Module:pl-adjective
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- The following documentation is located at Module:pl-adjective/documentation. [edit] Categories were auto-generated by Module:module categorization. [edit]
- Useful links: subpage list • links • transclusions • testcases • sandbox
This module implements {{pl-adecl}}
.
local export = {}
--[=[
Authorship: Ben Wing <benwing2>
]=]
--[=[
TERMINOLOGY:
-- "slot" = A particular combination of case/gender/number.
Example slot names for adjectives are "gen_f" (genitive feminine singular) and
"nom_mp_pers" (nominative masculine personal plural). Each slot is filled with zero or more forms.
-- "form" = The declined Polish form representing the value of a given slot.
-- "lemma" = The dictionary form of a given Polish term. Generally the nominative
masculine singular, but may occasionally be another form if the nominative
masculine singular is missing.
]=]
local lang = require("Module:languages").getByCode("pl")
local m_links = require("Module:links")
local m_table = require("Module:table")
local m_string_utilities = require("Module:string utilities")
local iut = require("Module:inflection utilities")
local com = require("Module:pl-common")
local current_title = mw.title.getCurrentTitle()
local NAMESPACE = current_title.nsText
local PAGENAME = current_title.text
local u = mw.ustring.char
local rsplit = mw.text.split
local rfind = mw.ustring.find
local rmatch = mw.ustring.match
local rgmatch = mw.ustring.gmatch
local rsubn = mw.ustring.gsub
local ulen = mw.ustring.len
local uupper = mw.ustring.upper
-- version of rsubn() that discards all but the first return value
local function rsub(term, foo, bar)
local retval = rsubn(term, foo, bar)
return retval
end
-- version of rsubn() that returns a 2nd argument boolean indicating whether
-- a substitution was made.
local function rsubb(term, foo, bar)
local retval, nsubs = rsubn(term, foo, bar)
return retval, nsubs > 0
end
-- All slots that are used by any of the different tables. The key is the slot and the value is a list of the tables
-- that use the slot. "regular" = regular, "plonly" = indicator 'plonly', "dwa" = [[dwa]] and [[oba]].
local input_adjective_slots = {
nom_m = {"regular"},
nom_f = {"regular"},
nom_n = {"regular"},
nom_mp_pers = {"regular", "dwa", "plonly"},
nom_p_not_mp_pers = {"regular", "plonly"},
nom_mp_npers = {"dwa"},
nom_fp = {"dwa"},
nom_np = {"dwa"},
gen_mn = {"regular"},
gen_f = {"regular"},
gen_p = {"regular", "plonly", "dwa"},
dat_mn = {"regular"},
dat_f = {"regular"},
dat_p = {"regular", "plonly", "dwa"},
acc_m_an = {"regular"},
acc_m_in = {"regular"},
acc_f = {"regular"},
acc_n = {"regular"},
acc_mp_pers = {"regular", "dwa", "plonly"},
acc_p_not_mp_pers = {"regular", "plonly"},
acc_mp_npers = {"dwa"},
acc_fp = {"dwa"},
acc_np = {"dwa"},
ins_mn = {"regular"},
ins_f = {"regular"},
ins_p = {"regular", "plonly"},
ins_mnp = {"dwa"},
ins_fp = {"dwa"},
loc_mn = {"regular"},
loc_f = {"regular"},
loc_p = {"regular", "plonly", "dwa"},
short = {"regular"},
}
local output_adjective_slots = {
nom_m = "nom|m|s",
nom_m_linked = "nom|m|s", -- used in [[Module:pl-noun]]?
nom_f = "nom|f|s",
nom_n = "nom|n|s",
nom_mp_pers = "pr|nom|m|p",
nom_mp_pers_linked = "pr|nom|m|p", -- used in [[Module:pl-noun]]?
nom_p_not_mp_pers = "np|nom|p",
nom_mp_npers = "np|nom|m|p",
nom_mp_npers_linked = "pr|nom|m|p", -- used in [[Module:pl-noun]]?
