
irreg_conjugations["sum"] = function(args, data, typeinfo)
table.insert(data.title, "highly [[Appendix:Latin irregular verbs|irregular]]")
table.insert(data.title, "[[suppletive]]")
table.insert(data.categories, "Latin irregular verbs")
table.insert(data.categories, "Latin suppletive verbs")
local prefix = typeinfo.prefix or ""
local prefix_e = ine(args[3]) or prefix
local prefix_f = lengthen_prefix(ine(args[4]) or prefix)
local prefix_s = lengthen_prefix(prefix)
typeinfo.subtypes.nopass = true
typeinfo.subtypes.supfutractvonly = true
make_perf(data, prefix_f .. "fu")
make_supine(data, typeinfo, prefix_f .. "fut")
-- Active imperfective indicative
data.forms["1s_pres_actv_indc"] = prefix_s .. "sum"
data.forms["2s_pres_actv_indc"] = prefix_e .. "es"
data.forms["3s_pres_actv_indc"] = prefix_e .. "est"
data.forms["1p_pres_actv_indc"] = prefix_s .. "sumus"
data.forms["2p_pres_actv_indc"] = prefix_e .. "estis"
data.forms["3p_pres_actv_indc"] = prefix_s .. "sunt"
data.forms["1s_impf_actv_indc"] = prefix_e .. "eram"
data.forms["2s_impf_actv_indc"] = prefix_e .. "erās"
data.forms["3s_impf_actv_indc"] = prefix_e .. "erat"
data.forms["1p_impf_actv_indc"] = prefix_e .. "erāmus"
data.forms["2p_impf_actv_indc"] = prefix_e .. "erātis"
data.forms["3p_impf_actv_indc"] = prefix_e .. "erant"
data.forms["1s_futr_actv_indc"] = prefix_e .. "erō"
data.forms["2s_futr_actv_indc"] = {prefix_e .. "eris", prefix_e .. "ere"}
data.forms["3s_futr_actv_indc"] = prefix_e .. "erit"
data.forms["1p_futr_actv_indc"] = prefix_e .. "erimus"
data.forms["2p_futr_actv_indc"] = prefix_e .. "eritis"
data.forms["3p_futr_actv_indc"] = prefix_e .. "erunt"
-- Active imperfective subjunctive
data.forms["1s_pres_actv_subj"] = prefix_s .. "sim"
data.forms["2s_pres_actv_subj"] = prefix_s .. "sīs"
data.forms["3s_pres_actv_subj"] = prefix_s .. "sit"
data.forms["1p_pres_actv_subj"] = prefix_s .. "sīmus"
data.forms["2p_pres_actv_subj"] = prefix_s .. "sītis"
data.forms["3p_pres_actv_subj"] = prefix_s .. "sint"
if prefix_s == "ad" then
local noteindex = #(data.footnotes) + 1
add_form(data, "3p_pres_actv_subj", "", "adessint", 2 )
data.form_footnote_indices["3p_pres_actv_subj"] = tostring(noteindex)
data.footnotes[noteindex] = 'Archaic.'
end
data.forms["1s_impf_actv_subj"] = {prefix_e .. "essem", prefix_f .. "forem"}
data.forms["2s_impf_actv_subj"] = {prefix_e .. "essēs", prefix_f .. "forēs"}
data.forms["3s_impf_actv_subj"] = {prefix_e .. "esset", prefix_f .. "foret"}
data.forms["1p_impf_actv_subj"] = {prefix_e .. "essēmus", prefix_f .. "forēmus"}
data.forms["2p_impf_actv_subj"] = {prefix_e .. "essētis", prefix_f .. "forētis"}
data.forms["3p_impf_actv_subj"] = {prefix_e .. "essent", prefix_f .. "forent"}
-- Imperative
data.forms["2s_pres_actv_impr"] = prefix_e .. "es"
data.forms["2p_pres_actv_impr"] = prefix_e .. "este"
data.forms["2s_futr_actv_impr"] = prefix_e .. "estō"
data.forms["3s_futr_actv_impr"] = prefix_e .. "estō"
data.forms["2p_futr_actv_impr"] = prefix_e .. "estōte"
data.forms["3p_futr_actv_impr"] = prefix_s .. "suntō"
-- Present infinitives
data.forms["pres_actv_inf"] = prefix_e .. "esse"
-- Future infinitives
data.forms["futr_actv_inf"] = {"[[" .. prefix_f .. "futūrum]] [[esse]]", prefix_f .. "fore"}
-- Imperfective participles
if prefix == "ab" then
data.forms["pres_actv_ptc"] = "absēns"
elseif prefix == "prae" then
data.forms["pres_actv_ptc"] = "praesēns"
end
-- Gerund
data.forms["ger_gen"] = nil
data.forms["ger_dat"] = nil
data.forms["ger_acc"] = nil
data.forms["ger_abl"] = nil
-- Supine
data.forms["sup_acc"] = nil
data.forms["sup_abl"] = nil
end
-- Form-generating functions
make_pres_1st = function(data, typeinfo, pres_stem)
if not pres_stem then
return
end
-- Active imperfective indicative
add_forms(data, "pres_actv_indc", pres_stem, "ō", "ās", "at", "āmus", "ātis", "ant")
add_forms(data, "impf_actv_indc", pres_stem, "ābam", "ābās", "ābat", "ābāmus", "ābātis", "ābant")
add_forms(data, "futr_actv_indc", pres_stem, "ābō", "ābis", "ābit", "ābimus", "ābitis", "ābunt")
-- Passive imperfective indicative
add_forms(data, "pres_pasv_indc", pres_stem, "or", {"āris", "āre"}, "ātur", "āmur", "āminī", "antur")
add_forms(data, "impf_pasv_indc", pres_stem, "ābar", {"ābāris", "ābāre"}, "ābātur", "ābāmur", "ābāminī", "ābantur")
add_forms(data, "futr_pasv_indc", pres_stem, "ābor", {"āberis", "ābere"}, "ābitur", "ābimur", "ābiminī", "ābuntur")
