Module:la-verb
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This module is used for the various Latin verb inflection tables.
local m_utilities = require("Module:utilities")
local m_table = require("Module:table")
local m_links = require("Module:links")
local m_la_headword = require("Module:la-headword")
local m_la_utilities = require("Module:la-utilities")
-- 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 sc = require("Module:scripts").getByCode("Latn")
local title = mw.title.getCurrentTitle()
local NAMESPACE = title.nsText
-- Conjugations are the functions that do the actual
-- conjugating by creating the forms of a basic verb.
-- They are defined further down.
local conjugations = {}
-- 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 make_link(page, display, face, accel)
return m_links.full_link({term = page, alt = display, lang = lang, sc = sc, accel = accel}, face)
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 simple one- or two-part link, which will be put through full_link later.
local function make_raw_link(page, display)
if page and display then
return "[[" .. page .. "|" .. display .. "]]"
elseif page then
return "[[" .. page .. "]]"
else
return display
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 [[w:Plautus|Plautus]] and [[w:Terence|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 [[w:Plautus|Plautus]] and [[w:Terence|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\"), which is not attested in the plural for any verb."
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 [[w:Plautus|Plautus]] and [[w:Terence|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 (which is not attested in the plural for any verb)."
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 = require("Module:parameters").process(parent_args, params, nil, "la-verb", "make_data")
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 m_table.deepCopy(args.cat) or {},
form_footnote_indices = {},
footnotes = {},
id = args.id,
overriding_lemma = args.lemma,
} --note: the addition of red superscripted footnotes ('<sup class="roa-red-superscript">' ... </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
m_table.insertIfNot(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 m_table.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
m_table.insertIfNot(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(pppform, nil, "term"))
end
local ppplink = table.concat(ppplinks, " or ")
local sumlink = make_link("sum", nil, "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(pppform, nil, "term"))
end
ppplink = table.concat(ppplinks, " or ")
sumlink = make_link("sum", nil, "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
m_table.insertIfNot(data.title, "no [[supine]] stem")
end
m_table.insertIfNot(data.categories, "Latin verbs with missing supine stem")
m_table.insertIfNot(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
m_table.insertIfNot(data.title, "no [[supine]] stem except in the [[future]] [[active]] [[participle]]")
end
m_table.insertIfNot(data.categories, "Latin verbs with missing supine stem except in the future active participle")
m_table.insertIfNot(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
m_table.insertIfNot(data.title, "no [[present tense|present]] stem")
if typeinfo.subtypes.nosup then
m_table.insertIfNot(data.title, "no [[supine]] stem")
elseif typeinfo.subtypes.supfutractvonly then
m_table.insertIfNot(data.title, "no [[supine]] stem except in the [[future]] [[active]] [[participle]]")
end
m_table.insertIfNot(data.title, "active only")
m_table.insertIfNot(data.title, "[[perfect]] forms as present")
m_table.insertIfNot(data.title, "pluperfect as imperfect")
m_table.insertIfNot(data.title, "future perfect as future")
m_table.insertIfNot(data.categories, "Latin defective verbs")
m_table.insertIfNot(data.categories, "Latin active-only verbs")
m_table.insertIfNot(data.categories, "Latin verbs with missing present stem")
m_table.insertIfNot(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.
m_table.insertIfNot(data.title, "[[impersonal]]")
m_table.insertIfNot(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
m_table.insertIfNot(data.title, "[[third person]] only")
m_table.insertIfNot(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.
m_table.insertIfNot(data.title, "no passive perfect forms")
m_table.insertIfNot(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.