nom_fp = "nom|f|p",
nom_np = "nom|n|p",
gen_mn = "gen|m//n|s",
gen_f = "gen|f|s",
gen_p = "gen|p",
dat_mn = "dat|m//n|s",
dat_f = "dat|f|s",
dat_p = "dat|p",
acc_m_an = "an|acc|m|s",
acc_m_in = "in|acc|m|s",
acc_f = "acc|f|s",
acc_n = "acc|n|s",
acc_mp_pers = "pr|acc|m|p",
acc_p_not_mp_pers = "np|acc|p",
acc_mp_npers = "np|acc|m|p",
acc_fp = "acc|f|p",
acc_np = "acc|n|p",
ins_mn = "ins|m//n|s",
ins_f = "ins|f|s",
ins_p = "ins|p",
ins_mnp = "ins|m//n|p",
ins_fp = "ins|f|p",
loc_mn = "loc|m//n|s",
loc_f = "loc|f|s",
loc_p = "loc|p",
short = "short",
}
local potential_lemma_slots = {"nom_m", "nom_mp_npers", "nom_mp_pers"}
local function get_output_adjective_slots(alternant_multiword_spec)
return output_adjective_slots
end
local function combine_stem_ending(stem, ending)
if stem == "?" then
return "?"
elseif stem:find("j$") and ending:find("^i") then
return stem:gsub("j$", "") .. ending
else
return stem .. ending
end
end
-- Basic function to combine stem and ending(s) and insert the result into the appropriate slot. `stem` is either a
-- string or a form object (containing fields `form` and `footnotes`). `endings` is either a string specifying a single
-- ending or a list of endings. If `endings` is nil, no forms are inserted. If an ending is "-", the value of `stem` is
-- ignored and the lemma is used instead as the stem; this is important in case the user used `decllemma:` to specify a
-- declension lemma different from the actual lemma.
local function add(base, slot, stem, endings, footnotes)
if not endings then
return
end
local stem_footnotes = type(stem) == "table" and stem.footnotes or nil
footnotes = iut.combine_footnotes(iut.combine_footnotes(base.footnotes, stem_footnotes), footnotes)
if type(endings) == "string" then
endings = {endings}
end
for _, ending in ipairs(endings) do
local this_stem
-- Compute the stem. If ending is "-", use the lemma regardless.
if ending == "-" then
this_stem = base.actual_lemma
ending = ""
elseif type(stem) == "string" then
this_stem = stem
else
this_stem = stem.form
end
ending = iut.combine_form_and_footnotes(ending, footnotes)
iut.add_forms(base.forms, slot, this_stem, ending, combine_stem_ending)
end
end
-- Following the old [[Module:pl-adj]], a "normal" declension has syncretism in the gen/dat/loc fem sg, in the acc/ins
-- fem sg, in the ins/loc masc/neut sg, and in the gen/loc pl.