-- Active imperfective subjunctive
add_forms(data, "pres_actv_subj", pres_stem, "em", "ēs", "et", "ēmus", "ētis", "ent")
add_forms(data, "impf_actv_subj", pres_stem, "ārem", "ārēs", "āret", "ārēmus", "ārētis", "ārent")
-- Passive imperfective subjunctive
add_forms(data, "pres_pasv_subj", pres_stem, "er", {"ēris", "ēre"}, "ētur", "ēmur", "ēminī", "entur")
add_forms(data, "impf_pasv_subj", pres_stem, "ārer", {"ārēris", "ārēre"}, "ārētur", "ārēmur", "ārēminī", "ārentur")
-- Imperative
add_2_forms(data, "pres_actv_impr", pres_stem, "ā", "āte")
add_23_forms(data, "futr_actv_impr", pres_stem, "ātō", "ātō", "ātōte", "antō")
add_2_forms(data, "pres_pasv_impr", pres_stem, "āre", "āminī")
add_23_forms(data, "futr_pasv_impr", pres_stem, "ātor", "ātor", {}, "antor")
-- Present infinitives
data.forms["pres_actv_inf"] = pres_stem .. "āre"
data.forms["pres_pasv_inf"] = pres_stem .. "ārī"
-- Imperfective participles
data.forms["pres_actv_ptc"] = pres_stem .. "āns"
-- Gerund
make_gerund(data, typeinfo, pres_stem .. "and")
end
make_pres_2nd = function(data, typeinfo, pres_stem, nopass, noimpr)
-- Active imperfective indicative
add_forms(data, "pres_actv_indc", pres_stem, "eō", "ēs", "et", "ēmus", "ētis", "ent")
add_forms(data, "impf_actv_indc", pres_stem, "ēbam", "ēbās", "ēbat", "ēbāmus", "ēbātis", "ēbant")
add_forms(data, "futr_actv_indc", pres_stem, "ēbō", "ēbis", "ēbit", "ēbimus", "ēbitis", "ēbunt")
-- Active imperfective subjunctive
add_forms(data, "pres_actv_subj", pres_stem, "eam", "eās", "eat", "eāmus", "eātis", "eant")
add_forms(data, "impf_actv_subj", pres_stem, "ērem", "ērēs", "ēret", "ērēmus", "ērētis", "ērent")
-- Active imperative
if not noimpr then
add_2_forms(data, "pres_actv_impr", pres_stem, "ē", "ēte")
add_23_forms(data, "futr_actv_impr", pres_stem, "ētō", "ētō", "ētōte", "entō")
end
if not nopass then
-- Passive imperfective indicative
add_forms(data, "pres_pasv_indc", pres_stem, "eor", {"ēris", "ēre"}, "ētur", "ēmur", "ēminī", "entur")
add_forms(data, "impf_pasv_indc", pres_stem, "ēbar", {"ēbāris", "ēbāre"}, "ēbātur", "ēbāmur", "ēbāminī", "ēbantur")
add_forms(data, "futr_pasv_indc", pres_stem, "ēbor", {"ēberis", "ēbere"}, "ēbitur", "ēbimur", "ēbiminī", "ēbuntur")
-- Passive imperfective subjunctive
add_forms(data, "pres_pasv_subj", pres_stem, "ear", {"eāris", "eāre"}, "eātur", "eāmur", "eāminī", "eantur")
add_forms(data, "impf_pasv_subj", pres_stem, "ērer", {"ērēris", "ērēre"}, "ērētur", "ērēmur", "ērēminī", "ērentur")
-- Passive imperative
if not noimpr then
add_2_forms(data, "pres_pasv_impr", pres_stem, "ēre", "ēminī")
add_23_forms(data, "futr_pasv_impr", pres_stem, "ētor", "ētor", {}, "entor")
end
end
-- Present infinitives
data.forms["pres_actv_inf"] = pres_stem .. "ēre"
if not nopass then
data.forms["pres_pasv_inf"] = pres_stem .. "ērī"
end
-- Imperfective participles
data.forms["pres_actv_ptc"] = pres_stem .. "ēns"
-- Gerund
make_gerund(data, typeinfo, pres_stem .. "end", nil, nil, nopass)
end
make_pres_3rd = function(data, typeinfo, pres_stem)
-- Active imperfective indicative
add_forms(data, "pres_actv_indc", pres_stem, "ō", "is", "it", "imus", "itis", "unt")
add_forms(data, "impf_actv_indc", pres_stem, "ēbam", "ēbās", "ēbat", "ēbāmus", "ēbātis", "ēbant")
add_forms(data, "futr_actv_indc", pres_stem, "am", "ēs", "et", "ēmus", "ētis", "ent")
-- Passive imperfective indicative
add_forms(data, "pres_pasv_indc", pres_stem, "or", {"eris", "ere"}, "itur", "imur", "iminī", "untur")
add_forms(data, "impf_pasv_indc", pres_stem, "ēbar", {"ēbāris", "ēbāre"}, "ēbātur", "ēbāmur", "ēbāminī", "ēbantur")
add_forms(data, "futr_pasv_indc", pres_stem, "ar", {"ēris", "ēre"}, "ētur", "ēmur", "ēminī", "entur")
-- Active imperfective subjunctive
add_forms(data, "pres_actv_subj", pres_stem, "am", "ās", "at", "āmus", "ātis", "ant")
add_forms(data, "impf_actv_subj", pres_stem, "erem", "erēs", "eret", "erēmus", "erētis", "erent")
-- Passive imperfective subjunctive
add_forms(data, "pres_pasv_subj", pres_stem, "ar", {"āris", "āre"}, "ātur", "āmur", "āminī", "antur")
add_forms(data, "impf_pasv_subj", pres_stem, "erer", {"erēris", "erēre"}, "erētur", "erēmur", "erēminī", "erentur")
-- Imperative
add_2_forms(data, "pres_actv_impr", pres_stem, "e", "ite")
add_23_forms(data, "futr_actv_impr", pres_stem, "itō", "itō", "itōte", "untō")