m_table.insertIfNot(data.title, "optionally [[semi-deponent]]")
m_table.insertIfNot(data.categories, "Latin semi-deponent verbs")
m_table.insertIfNot(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
m_table.insertIfNot(data.title, "[[semi-deponent]]")
m_table.insertIfNot(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
m_table.insertIfNot(data.title, "[[deponent]]")
m_table.insertIfNot(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)
m_table.insertIfNot(data.title, "no [[perfect tense|perfect]] stem")
m_table.insertIfNot(data.categories, "Latin defective verbs")
if not typeinfo.subtypes.depon then
m_table.insertIfNot(data.categories, "Latin verbs with missing perfect stem")
end
-- 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
m_table.insertIfNot(data.title, "active only")
m_table.insertIfNot(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
m_table.insertIfNot(data.title, "only third-person forms in passive")
m_table.insertIfNot(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
m_table.insertIfNot(data.title, "[[impersonal]] in passive")
m_table.insertIfNot(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
m_table.insertIfNot(data.title, "no [[imperative]]s")
m_table.insertIfNot(data.categories, "Latin verbs with missing imperative")
m_table.insertIfNot(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
m_table.insertIfNot(data.title, "no [[future]]")
m_table.insertIfNot(data.categories, "Latin verbs with missing future")
m_table.insertIfNot(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
m_table.insertIfNot(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
m_table.insertIfNot(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
m_table.insertIfNot(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 == "Template" 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")
if typeinfo.subtypes.depon then
m_table.insertIfNot(data.categories, "Latin first conjugation deponent verbs")
elseif typeinfo.subtypes.noperf then
m_table.insertIfNot(data.categories, "Latin first conjugation verbs with missing perfect stem")
end
if typeinfo.subtypes.nosup then
m_table.insertIfNot(data.categories, "Latin first conjugation verbs with missing supine stem")
elseif typeinfo.subtypes.supfutractvonly then
m_table.insertIfNot(data.categories, "Latin first conjugation verbs with missing supine stem except in the future active participle ")
end
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")
if typeinfo.subtypes.depon then
m_table.insertIfNot(data.categories, "Latin second conjugation deponent verbs")
elseif typeinfo.subtypes.noperf then
m_table.insertIfNot(data.categories, "Latin second conjugation verbs with missing perfect stem")
end
if typeinfo.subtypes.nosup then
m_table.insertIfNot(data.categories, "Latin second conjugation verbs with missing supine stem")
elseif typeinfo.subtypes.supfutractvonly then
m_table.insertIfNot(data.categories, "Latin second conjugation verbs with missing supine stem except in the future active participle ")
end
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")
if typeinfo.subtypes.depon then
m_table.insertIfNot(data.categories, "Latin third conjugation deponent verbs")
elseif typeinfo.subtypes.noperf then
m_table.insertIfNot(data.categories, "Latin third conjugation verbs with missing perfect stem")
end
if typeinfo.subtypes.nosup then
m_table.insertIfNot(data.categories, "Latin third conjugation verbs with missing supine stem")
elseif typeinfo.subtypes.supfutractvonly then
m_table.insertIfNot(data.categories, "Latin third conjugation verbs with missing supine stem except in the future active participle ")
end
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")
if typeinfo.subtypes.depon then
m_table.insertIfNot(data.categories, "Latin fourth conjugation deponent verbs")
elseif typeinfo.subtypes.noperf then
m_table.insertIfNot(data.categories, "Latin fourth conjugation verbs with missing perfect stem")
end
if typeinfo.subtypes.nosup then
m_table.insertIfNot(data.categories, "Latin fourth conjugation verbs with missing supine stem")
elseif typeinfo.subtypes.supfutractvonly then
m_table.insertIfNot(data.categories, "Latin fourth conjugation verbs with missing supine stem except in the future active participle ")
end
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
m_table.insertIfNot(data.forms[key], f)
end
m_table.insertIfNot(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 == "Template" 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(nil, "dās", "term") .. " and " .. make_link(nil, "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(prefix .. "ausus", nil, "term")
local sumlink = make_link("sum", nil, "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 [[w:Plautus|Plautus]] and [[w:Terence|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\"), which is not attested in the plural for any verb.'
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 [[w:Plautus|Plautus]] and [[w:Terence|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 (which is not attested in the plural for any verb).'
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 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(subform)
else
form[key] = make_link(subform, nil, nil, 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(nil, subform, "term"))
end
return table.concat(lemma_links, ", ")
end
-- Make the table
make_table = function(data)
data.actual_lemma = export.get_lemma_forms(data)
convert_forms_into_links(data)
return require("Module:TemplateStyles")("Module:roa-verb/style.css") .. [=[
<div class="NavFrame">
<div class="NavHead"> Conjugation of ]=] .. get_displayable_lemma(data.actual_lemma) .. (#data.title > 0 and " (" .. table.concat(data.title, ", ") .. ")" or "") .. [=[</div>