local function add_normal_decl(base, stem,
nom_f, nom_n, nom_mp_pers, nom_p_not_mp_pers,
gen_mn, gen_f, gen_p,
dat_mn, dat_p,
acc_f,
ins_mn, ins_p,
arch_dat_mn,
footnote)
if stem then
stem = iut.combine_form_and_footnotes(stem, footnote)
end
add(base, "nom_m", stem, "-")
add(base, "nom_f", stem, nom_f)
add(base, "nom_n", stem, nom_n)
add(base, "nom_mp_pers", stem, nom_mp_pers)
add(base, "nom_p_not_mp_pers", stem, nom_p_not_mp_pers)
add(base, "gen_mn", stem, gen_mn)
add(base, "gen_f", stem, gen_f)
add(base, "gen_p", stem, gen_p)
add(base, "dat_mn", stem, dat_mn)
if arch_dat_mn and base.archdat then
add(base, "dat_mn", stem, arch_dat_mn, "[archaic]")
end
add(base, "dat_f", stem, gen_f)
add(base, "dat_p", stem, dat_p)
add(base, "acc_f", stem, acc_f)
add(base, "ins_mn", stem, ins_mn)
add(base, "ins_f", stem, acc_f)
add(base, "ins_p", stem, ins_p)
add(base, "loc_mn", stem, ins_mn)
add(base, "loc_f", stem, gen_f)
add(base, "loc_p", stem, gen_p)
end
local decls = {}
decls["normal"] = function(base)
local stem, suffix
-- soft in -l or -j ([[żmii]]; combine_stem_ending() will drop -j before i-)
stem, suffix = rmatch(base.lemma, "^(.*[lj])(i)$")
if stem then
add_normal_decl(base, stem,
"a", "e", "i", "e",
"ego", "ej", "ich",
"emu", "im",
"ą",
"im", "imi"
)
return
end
-- soft in -c
stem, suffix = rmatch(base.lemma, "^(.*c)(i)$")
if stem then
add_normal_decl(base, stem,
"ia", "ie", "i", "ie",
"iego", "iej", "ich",
"iemu", "im",
"ią",
"im", "imi"
)
return
end
-- velar
stem, suffix = rmatch(base.lemma, "^(.*[kg])(i)$")
if stem then
add_normal_decl(base, stem,
"a", "ie", nil, "ie",
"iego", "iej", "ich",
"iemu", "im",
"ą",
"im", "imi",
"u"
)
-- Do the nominative masculine personal plural separately since it may have a different stem (with the second
-- palatalization and Lechitic softening applied).
add_normal_decl(base, com.soften_adj_masc_pers_pl(base.lemma), nil, nil, "")
return
end
-- other soft in -i
stem, suffix = rmatch(base.lemma, "^(.*)(i)$")
if stem then
add_normal_decl(base, stem,
"ia", "ie", "i", "ie",
"iego", "iej", "ich",
"iemu", "im",
"ią",
"im", "imi"
)
return
end
-- hard in -y
stem, suffix = rmatch(base.lemma, "^(.*)(y)$")
if stem then
add_normal_decl(base, stem,
"a", "e", nil, "e",
"ego", "ej", "ych",
"emu", "ym",
"ą",
"ym", "ymi",
"u"
)
-- Do the nominative masculine personal plural separately since it may have a different stem (with the second
-- palatalization and Lechitic softening applied).
if stem:find("zielon$") then
add_normal_decl(base, stem, nil, nil, "i")
add_normal_decl(base, rsub(stem, "on$", "en"), nil, nil, "i")
elseif stem:find("czerwon$") or stem:find("słon$") then
add_normal_decl(base, stem, nil, nil, "i")
elseif stem:find("on$") then
add_normal_decl(base, rsub(stem, "on$", "en"), nil, nil, "i")
else
add_normal_decl(base, com.soften_adj_masc_pers_pl(base.lemma), nil, nil, "")
end
return
end
error("Unrecognized adjective lemma, should end in '-y' or '-i': '" .. base.lemma .. "'")
end
decls["irreg"] = function(base)
local lemma = base.lemma
if lemma == "dwa" or lemma == "oba" then
for _, slot_value in ipairs {
{"nom_mp_pers", "aj"},
{"nom_mp_npers", "a"},
{"nom_fp", "ie"},
{"nom_np", "a"},
{"gen_p", {"u", "óch"}},
{"dat_p", {"u", "om", "óm"}},
{"ins_mnp", {"oma", "u"}},
{"ins_fp", {"iema", "oma", "u"}},
{"loc_p", {"u", "óch"}},
} do
local slot, value = unpack(slot_value)
add(base, slot, lemma == "dwa" and "dw" or "ob", value)
end
return
end
local stem = lemma:match("^(.*[st]w)ój$")
if not stem then
stem = lemma:match("^(.*m)ój$")
end
if stem then
add_normal_decl(base, stem .. "oj",
"a", "e", "i", "e", -- combine_stem_ending() will drop -j before i-
"ego", "ej", "ich",
"emu", "im",
"ą",
"im", "imi"
)
add_normal_decl(base, stem,
"a", "e", nil, "e",
"ego", "ej", "ych",
"emu", "ym",
"ą",
"ym", "ymi",
nil,