add_2_forms(data, "pres_pasv_impr", pres_stem, "ere", "iminī")
add_23_forms(data, "futr_pasv_impr", pres_stem, "itor", "itor", {}, "untor")
-- Present infinitives
data.forms["pres_actv_inf"] = pres_stem .. "ere"
data.forms["pres_pasv_inf"] = pres_stem .. "ī"
-- Imperfective participles
data.forms["pres_actv_ptc"] = pres_stem .. "ēns"
-- Gerund
make_gerund(data, typeinfo, pres_stem .. "end", "und-variant")
end
make_pres_3rd_io = function(data, typeinfo, pres_stem, nopass)
-- Active imperfective indicative
add_forms(data, "pres_actv_indc", pres_stem, "iō", "is", "it", "imus", "itis", "iunt")
add_forms(data, "impf_actv_indc", pres_stem, "iēbam", "iēbās", "iēbat", "iēbāmus", "iēbātis", "iēbant")
add_forms(data, "futr_actv_indc", pres_stem, "iam", "iēs", "iet", "iēmus", "iētis", "ient")
-- Active imperfective subjunctive
add_forms(data, "pres_actv_subj", pres_stem, "iam", "iās", "iat", "iāmus", "iātis", "iant")
add_forms(data, "impf_actv_subj", pres_stem, "erem", "erēs", "eret", "erēmus", "erētis", "erent")
-- Active imperative
add_2_forms(data, "pres_actv_impr", pres_stem, "e", "ite")
add_23_forms(data, "futr_actv_impr", pres_stem, "itō", "itō", "itōte", "iuntō")
-- Passive imperfective indicative
if not nopass then
add_forms(data, "pres_pasv_indc", pres_stem, "ior", {"eris", "ere"}, "itur", "imur", "iminī", "iuntur")
add_forms(data, "impf_pasv_indc", pres_stem, "iēbar", {"iēbāris", "iēbāre"}, "iēbātur", "iēbāmur", "iēbāminī", "iēbantur")
add_forms(data, "futr_pasv_indc", pres_stem, "iar", {"iēris", "iēre"}, "iētur", "iēmur", "iēminī", "ientur")
-- Passive imperfective subjunctive
add_forms(data, "pres_pasv_subj", pres_stem, "iar", {"iāris", "iāre"}, "iātur", "iāmur", "iāminī", "iantur")
add_forms(data, "impf_pasv_subj", pres_stem, "erer", {"erēris", "erēre"}, "erētur", "erēmur", "erēminī", "erentur")
-- Passive imperative
add_2_forms(data, "pres_pasv_impr", pres_stem, "ere", "iminī")
add_23_forms(data, "futr_pasv_impr", pres_stem, "itor", "itor", {}, "iuntor")
end
-- Present infinitives
data.forms["pres_actv_inf"] = pres_stem .. "ere"
if not nopass then
data.forms["pres_pasv_inf"] = pres_stem .. "ī"
end
-- Imperfective participles
data.forms["pres_actv_ptc"] = pres_stem .. "iēns"
-- Gerund
make_gerund(data, typeinfo, pres_stem .. "iend", "und-variant", nil, nopass)
end
make_pres_4th = function(data, typeinfo, pres_stem)
-- Active imperfective indicative
add_forms(data, "pres_actv_indc", pres_stem, "iō", "īs", "it", "īmus", "ītis", "iunt")
add_forms(data, "impf_actv_indc", pres_stem, "iēbam", "iēbās", "iēbat", "iēbāmus", "iēbātis", "iēbant")
add_forms(data, "futr_actv_indc", pres_stem, "iam", "iēs", "iet", "iēmus", "iētis", "ient")
-- Passive imperfective indicative
add_forms(data, "pres_pasv_indc", pres_stem, "ior", {"īris", "īre"}, "ītur", "īmur", "īminī", "iuntur")
add_forms(data, "impf_pasv_indc", pres_stem, "iēbar", {"iēbāris", "iēbāre"}, "iēbātur", "iēbāmur", "iēbāminī", "iēbantur")
add_forms(data, "futr_pasv_indc", pres_stem, "iar", {"iēris", "iēre"}, "iētur", "iēmur", "iēminī", "ientur")
-- Active imperfective subjunctive
add_forms(data, "pres_actv_subj", pres_stem, "iam", "iās", "iat", "iāmus", "iātis", "iant")
add_forms(data, "impf_actv_subj", pres_stem, "īrem", "īrēs", "īret", "īrēmus", "īrētis", "īrent")
-- Passive imperfective subjunctive
add_forms(data, "pres_pasv_subj", pres_stem, "iar", {"iāris", "iāre"}, "iātur", "iāmur", "iāminī", "iantur")
add_forms(data, "impf_pasv_subj", pres_stem, "īrer", {"īrēris", "īrēre"}, "īrētur", "īrēmur", "īrēminī", "īrentur")
-- Imperative
add_2_forms(data, "pres_actv_impr", pres_stem, "ī", "īte")
add_23_forms(data, "futr_actv_impr", pres_stem, "ītō", "ītō", "ītōte", "iuntō")
add_2_forms(data, "pres_pasv_impr", pres_stem, "īre", "īminī")
add_23_forms(data, "futr_pasv_impr", pres_stem, "ītor", "ītor", {}, "iuntor")
-- Present infinitives
data.forms["pres_actv_inf"] = pres_stem .. "īre"
data.forms["pres_pasv_inf"] = pres_stem .. "īrī"
-- Imperfective participles
data.forms["pres_actv_ptc"] = pres_stem .. "iēns"
-- Gerund
make_gerund(data, typeinfo, pres_stem .. "iend", "und-variant")
end
make_perf_and_supine = function(data, typeinfo)
if typeinfo.subtypes.optsemidepon then
make_perf(data, typeinfo.perf_stem, "noinf")
make_deponent_perf(data, typeinfo.supine_stem)
else
make_perf(data, typeinfo.perf_stem)