<div class="NavContent">
{| class="roa-inflection-table" data-toggle-category="inflection"
]=] .. make_indc_rows(data) .. make_subj_rows(data) .. make_impr_rows(data) .. make_nonfin_rows(data) .. make_vn_rows(data) .. [=[
|}</div></div>]=].. 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" class="roa-compound-row" |' .. 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 class="roa-red-superscript">' .. 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 class="roa-red-superscript">' .. data.form_footnote_indices["sigm"].."</sup>"
else
fn = ""
end
if notempty then
table.insert(group, '\n! class="roa-indicative-left-rail" | ' .. tenses[t] .. fn .. row)
end
end
if nonempty and #group > 0 then
table.insert(indc, '\n|-\n! rowspan="' .. tostring(#group) .. '" class="roa-indicative-left-rail" | ' .. voices[v] .. "\n" .. table.concat(group, "\n|-"))
end
end
return
[=[
|-
! colspan="2" rowspan="2" class="roa-indicative-left-rail" | indicative
! colspan="3" class="roa-indicative-left-rail" | ''singular''
! colspan="3" class="roa-indicative-left-rail" | ''plural''
|-
! class="roa-indicative-left-rail" style="width:12.5%;" | [[first person|first]]
! class="roa-indicative-left-rail" style="width:12.5%;" | [[second person|second]]
! class="roa-indicative-left-rail" style="width:12.5%;" | [[third person|third]]
! class="roa-indicative-left-rail" style="width:12.5%;" | [[first person|first]]
! class="roa-indicative-left-rail" style="width:12.5%;" | [[second person|second]]
! class="roa-indicative-left-rail" style="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" class="roa-compound-row" |' .. 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 class="roa-red-superscript">' .. 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 class="roa-red-superscript">' .. data.form_footnote_indices["sigm"].."</sup>"
else
fn = ""
end
if notempty then
table.insert(group, '\n! class="roa-subjunctive-left-rail" | ' .. tenses[t] .. fn .. row)
end
end
if nonempty and #group > 0 then
table.insert(subj, '\n|-\n! rowspan=' .. tostring(#group) .. '" class="roa-subjunctive-left-rail" | ' .. voices[v] .. "\n" .. table.concat(group, "\n|-"))
end
end
return
[=[
|-
! colspan="2" rowspan="2" class="roa-subjunctive-left-rail" | subjunctive
! colspan="3" class="roa-subjunctive-left-rail" | ''singular''
! colspan="3" class="roa-subjunctive-left-rail" | ''plural''
|-
! class="roa-subjunctive-left-rail" style="width:12.5%;" | [[first person|first]]
! class="roa-subjunctive-left-rail" style="width:12.5%;" | [[second person|second]]
! class="roa-subjunctive-left-rail" style="width:12.5%;" | [[third person|third]]
! class="roa-subjunctive-left-rail" style="width:12.5%;" | [[first person|first]]
! class="roa-subjunctive-left-rail" style="width:12.5%;" | [[second person|second]]
! class="roa-subjunctive-left-rail" style="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" class="roa-compound-row" |' .. 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 class="roa-red-superscript">' .. 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! class="roa-imperative-left-rail" | ' .. tenses[t] .. row)
end
if nonempty and #group > 0 then
has_impr = true
table.insert(impr, '\n|-\n! rowspan="' .. tostring(#group) .. '" class="roa-imperative-left-rail" | ' .. voices[v] .. "\n" .. table.concat(group, "\n|-"))
end
end
if not has_impr then
return ""
end
return
[=[
|-
! colspan="2" rowspan="2" class="roa-imperative-left-rail" | imperative
! colspan="3" class="roa-imperative-left-rail" | ''singular''
! colspan="3" class="roa-imperative-left-rail" | ''plural''
|-
! class="roa-imperative-left-rail" style="width:12.5%;" | [[first person|first]]
! class="roa-imperative-left-rail" style="width:12.5%;" | [[second person|second]]
! class="roa-imperative-left-rail" style="width:12.5%;" | [[third person|third]]
! class="roa-imperative-left-rail" style="width:12.5%;" | [[first person|first]]
! class="roa-imperative-left-rail" style="width:12.5%;" | [[second person|second]]
! class="roa-imperative-left-rail" style="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 class="roa-red-superscript">' .. data.form_footnote_indices[slot] .."</sup>"
)
end
row = table.concat(row)
table.insert(nonfin, '\n|-\n! class="roa-nonfinite-header" colspan="2" | ' .. nonfins[f] .. row)
end
return
[=[
|-
! colspan="2" rowspan="2" class="roa-nonfinite-header" | non-finite forms
! colspan="3" class="roa-nonfinite-header" | active
! colspan="3" class="roa-nonfinite-header" | passive
|-
! class="roa-nonfinite-header" style="width:12.5%;" | present
! class="roa-nonfinite-header" style="width:12.5%;" | perfect
! class="roa-nonfinite-header" style="width:12.5%;" | future
! class="roa-nonfinite-header" style="width:12.5%;" | present
! class="roa-nonfinite-header" style="width:12.5%;" | perfect
! class="roa-nonfinite-header" style="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 class="roa-red-superscript">' .. data.form_footnote_indices[slot] .. "</sup>"
)
end
row = table.concat(row)
if has_vn then
table.insert(vn, "\n|-" .. row)
end
if not has_vn then
return ""
end
return
[=[
|-
! colspan="2" rowspan="3" class="roa-nonfinite-header" | verbal nouns
! colspan="4" class="roa-nonfinite-header" | gerund
! colspan="2" class="roa-nonfinite-header" | supine
|-
! class="roa-nonfinite-header" style="width:12.5%;" | genitive
! class="roa-nonfinite-header" style="width:12.5%;" | dative
! class="roa-nonfinite-header" style="width:12.5%;" | accusative
! class="roa-nonfinite-header" style="width:12.5%;" | ablative
! class="roa-nonfinite-header" style="width:12.5%;" | accusative
! class="roa-nonfinite-header" style="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 class="roa-red-superscript">'..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