"[literary or archaic]"
)
return
end
stem = lemma:match("^(.*)ten$")
if stem then
add_normal_decl(base, stem,
"ta", "to", "ci", "te",
"tego", "tej", "tych",
"temu", "tym",
nil,
"tym", "tymi"
)
add(base, "acc_f", stem, "tę")
add(base, "acc_f", stem, "tą", "[proscribed but much more common]")
add(base, "ins_f", stem, "tą")
return
end
stem = lemma:match("^(.*czyj)$")
if stem then
add_normal_decl(base, stem,
"a", "e", "i", "e",
"ego", "ej", "ich",
"emu", "im",
"ą",
"im", "imi"
)
return
end
stem = lemma:match("^(.*sam)$")
if not stem then
stem = lemma:match("^(.*jed)en$")
if stem then
stem = stem .. "n"
end
end
if not stem then
stem = lemma:match("^(on)$")
end
if not stem then
stem = lemma:match("^(ów)$")
if stem then
stem = stem:gsub("ów$", "ow")
end
end
if not stem then
stem = lemma:match("^(ow)y$")
end
if stem then
add_normal_decl(base, stem,
"a", "o", "i", "e",
"ego", "ej", "ych",
"emu", "ym",
"ą",
"ym", "ymi"
)
return
end
stem = lemma:match("^(.*il)e$")
if stem then
add_normal_decl(base, stem,
nil, nil, "u", "e",
nil, nil, "u",
nil, "u",
nil,
nil, "u"
)
add(base, "ins_p", stem, "oma", "[rare]")
return
end
-- [[wszystek]]
stem, suffix = rmatch(base.lemma, "^(.*wszys)tek$")
if stem then
add_normal_decl(base, stem .. "tk",
"a", "o", nil, "ie",
"iego", "iej", "ich",
"iemu", "im",
"ą",
"im", "imi",
"u"
)
add_normal_decl(base, stem .. "c", nil, nil, "y")
return
end
error(("Unrecognized irregular lemma '%s'"):format(lemma))
end
local function fetch_footnotes(separated_group)
local footnotes
for j = 2, #separated_group - 1, 2 do
if separated_group[j + 1] ~= "" then
error("Extraneous text after bracketed footnotes: '" .. table.concat(separated_group) .. "'")
end
if not footnotes then
footnotes = {}
end
table.insert(footnotes, separated_group[j])
end
return footnotes
end
--[=[
Parse a single override spec (e.g. 'ins_mn:autodráhou:autodrahou[rare]' or 'gen_p+loc_p:čobotyx') and return two values:
the slot(s) the override applies to, and an object describing the override spec. The input is actually a list where the
footnotes have been separated out; for example, given the spec 'ins_p:čobotami:čobotámi[rare]:čobitmi[archaic]', the
input will be a list {"ins_p:čobotami:čobotámi", "[rare]", ":čobitmi", "[archaic]", ""}. The object returned for
'ins_mn:autodráhou:autodrahou[rare]' looks like this:
{
values = {
{
form = "autodráhou"
},
{
form = "autodrahou",
footnotes = {"[rare]"}
}
}
}
]=]
local function parse_override(segments)
local retval = {values = {}}
local slots = {}
local colon_separated_groups = iut.split_alternating_runs_and_strip_spaces(segments, ":")
for i, colon_separated_group in ipairs(colon_separated_groups) do
if i == 1 then
if #colon_separated_group > 1 then
error(("Footnotes not allowed after slot name: '%s'"):format(table.concat(segments)))
end
local slotspec = colon_separated_group[1]
for _, slot in ipairs(rsplit(slotspec, "%+")) do
if not input_adjective_slots[slot] then
error(("Unrecognized slot '%s': '%s'"):format(slot, table.concat(segments)))
end
table.insert(slots, slot)
end
else
local value = {}
local form = colon_separated_group[1]
if form == "" then
error(("Use - to indicate an empty ending for slot%s '%s': '%s'"):format(#slots > 1 and "s" or "", table.concat(slots), table.concat(segments)))
elseif form == "-" then
value.form = ""
else
value.form = form
end
value.footnotes = fetch_footnotes(colon_separated_group)
table.insert(retval.values, value)
end
end
return slots, retval
end
local function parse_indicator_spec(angle_bracket_spec)
local inside = rmatch(angle_bracket_spec, "^<(.*)>$")
assert(inside)
local base = {overrides = {}, forms = {}}
if inside ~= "" then
local segments = iut.parse_balanced_segment_run(inside, "[", "]")
local dot_separated_groups = iut.split_alternating_runs_and_strip_spaces(segments, "%.")