make_supine(data, typeinfo, typeinfo.supine_stem)
end
end
make_perf = function(data, perf_stem, no_inf)
if not perf_stem then
return
end
if type(perf_stem) ~= "table" then
perf_stem = {perf_stem}
end
for _, stem in ipairs(perf_stem) do
-- Perfective indicative
add_forms(data, "perf_actv_indc", stem, "ī", "istī", "it", "imus", "istis", {"ērunt", "ēre"})
add_forms(data, "plup_actv_indc", stem, "eram", "erās", "erat", "erāmus", "erātis", "erant")
add_forms(data, "futp_actv_indc", stem, "erō", "eris", "erit", "erimus", "eritis", "erint")
-- Perfective subjunctive
add_forms(data, "perf_actv_subj", stem, "erim", "erīs", "erit", "erīmus", "erītis", "erint")
add_forms(data, "plup_actv_subj", stem, "issem", "issēs", "isset", "issēmus", "issētis", "issent")
-- Perfect infinitive
if not no_inf then
add_form(data, "perf_actv_inf", stem, "isse")
end
end
end
make_deponent_perf = function(data, supine_stem)
if not supine_stem then
return
end
if type(supine_stem) ~= "table" then
supine_stem = {supine_stem}
end
-- Perfect/future infinitives
for _, stem in ipairs(supine_stem) do
local stems = "[[" .. stem .. "us]] "
local stemp = "[[" .. stem .. "ī]] "
add_forms(data, "perf_actv_indc", stems, "[[sum]]", "[[es]]", "[[est]]", {}, {}, {})
add_forms(data, "perf_actv_indc", stemp, {}, {}, {}, "[[sumus]]", "[[estis]]", "[[sunt]]")
add_forms(data, "plup_actv_indc", stems, "[[eram]]", "[[erās]]", "[[erat]]", {}, {}, {})
add_forms(data, "plup_actv_indc", stemp, {}, {}, {}, "[[erāmus]]", "[[erātis]]", "[[erant]]")
add_forms(data, "futp_actv_indc", stems, "[[erō]]", "[[eris]]", "[[erit]]", {}, {}, {})
add_forms(data, "futp_actv_indc", stemp, {}, {}, {}, "[[erimus]]", "[[eritis]]", "[[erint]]")
add_forms(data, "perf_actv_subj", stems, "[[sim]]", "[[sīs]]", "[[sit]]", {}, {}, {})
add_forms(data, "perf_actv_subj", stemp, {}, {}, {}, "[[sīmus]]", "[[sītis]]", "[[sint]]")
add_forms(data, "plup_actv_subj", stems, "[[essem]]", "[[essēs]]", "[[esset]]", {}, {}, {})
add_forms(data, "plup_actv_subj", stemp, {}, {}, {}, "[[essēmus]]", "[[essētis]]", "[[essent]]")
add_form(data, "perf_actv_inf", "", "[[" .. stem .. "um]] [[esse]]")
add_form(data, "futr_actv_inf", "", "[[" .. stem .. "ūrum]] [[esse]]")
add_form(data, "perf_actv_ptc", stem, "us")
add_form(data, "futr_actv_ptc", stem, "ūrus")
-- Supine
add_form(data, "sup_acc", stem, "um")
add_form(data, "sup_abl", stem, "ū")
end
end
make_supine = function(data, typeinfo, supine_stem)
if not supine_stem then
return
end
if type(supine_stem) ~= "table" then
supine_stem = {supine_stem}
end
-- Perfect/future infinitives
for _, stem in ipairs(supine_stem) do
local futr_actv_inf, perf_pasv_inf, futr_pasv_inf, futr_actv_ptc
local perf_pasv_ptc_lemma, perf_actv_ptc, perf_actv_ptc_acc
-- Perfect/future participles
futr_actv_ptc = stem .. "ūrus"
if typeinfo.subtypes.passimpers then
perf_pasv_ptc_lemma = stem .. "um"
perf_pasv_ptc = perf_pasv_ptc_lemma
perf_pasv_ptc_acc = perf_pasv_ptc_lemma
else
perf_pasv_ptc_lemma = stem .. "us"
if typeinfo.subtypes.mp then
perf_pasv_ptc = stem .. "ī"
perf_pasv_ptc_acc = stem .. "ōs"
elseif typeinfo.subtypes.fp then
perf_pasv_ptc = stem .. "ae"
perf_pasv_ptc_acc = stem .. "ās"
elseif typeinfo.subtypes.np then
perf_pasv_ptc = stem .. "a"
perf_pasv_ptc_acc = perf_pasv_ptc
elseif typeinfo.subtypes.f then
perf_pasv_ptc = stem .. "a"
perf_pasv_ptc_acc = stem .. "am"
elseif typeinfo.subtypes.n then
perf_pasv_ptc = stem .. "um"
perf_pasv_ptc_acc = perf_pasv_ptc
else
perf_pasv_ptc = perf_pasv_ptc_lemma
perf_pasv_ptc_acc = stem .. "um"
end
end
perf_pasv_inf = make_raw_link(perf_pasv_ptc_lemma,
perf_pasv_ptc_acc ~= perf_pasv_ptc_lemma and perf_pasv_ptc_acc or nil) .. " [[esse]]"
futr_pasv_inf = make_raw_link(stem .. "um") .. " [[īrī]]"
-- Exceptions
local mortu = {
["conmortu"] = true,
["commortu"] = true,
["dēmortu"] = true,
["ēmortu"] = true,
["inmortu"] = true,
["immortu"] = true,
["inēmortu"] = true,
["intermortu"] = true,
["permortu"] = true,
["praemortu"] = true,
["superēmortu"] = true
}
local ort = {
["ort"] = true,
["abort"] = true,
["adort"] = true,
["coort"] = true,
["exort"] = true,
["hort"] = true,
["obort"] = true
}
if mortu[stem] then
futr_actv_ptc = stem:gsub("mortu$", "moritūrus")
elseif ort[stem] then
futr_actv_ptc = stem:gsub("ort$", "oritūrus")
elseif stem == "mortu" then
-- FIXME, are we sure about this?