for i, dot_separated_group in ipairs(dot_separated_groups) do
local part = dot_separated_group[1]
if rfind(part, "^decllemma:") then
if base.decllemma then
error("Can't specify 'decllemma:' twice: '" .. inside .. "'")
end
base.decllemma = rsub(part, "^decllemma:", "")
elseif rfind(part, ":") then
local slots, override = parse_override(dot_separated_group)
for _, slot in ipairs(slots) do
if base.overrides[slot] then
error(("Two overrides specified for slot '%s'"):format(slot))
else
base.overrides[slot] = {override}
end
end
elseif part == "irreg" or part == "plonly" or part == "archdat" then
if #dot_separated_group > 1 then
error("Footnotes only allowed with slot overrides or by themselves: '" ..
table.concat(dot_separated_group) .. "'")
end
if base[part] then
error("Can't specify '" .. part .. "' twice: '" .. inside .. "'")
end
base[part] = true
elseif part == "" then
if #dot_separated_group == 1 then
error("Blank indicator: '" .. inside .. "'")
end
base.footnotes = fetch_footnotes(dot_separated_group)
else
error("Unrecognized indicator '" .. part .. "': '" .. inside .. "'")
end
end
end
return base
end
local function normalize_all_lemmas(alternant_multiword_spec, pagename)
iut.map_word_specs(alternant_multiword_spec, function(base)
if base.lemma == "" then
base.lemma = pagename
end
base.orig_lemma = base.lemma
base.orig_lemma_no_links = m_links.remove_links(base.lemma)
base.actual_lemma = base.lemma
base.lemma = base.decllemma or base.orig_lemma_no_links
end)
end
local function detect_indicator_spec(base)
if base.irreg then
base.decl = "irreg"
if base.lemma == "dwa" or base.lemma == "oba" then
base.dwa = true
elseif base.lemma:find("ile$") then
base.plonly = true
end
else
base.decl = "normal"
end
end
local function detect_all_indicator_specs(alternant_multiword_spec)
iut.map_word_specs(alternant_multiword_spec, function(base)
detect_indicator_spec(base)
local special = base.plonly and "plonly" or base.dwa and "dwa" or "regular"
if alternant_multiword_spec.special == nil then
alternant_multiword_spec.special = special
elseif alternant_multiword_spec.special ~= special then
-- We do this because we have a special table with its own slots for each of these special variants.
if special == "dwa" then
error("If some alternants are irregular [[dwa]] or [[oba]], all must be")
elseif special == "plonly" then
error("If some alternants use indicator 'plonly', all must")
else
error("Can't mix regular declension with 'plonly' indicator or with irregular [[dwa]] or [[oba]]")
end
end
end)
end
local function process_slot_overrides(base, do_slot)
for slot, overrides in pairs(base.overrides) do
local special = base.plonly and "plonly" or base.dwa and "dwa" or "regular"
local allowed_specials = input_adjective_slots[slot]
if not allowed_specials then
error(("Internal error: Encountered unrecognized slot '%s' not caught during parse_indicator_spec()"):format(
slot))
end
if not m_table.contains(allowed_specials, special) then
error(("Override specified for slot '%s' not compatible with table type '%s'"):format(slot, special))
end
if do_slot(slot) then
base.slot_overridden[slot] = true
base.forms[slot] = nil
for _, override in ipairs(overrides) do
for _, value in ipairs(override.values) do
local form = value.form
local combined_notes = iut.combine_footnotes(base.footnotes, value.footnotes)
iut.insert_form(base.forms, slot, {form = form, footnotes = combined_notes})
end
end
end
end
end
local function handle_derived_slots_and_overrides(base)
local function is_derived_slot(slot)
return slot:find("^acc")
end
local function is_non_derived_slot(slot)
return not is_derived_slot(slot)
end
base.slot_overridden = {}
-- Handle overrides for the non-derived slots. Do this before generating the derived
-- slots so overrides of the source slots (e.g. nom_p) propagate to the derived slots.
process_slot_overrides(base, is_non_derived_slot)
local function copy_if(from_slot, to_slot)
if not base.forms[to_slot] then
iut.insert_forms(base.forms, to_slot, base.forms[from_slot])
end
end
copy_if("nom_n", "acc_n")
copy_if("gen_mn", "acc_m_an")
copy_if("nom_m", "acc_m_in")
copy_if("gen_p", "acc_mp_pers")
copy_if("nom_p_not_mp_pers", "acc_p_not_mp_pers")
copy_if("nom_mp_npers", "acc_mp_npers")
copy_if("nom_fp", "acc_fp")
copy_if("nom_np", "acc_np")
-- Handle overrides for derived slots, to allow them to be overridden.
process_slot_overrides(base, is_derived_slot)
-- Compute linked versions of potential lemma slots, for use in {{cs-noun}}.
-- We substitute the original lemma (before removing links) for forms that
-- are the same as the lemma, if the original lemma has links.
for _, slot in ipairs(potential_lemma_slots) do
iut.insert_forms(base.forms, slot .. "_linked", iut.map_forms(base.forms[slot], function(form)
if form == base.orig_lemma_no_links and rfind(base.orig_lemma, "%[%[") then
return base.orig_lemma
else
return form
end
end))
end
end
local function decline_adjective(base)
if not decls[base.decl] then
error("Internal error: Unrecognized declension type '" .. base.decl .. "'")
end
decls[base.decl](base)
handle_derived_slots_and_overrides(base)
end
local function get_decl_from_lemma(base)
if base.decl == "irreg" then
return "irregular"
elseif rfind(base.lemma, "y$") then
return "hard"
elseif rfind(base.lemma, "[kg]i$") then
return "velar"
else
return "soft"
end
end
local function add_categories(alternant_multiword_spec)
local cats = {}
local plpos = m_string_utilities.pluralize(alternant_multiword_spec.pos or "adjective")
local function insert(cattype)
m_table.insertIfNot(cats, "Polish " .. cattype .. " " .. plpos)
end
iut.map_word_specs(alternant_multiword_spec, function(base)
insert(get_decl_from_lemma(base))
if base.overrides.short then
table.insert(cats, "Polish " .. plpos .. " with short forms")
end
if base.decllemma then
table.insert(cats, "Polish " .. plpos .. " with irregular stem")
end
end)
alternant_multiword_spec.categories = cats
end
local function show_forms(alternant_multiword_spec)
local lemmas = {}
for _, slot in ipairs(potential_lemma_slots) do
if alternant_multiword_spec.forms[slot] then
for _, formobj in ipairs(alternant_multiword_spec.forms[slot]) do
-- FIXME, now can support footnotes as qualifiers in headwords?