futr_actv_inf = {}
futr_actv_ptc = "moritūrus"
end
if not futr_actv_inf then
futr_actv_inf = make_raw_link(futr_actv_ptc, futr_actv_ptc:gsub("us$", "um")) .. " [[esse]]"
end
add_form(data, "futr_actv_inf", "", futr_actv_inf)
add_form(data, "perf_pasv_inf", "", perf_pasv_inf)
add_form(data, "futr_pasv_inf", "", futr_pasv_inf)
add_form(data, "futr_actv_ptc", "", futr_actv_ptc)
add_form(data, "perf_pasv_ptc", "", perf_pasv_ptc)
-- Supine itself
add_form(data, "sup_acc", stem, "um")
add_form(data, "sup_abl", stem, "ū")
end
end
make_sigm = function(data, typeinfo, sigm_stem)
if not (typeinfo.subtypes.sigm or typeinfo.subtypes.sigmpasv) then
return
end
if type(sigm_stem) ~= "table" then
sigm_stem = {sigm_stem}
end
local noteindex = #(data.footnotes) + 1
for _, stem in ipairs(sigm_stem) do
-- Deponent verbs use the passive form
if typeinfo.subtypes.depon then
add_form(data, "1s_sigf_actv_indc", stem, "or")
add_form(data, "2s_sigf_actv_indc", stem, "eris")
add_form(data, "3s_sigf_actv_indc", stem, "itur")
else
for _, stem in ipairs(sigm_stem) do
-- Sigmatic future active indicative
add_forms(data, "sigf_actv_indc", stem, "ō", "is", "it", "imus", "itis", "int")
-- Sigmatic future passive indicative (option)
if typeinfo.subtypes.sigmpasv then
add_form(data, "1s_sigf_pasv_indc", stem, "or")
add_form(data, "2s_sigf_pasv_indc", stem, "eris")
add_form(data, "3s_sigf_pasv_indc", stem, "itur")
end
-- Sigmatic future active subjunctive
add_forms(data, "siga_actv_subj", stem, "im", "īs", "īt", "īmus", "ītis", "int")
-- Perfect infinitive
if not no_inf then
add_form(data, "sigm_actv_inf", stem, "ere")
end
end
end
end
data.form_footnote_indices["sigm"] = noteindex
if (typeinfo.subtypes.sigm or typeinfo.subtypes.sigmpasv) and not (typeinfo.subtypes.depon) then
data.footnotes[noteindex] = 'At least one use of the archaic \"sigmatic future\" and \"sigmatic aorist\" tenses is attested, which are used by Old Latin writers; most notably Plautus and Terence. The sigmatic future is generally ascribed a future or future perfect meaning, while the sigmatic aorist expresses a possible desire (\"might want to\").'
if typeinfo.subtypes.sigmpasv then
data.footnotes[noteindex] = data.footnotes[noteindex] .. ' It is also attested as having a rare sigmatic future passive indicative form (\"will have been\").'
end
elseif typeinfo.subtypes.depon then
data.footnotes[noteindex] = 'At least one use of the archaic \"sigmatic future\" tense is attested, which is used by Old Latin writers; most notably Plautus and Terence. The sigmatic future is generally ascribed a future or future perfect meaning, and, as the verb is deponent, takes the form of what would otherwise be the rare sigmatic future passive indicative tense.'
end
end
-- Functions for generating the inflection table
-- Convert FORM (one or more forms) to a string of links. If the form is empty
-- (see form_is_empty), the return value will be "—".
local function show_form(form, accel)
if not form then
return "—"
end
if type(form) ~= "table" then
form = {form}
end
for key, subform in ipairs(form) do
if form_is_empty(subform) then
form[key] = "—"
elseif reconstructed and not subform:find(NAMESPACE .. ":Latin/") then
form[key] = make_link({lang = lang, term = NAMESPACE .. ":Latin/" .. subform, alt = subform})
elseif subform:find("[%[%]]") then
-- Don't put accelerators on forms already containing links such as
-- the perfect passive infinitive and future active infinitive, or
-- the participles wrongly get tagged as infinitives as well as
-- participles.
form[key] = make_link({lang = lang, term = subform})
else
form[key] = make_link({lang = lang, term = subform, accel = accel})
end
end
return table.concat(form, ",<br> ")
end
parts_to_tags = {
['1s'] = {'1', 's'},
['2s'] = {'2', 's'},
['3s'] = {'3', 's'},
['1p'] = {'1', 'p'},
['2p'] = {'2', 'p'},
['3p'] = {'3', 'p'},
['actv'] = {'act'},
['pasv'] = {'pass'},
['pres'] = {'pres'},
['impf'] = {'impf'},
['futr'] = {'fut'},
['perf'] = {'perf'},
['plup'] = {'plup'},
['futp'] = {'futp'},
['sigm'] = {'sigm'},
['sigf'] = {'sigm', 'fut'},
['siga'] = {'sigm', 'aor'},
['indc'] = {'ind'},
['subj'] = {'sub'},
['impr'] = {'imp'},
['inf'] = {'inf'},
['ptc'] = {'part'},
['ger'] = {'ger'},
['sup'] = {'sup'},
['nom'] = {'nom'},
['gen'] = {'gen'},
['dat'] = {'dat'},
['acc'] = {'acc'},
['abl'] = {'abl'},
}
-- Call show_form() the forms in each non-generic slot (where a
-- generic slot is something like pres_actv_indc that covers a whole
-- row of slots), converting the forms to a string consisting of
-- comma-separated links with accelerators in them.
local function convert_forms_into_links(data)
local accel_lemma = data.actual_lemma[1]
for slot in iter_slots(false, false) do
local slot_parts = split(slot, "_")
local tags = {}
for _, part in ipairs(slot_parts) do
for _, tag in ipairs(parts_to_tags[part]) do
table.insert(tags, tag)
end
end
-- put the case first for verbal nouns
local accel_slot
if tags[1] == "sup" or tags[1] == "ger" then
accel_slot = tags[2] .. "|" .. tags[1]
else
accel_slot = table.concat(tags, "|")
end
local accel = {form = accel_slot, lemma = accel_lemma}
data.forms[slot] = show_form(data.forms[slot], accel)
end
end
function export.get_valid_forms(raw_forms)
local valid_forms = {}
if raw_forms then
if type(raw_forms) ~= "table" then
raw_forms = {raw_forms}
end
for _, subform in ipairs(raw_forms) do
if not form_is_empty(subform) then
table.insert(valid_forms, subform)
end
end
end
return valid_forms
end
function export.get_lemma_forms(data, do_linked)
local linked_prefix = do_linked and "linked_" or ""
for _, slot in ipairs(potential_lemma_slots) do
local lemma_forms = export.get_valid_forms(data.forms[linked_prefix .. slot])
if #lemma_forms > 0 then
return lemma_forms
end
end
return nil
end
local function get_displayable_lemma(lemma_forms)
if not lemma_forms then
return "—"
end
local lemma_links = {}
for _, subform in ipairs(lemma_forms) do
table.insert(lemma_links, make_link({lang = lang, alt = subform}, "term"))
end
return table.concat(lemma_links, ", ")
end
-- Make the table
make_table = function(data)
local pagename = PAGENAME
if reconstructed then
pagename = pagename:gsub("Latin/","")
end
data.actual_lemma = export.get_lemma_forms(data)
convert_forms_into_links(data)
return [=[
{| style="width: 100%; background: #EEE; border: 1px solid #AAA; font-size: 95%; text-align: center;" class="inflection-table vsSwitcher" data-toggle-category="inflection"
|-
! colspan="8" class="vsToggleElement" style="background: #CCC; text-align: left;" | Conjugation of ]=] .. get_displayable_lemma(data.actual_lemma) .. (#data.title > 0 and " (" .. table.concat(data.title, ", ") .. ")" or "") .. [=[
]=] .. make_indc_rows(data) .. make_subj_rows(data) .. make_impr_rows(data) .. make_nonfin_rows(data) .. make_vn_rows(data) .. [=[
|}]=].. make_footnotes(data)
end
local tenses = {
["pres"] = "present",
["impf"] = "imperfect",
["futr"] = "future",
["perf"] = "perfect",
["plup"] = "pluperfect",
["futp"] = "future perfect",
["sigf"] = "sigmatic future",
["siga"] = "sigmatic aorist"
}
local voices = {
["actv"] = "active",
["pasv"] = "passive",
}
--[[
local moods = {
["indc"] = "indicative",
["subj"] = "subjunctive",
["impr"] = "imperative",
}
--]]
local nonfins = {
["inf"] = "infinitives",
["ptc"] = "participles",
}
--[[
local verbalnouns = {
["ger"] = "gerund",
["sup"] = "supine",
}
--]]
--[[
local cases = {
["nom"] = "nominative",
["gen"] = "genitive",
["dat"] = "dative",
["acc"] = "accusative",
["abl"] = "ablative",
}
--]]
make_indc_rows = function(data)
local indc = {}
for _, v in ipairs({"actv", "pasv"}) do
local group = {}
local nonempty = false
for _, t in ipairs({"pres", "impf", "futr", "perf", "plup", "futp", "sigf"}) do
local row = {}
local notempty = false
if data.forms[t .. "_" .. v .. "_indc"] then
row = "\n! colspan=\"6\" style=\"background: #CCC\" |" .. data.forms[t .. "_" .. v .. "_indc"]
nonempty = true
notempty = true
else
for col, p in ipairs({"1s", "2s", "3s", "1p", "2p", "3p"}) do
local slot = p .. "_" .. t .. "_" .. v .. "_indc"
row[col] = "\n| " .. data.forms[slot] .. (
data.form_footnote_indices[slot] == nil and "" or
'<sup style="color: red">' .. data.form_footnote_indices[slot].."</sup>"
)
-- show_form() already called so can just check for "—"
if data.forms[slot] ~= "—" then
nonempty = true
notempty = true
end
end
row = table.concat(row)
end
local fn