table.insert(lemmas, formobj.form)
end
break
end
end
local props = {
lemmas = lemmas,
slot_table = get_output_adjective_slots(alternant_multiword_spec),
lang = lang,
}
iut.show_forms(alternant_multiword_spec.forms, props)
end
local function make_table(alternant_multiword_spec)
local forms = alternant_multiword_spec.forms
local function template_prelude(min_width)
return rsub([===[
<div>
<div class="NavFrame" style="max-width: MINWIDTHem">
<div class="NavHead" style="background:#eff7ff">{title}{annotation}</div>
<div class="NavContent" style="overflow:auto">
{\op}| border="1px solid #000000" style="border-collapse:collapse;background:#F9F9F9;text-align:center; width:100%" class="inflection-table"
|-
]===], "MINWIDTH", min_width)
end
local function template_postlude()
return [=[
|{\cl}{notes_clause}</div></div></div>]=]
end
local table_spec_both = template_prelude("75") .. [=[
! style="background:#d9ebff" colspan=5 | singular
! style="background:#d9ebff" colspan=2 | plural
|-
! style="background:#d9ebff" |
! style="background:#d9ebff" | masculine animate
! style="background:#d9ebff" | masculine inanimate
! style="background:#d9ebff" | feminine
! style="background:#d9ebff" | neuter
! style="background:#d9ebff" | virile (= masculine personal)
! style="background:#d9ebff" | non-virile
|-
! style="background:#eff7ff" | nominative
| colspan=2 | {nom_m}
| {nom_f}
| {nom_n}
| {nom_mp_pers}
| {nom_p_not_mp_pers}
|-
! style="background:#eff7ff" | genitive
| colspan=2 | {gen_mn}
| {gen_f}
| {gen_mn}
| colspan=2 | {gen_p}
|-
! style="background:#eff7ff" | dative
| colspan=2 | {dat_mn}
| {dat_f}
| {dat_mn}
| colspan=2 | {dat_p}
|-
! style="background:#eff7ff" | accusative
| {acc_m_an}
| {acc_m_in}
| {acc_f}
| {acc_n}
| {acc_mp_pers}
| {acc_p_not_mp_pers}
|-
! style="background:#eff7ff" | instrumental
| colspan=2 | {ins_mn}
| {ins_f}
| {ins_mn}
| colspan=2 | {ins_p}
|-
! style="background:#eff7ff" | locative
| colspan=2 | {loc_mn}
| {loc_f}
| {loc_mn}
| colspan=2 | {loc_p}{short_clause}
]=] .. template_postlude()
local table_spec_plonly = template_prelude("40") .. [=[
! style="background:#d9ebff" colspan=5 | plural
|-
! style="background:#d9ebff" |
! style="background:#d9ebff" | virile (= masculine personal)
! style="background:#d9ebff" colspan=3 | non-virile
|-
! style="background:#eff7ff" | nominative
| {nom_mp_pers}
| colspan=3 | {nom_p_not_mp_pers}
|-
! style="background:#eff7ff" | genitive
| colspan=4 | {gen_p}
|-
! style="background:#eff7ff" | dative
| colspan=4 | {dat_p}
|-
! style="background:#eff7ff" | accusative
| {acc_mp_pers}
| colspan=3 | {acc_p_not_mp_pers}
|-
! style="background:#eff7ff" | instrumental
| colspan=4 | {ins_p}
|-
! style="background:#eff7ff" | locative
| colspan=4 | {loc_p}
]=] .. template_postlude()
local table_spec_dwa = template_prelude("55") .. [=[
! style="width:40%;background:#d9ebff" colspan="2" |
! style="background:#d9ebff" colspan="4" | plural
|-
! style="width:40%;background:#d9ebff" colspan="2" |
! style="background:#d9ebff" | masculine personal
! style="background:#d9ebff" | masculine nonpersonal
! style="background:#d9ebff" | feminine
! style="background:#d9ebff" | neuter
|-
! style="background:#eff7ff" colspan="2" | nominative
| {nom_mp_pers}
| {nom_mp_npers}
| {nom_fp}
| {nom_np}
|-
! style="background:#eff7ff" colspan="2" | genitive
| colspan="4" | {gen_p}
|-
! style="background:#eff7ff" colspan="2" | dative
| colspan="4" | {dat_p}
|-
! style="background:#eff7ff" colspan="2" | accusative
| {acc_mp_pers}
| {acc_mp_npers}
| {acc_fp}
| {acc_np}
|-
! style="background:#eff7ff" colspan="2" | instrumental
| colspan="2" | {ins_mnp}
| {ins_fp}
| {ins_mnp}
|-
! style="background:#eff7ff" colspan="2" | locative
| colspan="4" | {loc_p}
]=] .. template_postlude()
local short_template = [=[
|-
! style="background:#eff7ff" | short
| colspan="2" | {short}
]=]
local notes_template = [===[
<div style="width:100%;text-align:left;background:#d9ebff">
<div style="display:inline-block;text-align:left;padding-left:1em;padding-right:1em">
{footnote}
</div></div>
]===]
if alternant_multiword_spec.title then
forms.title = alternant_multiword_spec.title
else
forms.title = 'Declension of <i lang="pl">' .. forms.lemma .. '</i>'
end
local ann_parts = {}
local decls = {}
iut.map_word_specs(alternant_multiword_spec, function(base)
m_table.insertIfNot(decls, get_decl_from_lemma(base))
end)
table.insert(ann_parts, table.concat(decls, " // "))
forms.annotation = " (" .. table.concat(ann_parts, ", ") .. ")"
forms.notes_clause = forms.footnote ~= "" and
m_string_utilities.format(notes_template, forms) or ""
forms.short_clause = forms.short and forms.short ~= "—" and
m_string_utilities.format(short_template, forms) or ""
return m_string_utilities.format(
alternant_multiword_spec.special == "plonly" and table_spec_plonly or
alternant_multiword_spec.special == "dwa" and table_spec_dwa or
table_spec_both, forms
)
end
-- Externally callable function to parse and decline an adjective given user-specified arguments. Return value is
-- ALTERNANT_MULTIWORD_SPEC, an object where the declined forms are in `ALTERNANT_MULTIWORD_SPEC.forms` for each slot.
-- If there are no values for a slot, the slot key will be missing. The value for a given slot is a list of objects
-- {form=FORM, footnotes=FOOTNOTES}.
function export.do_generate_forms(parent_args, pos, from_headword)
local params = {
-- Only default param 1 when displaying the template.
[1] = {template_default = "biały<>"},
pos = {},
json = {type = "boolean"}, -- for use with bots
title = {},
pagename = {},
}
for slot, _ in pairs(input_adjective_slots) do
params[slot] = {}
end
local args = require("Module:parameters").process(parent_args, params)
local pagename = args.pagename or require("Module:headword/data").pagename
local args1 = args[1] or pagename
local parse_props = {
parse_indicator_spec = parse_indicator_spec,
allow_default_indicator = true,
allow_blank_lemma = true,
}
local alternant_multiword_spec = iut.parse_inflected_text(args1, parse_props)
alternant_multiword_spec.pos = args.pos
alternant_multiword_spec.title = args.title
alternant_multiword_spec.forms = {}
normalize_all_lemmas(alternant_multiword_spec, pagename)
detect_all_indicator_specs(alternant_multiword_spec)
local inflect_props = {
slot_table = get_output_adjective_slots(alternant_multiword_spec),
inflect_word_spec = decline_adjective,
}
iut.inflect_multiword_or_alternant_multiword_spec(alternant_multiword_spec, inflect_props)
add_categories(alternant_multiword_spec)
if args.json and not from_headword then
return require("Module:JSON").toJSON(alternant_multiword_spec)
end
return alternant_multiword_spec
end
-- Entry point for {{pl-adecl}}. Template-callable function to parse and decline an adjective given user-specified
-- arguments and generate a displayable table of the declined forms.
function export.show(frame)
local parent_args = frame:getParent().args
local alternant_multiword_spec = export.do_generate_forms(parent_args)
show_forms(alternant_multiword_spec)
return make_table(alternant_multiword_spec) .. require("Module:utilities").format_categories(alternant_multiword_spec.categories, lang)
end
return export