if t == "sigf" and data.form_footnote_indices["sigm"] then
fn = '<sup style="color: red">' .. data.form_footnote_indices["sigm"].."</sup>"
else
fn = ""
end
if notempty then
table.insert(group, "\n! style=\"background:#c0cfe4\" | " .. tenses[t] .. fn .. row)
end
end
if nonempty and #group > 0 then
table.insert(indc, "\n|- class=\"vsHide\"\n! rowspan=\"" .. tostring(#group) .. "\" style=\"background:#c0cfe4\" | " .. voices[v] .. "\n" .. table.concat(group, "\n|- class=\"vsHide\""))
end
end
return
[=[
|- class="vsHide"
! colspan="2" rowspan="2" style="background:#c0cfe4" | indicative
! colspan="3" style="background:#c0cfe4" | ''singular''
! colspan="3" style="background:#c0cfe4" | ''plural''
|- class="vsHide"
! style="background:#c0cfe4;width:12.5%" | [[first person|first]]
! style="background:#c0cfe4;width:12.5%" | [[second person|second]]
! style="background:#c0cfe4;width:12.5%" | [[third person|third]]
! style="background:#c0cfe4;width:12.5%" | [[first person|first]]
! style="background:#c0cfe4;width:12.5%" | [[second person|second]]
! style="background:#c0cfe4;width:12.5%" | [[third person|third]]
]=] .. table.concat(indc)
end
make_subj_rows = function(data)
local subj = {}
for _, v in ipairs({"actv", "pasv"}) do
local group = {}
local nonempty = false
for _, t in ipairs({"pres", "impf", "perf", "plup", "siga"}) do
local row = {}
local notempty = false
if data.forms[t .. "_" .. v .. "_subj"] then
row = "\n! colspan=\"6\" style=\"background: #CCC\" |" .. data.forms[t .. "_" .. v .. "_subj"]
nonempty = true
notempty = true
else
for col, p in ipairs({"1s", "2s", "3s", "1p", "2p", "3p"}) do
local slot = p .. "_" .. t .. "_" .. v .. "_subj"
row[col] = "\n| " .. data.forms[slot] .. (
data.form_footnote_indices[slot] == nil and "" or
'<sup style="color: red">' .. data.form_footnote_indices[slot].."</sup>"
)
-- show_form() already called so can just check for "—"
if data.forms[slot] ~= "—" then
nonempty = true
notempty = true
end
end
row = table.concat(row)
end
local fn
if t == "siga" and data.form_footnote_indices["sigm"] then
fn = '<sup style="color: red">' .. data.form_footnote_indices["sigm"].."</sup>"
else
fn = ""
end
if notempty then
table.insert(group, "\n! style=\"background:#c0e4c0\" | " .. tenses[t] .. fn .. row)
end
end
if nonempty and #group > 0 then
table.insert(subj, "\n|- class=\"vsHide\"\n! rowspan=\"" .. tostring(#group) .. "\" style=\"background:#c0e4c0\" | " .. voices[v] .. "\n" .. table.concat(group, "\n|- class=\"vsHide\""))
end
end
return
[=[
|- class="vsHide"
! colspan="2" rowspan="2" style="background:#c0e4c0" | subjunctive
! colspan="3" style="background:#c0e4c0" | ''singular''
! colspan="3" style="background:#c0e4c0" | ''plural''
|- class="vsHide"
! style="background:#c0e4c0;width:12.5%" | [[first person|first]]
! style="background:#c0e4c0;width:12.5%" | [[second person|second]]
! style="background:#c0e4c0;width:12.5%" | [[third person|third]]
! style="background:#c0e4c0;width:12.5%" | [[first person|first]]
! style="background:#c0e4c0;width:12.5%" | [[second person|second]]
! style="background:#c0e4c0;width:12.5%" | [[third person|third]]
]=] .. table.concat(subj)
end
make_impr_rows = function(data)
local impr = {}
local has_impr = false
for _, v in ipairs({"actv", "pasv"}) do
local group = {}
local nonempty = false
for _, t in ipairs({"pres", "futr"}) do
local row = {}
if data.forms[t .. "_" .. v .. "_impr"] then
row = "\n! colspan=\"6\" style=\"background: #CCC\" |" .. data.forms[t .. "_" .. v .. "_impr"]
nonempty = true
else
for col, p in ipairs({"1s", "2s", "3s", "1p", "2p", "3p"}) do
local slot = p .. "_" .. t .. "_" .. v .. "_impr"
row[col] = "\n| " .. data.forms[slot] .. (
data.form_footnote_indices[slot] == nil and "" or
'<sup style="color: red">' .. data.form_footnote_indices[slot].."</sup>"
)
-- show_form() already called so can just check for "—"
if data.forms[slot] ~= "—" then
nonempty = true
end
end
row = table.concat(row)
end
table.insert(group, "\n! style=\"background:#e4d4c0\" | " .. tenses[t] .. row)
end
if nonempty and #group > 0 then
has_impr = true
table.insert(impr, "\n|- class=\"vsHide\"\n! rowspan=\"" .. tostring(#group) .. "\" style=\"background:#e4d4c0\" | " .. voices[v] .. "\n" .. table.concat(group, "\n|- class=\"vsHide\""))
end
end
if not has_impr then
return ""
end
return
[=[
|- class="vsHide"
! colspan="2" rowspan="2" style="background:#e4d4c0" | imperative
! colspan="3" style="background:#e4d4c0" | ''singular''
! colspan="3" style="background:#e4d4c0" | ''plural''
|- class="vsHide"
! style="background:#e4d4c0;width:12.5%" | [[first person|first]]
! style="background:#e4d4c0;width:12.5%" | [[second person|second]]
! style="background:#e4d4c0;width:12.5%" | [[third person|third]]
! style="background:#e4d4c0;width:12.5%" | [[first person|first]]
! style="background:#e4d4c0;width:12.5%" | [[second person|second]]
! style="background:#e4d4c0;width:12.5%" | [[third person|third]]
]=] .. table.concat(impr)
end
make_nonfin_rows = function(data)
local nonfin = {}
for _, f in ipairs({"inf", "ptc"}) do
local row = {}
for col, t in ipairs({"pres_actv", "perf_actv", "futr_actv", "pres_pasv", "perf_pasv", "futr_pasv"}) do
local slot = t .. "_" .. f
--row[col] = "\n| " .. data.forms[slot]
row[col] = "\n| " .. data.forms[slot] .. (
data.form_footnote_indices[slot] == nil and "" or
'<sup style="color: red">' .. data.form_footnote_indices[slot] .."</sup>"
)
end
row = table.concat(row)
table.insert(nonfin, "\n|- class=\"vsHide\"\n! style=\"background:#e2e4c0\" colspan=\"2\" | " .. nonfins[f] .. row)
end
return
[=[
|- class="vsHide"
! colspan="2" rowspan="2" style="background:#e2e4c0" | non-finite forms
! colspan="3" style="background:#e2e4c0" | active
! colspan="3" style="background:#e2e4c0" | passive
|- class="vsHide"
! style="background:#e2e4c0;width:12.5%" | present
! style="background:#e2e4c0;width:12.5%" | perfect
! style="background:#e2e4c0;width:12.5%" | future
! style="background:#e2e4c0;width:12.5%" | present
! style="background:#e2e4c0;width:12.5%" | perfect
! style="background:#e2e4c0;width:12.5%" | future
]=] .. table.concat(nonfin)
end
make_vn_rows = function(data)
local vn = {}
local has_vn = false
local row = {}
for col, slot in ipairs({"ger_gen", "ger_dat", "ger_acc", "ger_abl", "sup_acc", "sup_abl"}) do
-- show_form() already called so can just check for "—"
if data.forms[slot] ~= "—" then
has_vn = true
end
row[col] = "\n| " .. data.forms[slot] .. (
data.form_footnote_indices[slot] == nil and "" or
'<sup style="color: red">' .. data.form_footnote_indices[slot] .. "</sup>"
)
end
row = table.concat(row)
if has_vn then
table.insert(vn, "\n|- class=\"vsHide\"" .. row)
end
if not has_vn then
return ""
end
return
[=[
|- class="vsHide"
! colspan="2" rowspan="3" style="background:#e0e0b0" | verbal nouns
! colspan="4" style="background:#e0e0b0" | gerund
! colspan="2" style="background:#e0e0b0" | supine
|- class="vsHide"
! style="background:#e0e0b0;width:12.5%" | genitive
! style="background:#e0e0b0;width:12.5%" | dative
! style="background:#e0e0b0;width:12.5%" | accusative
! style="background:#e0e0b0;width:12.5%" | ablative
! style="background:#e0e0b0;width:12.5%" | accusative
! style="background:#e0e0b0;width:12.5%" | ablative]=] .. table.concat(vn)
end
make_footnotes = function(data)
local tbl = {}
local i = 0
for k,v in pairs(data.footnotes) do
i = i + 1
tbl[i] = '<sup style="color: red">'..tostring(k)..'</sup>'..v..'<br>' end
return table.concat(tbl)
end
override = function(data, args)
for slot in iter_slots(true, false) do
if args[slot] then
data.forms[slot] = split(args[slot], "/")
end
end
end
checkexist = function(data)
if NAMESPACE ~= '' then return end
local outerbreak = false
for _, conjugation in pairs(data.forms) do
if conjugation then
if type(conjugation) == "string" then
conjugation = {conjugation}
end
for _, conj in ipairs(conjugation) do
if not cfind(conj, " ") then
local title = lang:makeEntryName(conj)
local t = mw.title.new(title)
if t and not t.exists then
table.insert(data.categories, "Latin verbs with red links in their inflection tables")
outerbreak = true
break
end
end
end
end
if outerbreak then
break
end
end
end
checkirregular = function(args,data)
local apocopic = sub(args[1],1,-2)
apocopic = gsub(apocopic,'[^aeiouyāēīōūȳ]+$','')
if args[1] and args[2] and not find(args[2],'^'..apocopic) then
table.insert(data.categories,'Latin stem-changing verbs')
end
end
-- functions for creating external search hyperlinks
flatten_values = function(T)
function noaccents(x)
return gsub(toNFD(x),'[^%w]+',"")
end
function cleanup(x)
return noaccents(gsub(gsub(gsub(x, '%[', ''), '%]', ''), ' ', '+'))
end
local tbl = {}
for _, v in pairs(T) do
if type(v) == "table" then
local FT = flatten_values(v)
for _, V in pairs(FT) do
tbl[#tbl+1] = cleanup(V)
end
else
if find(v, '<') == nil then
tbl[#tbl+1] = cleanup(v)
end
end
end
return tbl
end
link_google_books = function(verb, forms, domain)
function partition_XS_into_N(XS, N)
local count = 0
local mensae = {}
for _, v in pairs(XS) do
if count % N == 0 then mensae[#mensae+1] = {} end
count = count + 1
mensae[#mensae][#(mensae[#mensae])+1] = v end
return mensae end
function forms_N_to_link(fs, N, args, site)
return '[https://www.google.com/search?'..args..'&q='..site..'+%22'.. table.concat(fs, "%22+OR+%22") ..'%22 '..N..']' end
function make_links_txt(fs, N, site)
local args = site == "Books" and "tbm=bks&lr=lang_la" or ""
local links = {}
for k,v in pairs(partition_XS_into_N(fs, N)) do
links[#links+1] = forms_N_to_link(v,k,args,site=="Books" and "" or site) end
return table.concat(links, ' - ') end
return "Google "..domain.." forms of "..verb.." : "..make_links_txt(forms, 30, domain)
end
return export
-- For Vim, so we get 4-space tabs
-- vim: set ts=4 sw=4 noet: