Module:User:Benwing2/form of

local export = {}

export.force_cat = false -- for testing; set to true to display categories even on non-mainspace pages

local m_links = require("Module:links") local m_string_utils = require("Module:string utilities") local m_table = require("Module:table") local parse_utilities_module = "Module:parse utilities" local labels_module = "Module:labels" local utilities_module = "Module:utilities" export.form_of_pos_module = "Module:form of/pos" export.form_of_functions_module = "Module:form of/functions" export.form_of_cats_module = "Module:form of/cats" export.form_of_lang_data_module_prefix = "Module:form of/lang-data/" export.form_of_data_module = "Module:form of/data" export.form_of_data2_module = "Module:form of/data2"

local ulen = m_string_utils.len local rsubn = m_string_utils.gsub local rmatch = m_string_utils.match local rsplit = m_string_utils.split

export.TAG_TYPE = 1 export.GLOSSARY = 2 export.SHORTCUTS = 3 export.WIKIDATA = 4

export.APPENDIX = true export.WIKIPEDIA = false export.WIKTIONARY = 0

--[==[ Set listing the languages with lang-specific tags. If a language isn't listed here, the tags for that language won't be recognized. ]==] export.langs_with_lang_specific_tags = { ["en"] = true, ["got"] = true, ["lt"] = true, ["lv"] = true, ["nl"] = true, ["pi"] = true, ["sw"] = true, ["ttj"] = true, }

--[==[ intro:

This module implements the underlying processing of form of, inflection of and specific variants such as past participle of and alternative spelling of. Most of the logic in this file is to handle tags in inflection of. Other related files:

tags, their shortcuts, the category they belong to (tense-aspect, case, gender, voice-valence, etc.), the appropriate glossary link and the wikidata ID. format as Module:form of/data. tags for the language with code LANGCODE, in the same format as Module:form of/data. Language-specific tags override general tags. appropriate combinations of tags are seen for a given language. categorization. FIXME: This should be unified with the parts of speech listed in Module:links. They are contained in this module because data-only modules can't contain code. The functions in this file are of two types: one such handler, for handling multipart person tags such as `1//2//3`. Currently no such functions exist.
 * Module:form of/templates contains the majority of the logic that implements the templates themselves.
 * Module:form of/data is a data-only file containing information on the more common inflection tags, listing the
 * Module:form of/data2 is a data-only file containing information on the less common inflection tags, in the same
 * Module:form of/lang-data/LANGCODE is a data-only file containing information on the language-specific inflection
 * Module:form of/cats is a data-only file listing the language-specific categories that are added when the
 * Module:form of/pos is a data-only file listing the recognized parts of speech and their abbreviations, used for
 * Module:form of/functions contains functions for use with Module:form of/data and Module:form of/cats.
 * Display handlers allow for customization of the display of multipart tags (see below). Currently there is only
 * Cat functions allow for more complex categorization logic, and are referred to by name in Module:form of/cats.

The following terminology is used in conjunction with inflection of:

are `masculine`, `nominative`, or `first-person`. Tags may be abbreviated, e.g. `m` for `masculine`, `nom` for `nominative`, or `1` for `first-person`. Such abbreviations are called aliases, and some tags have multiple equivalent aliases (e.g. `p` or `pl` for `plural`). The full, non-abbreviated form of a tag is called its canonical form. as its canonical form, and it normally functions as a link to a glossary entry explaining the tag. Usually the link is to an entry in Appendix:Glossary, but sometimes the tag is linked to an individual dictionary entry or to a  Wikipedia entry. Occasionally, the display text differs from the canonical form of the tag. An example is the tag `comparative case`, which has the display text read as simply `comparative`. Normally, tags referring to cases don't have the word "case" in them, but in this case the tag `comparative` was already used as an alias for the tag `comparative degree`, so the tag was named `comparative case` to avoid clashing. A similar situation occurs with `adverbial case` vs. the grammar tag `adverbial` (as in `adverbial participle`). which can be expanded to canonical-form tags as `first-person|singular|present|indicative`. `1|s|pres|ind|;|2|s|imp`, which specifies two tag sets, `1|s|pres|ind` as above and `2|s|imp` (in canonical form, `second-person|singular|imperative`). Multiple tag sets specified in a single call to inflection of are specified in this fashion. Conjoined tag sets can also occur in list-tag shortcuts. the case of syncretism, when the same form applies to multiple inflections. Examples are the Spanish present subjunctive, where the first-person and third-person singular have the same form (e.g. from  ), or Latin third-declension adjectives, where the dative and ablative plural of all genders have the same form (e.g. from ). These would be expressed respectively as `1//3|s|pres|sub` and `dat//abl|m//f//n|p`, where the use of the multipart tag compactly encodes the syncretism and avoids the need to individually list out all of the inflections. Multipart tags currently display as a list separated by a slash, e.g. dative/ablative or masculine/feminine/neuter where each individual word is linked appropriately. As a special case, multipart tags involving persons display specially; for example, the multipart tag `1//2//3` displays as first-, second- and third-person, with the word "person" occurring only once. individual tags. The tags within the tag set are joined by a colon, e.g. `1:s//3:p`, which is displayed as first-person singular and third-person plural, e.g. for use with the form  of the verb , which uses the tag set `1:s//3:p|impf|actv|indc|unaugmented` to express the syncretism between the first singular and third plural forms of the imperfect active indicative unaugmented conjugation. Two-level multipart tags should be used sparingly; if in doubt, list out the inflections separately. [FIXME: Make two-level multipart tags obsolete.] Aliases are a particular type of shortcut whose expansion is a single non-multipart tag. multipart tag `1//2//3`. Only the most common such combinations exist as shortcuts. the shortcut `1s` expands to `1|s` (first-person singular). Only the most common such combinations exist as shortcuts. sets). For example, the English language-specific shortcut `ed-form` expands to `spast|;|past|part`, expressing the common syncretism between simple past and past participle in English (and in this case, `spast` is itself a list shortcut that expands to `simple|past`). ]==]
 * A tag is a single grammatical item, as specified in a single numbered parameter of inflection of. Examples
 * The display form of a tag is the way it's displayed to the user. Usually the displayed text of the tag is the same
 * A tag set is an ordered list of tags, which together express a single inflection, for example, `1|s|pres|ind`,
 * A conjoined tag set is a tag set that consists of multiple individual tag sets separated by a semicolon, e.g.
 * A multipart tag is a tag that embeds multiple tags within it, such as `f//n` or `nom//acc//voc`. These are used in
 * A two-level multipart tag is a special type of multipart tag that joins two or more tag sets instead of joining
 * A shortcut is a tag that expands to any type of tag described above, or to any type of tag set described above.
 * A multipart shortcut is a shortcut that expands into a multipart tag, for example `123`, which expands to the
 * A list shortcut is a special type of shortcut that expands to a list of tags instead of a single tag. For example,
 * A conjoined shortcut is a special type of list shortcut that consists of a conjoined tag set (multiple logical tag

-- 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

local function normalize_index(list, index) if index < 0 then return #list + index + 1 end return index end

-- FIXME, consider moving to Module:table -- Return true if the list `tags1`, treated as a set, is a subset of the list `tags2`, also treated as a set. local function is_subset(tags1, tags2) tags1 = m_table.listToSet(tags1) tags2 = m_table.listToSet(tags2) for tag, _ in pairs(tags1) do		if not tags2[tag] then return false end end return true end

-- FIXME, move to Module:table local function slice(list, i, j)	--checkType("slice", 1, list, "table") --checkType("slice", 2, i, "number", true) --checkType("slice", 3, j, "number", true) if i == nil then i = 1 else i = normalize_index(list, i)	end j = normalize_index(list, j or -1)

local retval = {} local k = 0 for index = i, j do		k = k + 1 retval[k] = list[index] end return retval end

-- Add tracking category for PAGE when called from or -- similar TEMPLATE. The tracking category linked to is -- Tracking/inflection of/PAGE. local function track(page) require("Module:debug/track")("inflection of/" ..		-- avoid including links in pages (may cause error)		page:gsub("%[", "("):gsub("%]", ")"):gsub("|", "!")) end

local function wrap_in_span(text, classes) return (" %s "):format(classes, text) end

--[==[ Lowest-level implementation of form-of templates, including the general form of as well as those that deal with inflection tags, such as the general inflection of, semi-specific variants such as participle of, and specific variants such as past participle of. `data` contains all the information controlling the display, with the following fields:

directly to {full_link} in Module:links. Each object should have at minimum a `.lang` field containing the language of the lemma and a `.term` field containing the lemma itself. Each object is formatted using {full_link} and then if there are more than one, they are joined using {serialCommaJoin} in Module:table. Alternatively, `.lemmas` can be a string, which is displayed directly, or omitted, to show no lemma links and omit the connecting text. themselves forms of another lemma (the base lemma), e.g. a comparative, superlative or participle. Each object is of  the form { { paramobj = PARAM_OBJ, lemmas = {LEMMA_OBJ, LEMMA_OBJ, ...} }} where PARAM_OBJ describes the properties of the base lemma parameter (i.e. the relationship between the intermediate and base lemmas) and LEMMA_OBJ is an  object suitable to be passed to {full_link} in Module:links. PARAM_OBJ is of the format { { param = "PARAM", tags = {"TAG", "TAG", ...} } where PARAM is the name of the parameter to inflection of  etc. that holds the base lemma(s) of the specified relationship and the tags describe the relationship, such as   { {"comd"}} or { {"past", "part"}}. for the tag text and lemma links, and additionally {"form-of-definition-link"} specifically for the lemma links. (FIXME: Should separate out the lemma links into their own field.) ]==] function export.format_form_of(data) if type(data) ~= "table" then error("Internal error: First argument must now be a table of arguments") end local text_classes = data.text_classes or "form-of-definition use-with-mention" local lemma_classes = data.text_classes or "form-of-definition-link" local parts = {} local function ins(text) table.insert(parts, text) end ins("") ins(data.text) if data.text ~= "" and data.lemmas then ins(" ") end if data.lemmas then if type(data.lemmas) == "string" then ins(wrap_in_span(data.lemmas, lemma_classes)) else local formatted_terms = {} for _, lemma in ipairs(data.lemmas) do				table.insert(formatted_terms, wrap_in_span( m_links.full_link(lemma, data.lemma_face), lemma_classes ))			end ins(m_table.serialCommaJoin(formatted_terms)) end end if data.enclitics and #data.enclitics > 0 then -- The outer parens need to be outside of the text_classes span so they show in upright instead of italic, or -- they will clash with upright parens generated by link annotations such as transliterations and pos=. ins(" ") local formatted_terms = {} for _, enclitic in ipairs(data.enclitics) do -- FIXME, should we have separate clitic face and/or classes? table.insert(formatted_terms, wrap_in_span( m_links.full_link(enclitic, data.lemma_face, nil, "show qualifiers"), lemma_classes ))		end ins(" (")		ins(wrap_in_span("with enclitic" .. (#data.enclitics > 1 and "s" or "") .. " ", text_classes))		ins(m_table.serialCommaJoin(formatted_terms))		ins(")") ins("") end if data.base_lemmas and #data.base_lemmas > 0 then for _, base_lemma in ipairs(data.base_lemmas) do			ins(", the ") ins(export.tagged_inflections {				lang = base_lemma.lemmas[1].lang,				tags = base_lemma.paramobj.tags,				lemmas = base_lemma.lemmas,				lemma_face = data.lemma_face,				no_format_categories = true,				nocat = true,				text_classes = data.text_classes,			}) ins("") end end -- FIXME, should posttext go before enclitics? If so we need to have separate handling for the -- final colon when there are multiple tag sets in tagged_inflections. if data.posttext then ins(data.posttext) end ins(" ") return table.concat(parts) end
 * `.text`: Text to insert before the lemmas. Wrapped in the value of `.text_classes`, or its default; see below.
 * `.lemmas`: List of objects describing the lemma(s) of which the term in question is a non-lemma form. These are passed
 * `.lemma_face`: "Face" to use when displaying the lemma objects. Usually should be set to {"term"}.
 * `.enclitics`: List of enclitics to display after the lemmas, in parens.
 * `.base_lemmas`: List of base lemmas to display after the lemmas, in the case where the lemmas in `.lemmas` are
 * `.text_classes`: CSS classes used to wrap the tag text and lemma links. Default is {"form-of-definition use-with-mention"}
 * `.posttext`: Additional text to display after the lemma links.

--[==[ Return true if `tag` contains an internal link or HTML. ]==] function export.is_link_or_html(tag) return tag:find("[[", nil, true) or tag:find("|", nil, true) or tag:find("<", nil, true) end

--[==[ Look up a tag (either a shortcut of any sort of a canonical long-form tag) and return its expansion. The expansion will be a string unless the shortcut is a list-tag shortcut such as `1s`; in that case, the expansion will be a list. The caller must handle both cases. Only one level of expansion happens; hence, `acc` expands to {"accusative"}, `1s` expands to { {"1", "s"}} (not to { {"first", "singular"}}) and `123` expands to {"1//2//3"}. The expansion will be the same as the passed-in tag in the following circumstances:


 * 1) The tag is `;` (this is special-cased, and no lookup is done).
 * 2) The tag is a multipart tag such as `nom//acc` (this is special-cased, and no lookup is done).
 * 3) The tag contains a raw link (this is special-cased, and no lookup is done).
 * 4) The tag contains HTML (this is special-cased, and no lookup is done).
 * 5) The tag is already a canonical long-form tag.
 * 6) The tag is unrecognized.

This function first looks up in the lang-specific data module Module:form of/lang-data/LANGCODE, then in Module:form of/data (which includes more common non-lang-specific tags) and finally (only if the tag is not recognized as a shortcut or canonical tag, and is not of types 1-4 above) in Module:form of/data2.

If the expansion is a string and is different from the tag, track it if `do_track` is true. ]==] function export.lookup_shortcut(tag, lang, do_track) -- If there is HTML or a link in the tag, return it directly; don't try -- to look it up, which will fail. if tag == ";" or tag:find("//", nil, true) or export.is_link_or_html(tag) then return tag end local expansion local langcode = lang and lang:getCode if langcode and export.langs_with_lang_specific_tags[langcode] then local langdata = mw.loadData(export.form_of_lang_data_module_prefix .. langcode) -- If this is a canonical long-form tag, just return it, and don't check for shortcuts. This is an -- optimization; see below. if langdata.tags[tag] then return tag end expansion = langdata.shortcuts[tag] end if not expansion and lang then -- If the lang we're dealing with is an etym-only lang, try again with the corresponding full language. local full_langcode = lang:getFullCode if full_langcode ~= langcode and export.langs_with_lang_specific_tags[full_langcode] then local langdata = mw.loadData(export.form_of_lang_data_module_prefix .. full_langcode) -- If this is a canonical long-form tag, just return it, and don't check for shortcuts. This is an -- optimization; see below. if langdata.tags[tag] then return tag end expansion = langdata.shortcuts[tag] end end if not expansion then local m_data = mw.loadData(export.form_of_data_module) -- If this is a canonical long-form tag, just return it, and don't check for shortcuts (which will cause		-- Module:form of/data2 to be loaded, because there won't be a shortcut entry in Module:form of/data --		-- or, for that matter, in Module:form of/data2). This is an optimization; the code will still work without -- it, but will use up more memory. if m_data.tags[tag] then return tag end expansion = m_data.shortcuts[tag] end if not expansion then local m_data2 = mw.loadData(export.form_of_data2_module) expansion = m_data2.shortcuts[tag] end if not expansion then return tag end -- Maybe track the expansion if it's not the same as the raw tag. if do_track and expansion ~= tag and type(expansion) == "string" then track("tag/" .. tag) end return expansion end

--[==[ Look up a normalized/canonicalized tag and return the data object associated with it. If the tag isn't found, return nil. This first looks up in the lang-specific data module Module:form of/lang-data/LANGCODE, then in Module:form of/data (which includes more common non-lang-specific tags) and then finally in Module:form of/data2. ]==] function export.lookup_tag(tag, lang) local langcode = lang and lang:getCode if langcode and export.langs_with_lang_specific_tags[langcode] then local langdata = mw.loadData(export.form_of_lang_data_module_prefix .. langcode) if langdata.tags[tag] then return langdata.tags[tag] end end local full_langcode = lang and lang:getFullCode if full_langcode and full_langcode ~= langcode and export.langs_with_lang_specific_tags[full_langcode] then -- If the lang we're dealing with is an etym-only lang, try again with the corresponding full language. local langdata = mw.loadData(export.form_of_lang_data_module_prefix .. full_langcode) if langdata.tags[tag] then return langdata.tags[tag] end end local m_data = mw.loadData(export.form_of_data_module) local tagobj = m_data.tags[tag] if tagobj then return tagobj end local m_data2 = mw.loadData(export.form_of_data2_module) local tagobj2 = m_data2.tags[tag] if tagobj2 then return tagobj2 end return nil end

-- Normalize a single tag, which may be a shortcut but should not be a multipart tag, a multipart shortcut or a list -- shortcut. local function normalize_single_tag(tag, lang, do_track) local expansion = export.lookup_shortcut(tag, lang, do_track) if type(expansion) ~= "string" then error("Tag '" .. tag .. "' is a list shortcut, which is not allowed here") end tag = expansion if not export.lookup_tag(tag, lang) and do_track then -- If after all expansions and normalizations we don't recognize the canonical tag, track it. track("unknown") track("unknown/" .. tag) end return tag end

--[=[ Normalize a component of a multipart tag. This should not have any // in it, but may join multiple individual tags with a colon, and may be a single list-tag shortcut, which is treated as if colon-separated. The return value may be a list of tags. ]=] local function normalize_multipart_component(tag, lang, do_track) -- If there is HTML or a link in the tag, don't try to split on colon. A colon may legitimately occur in either one, -- and we don't want these things parsed. Note that we don't do this check before splitting on //, which we don't	-- expect to occur in links or HTML; see comment in normalize_tag. if export.is_link_or_html(tag) then return tag end local components = rsplit(tag, ":", true) if #components == 1 then -- We allow list-tag shortcuts inside of multipart tags, e.g. -- '1s//3p'. Check for this now. tag = export.lookup_shortcut(tag, lang, do_track) if type(tag) == "table" then -- Temporary tracking as we will disallow this. track("list-tag-inside-of-multipart") -- We found a list-tag shortcut; treat as if colon-separated. components = tag else return normalize_single_tag(tag, lang, do_track) end end local normtags = {} -- Temporary tracking as we will disallow this. track("two-level-multipart") for _, component in ipairs(components) do		if do_track then -- There are multiple components; track each of the individual -- raw tags. track("tag/" .. component) end table.insert(normtags, normalize_single_tag(component, lang, do_track)) end

return normtags end

--[=[ Normalize a single tag. The return value may be a list (in the case of multipart tags), which will contain nested lists in the case of two-level multipart tags. ]=] local function normalize_tag(tag, lang, do_track) -- We don't check for links or HTML before splitting on //, which we don't expect to occur in links or HTML. Doing -- it this way allows for a tag like '//' to function correctly (the template calls	-- will be expanded before we process the tag, and will contain links and HTML). The only check we do is for a URL, -- which shouldn't normally occur, but might if the user tries to put an external link into the tag. URL's with // -- normally have the sequence ://, which should never normally occur when // and : are used in their normal ways. if tag:find("://", nil, true) then return tag end local split_tags = rsplit(tag, "//", true) if #split_tags == 1 then local retval = normalize_multipart_component(tag, lang, do_track) if type(retval) == "table" then -- The user gave a tag like '1:s', i.e. with colon but without //. Allow this, but we need to return a -- nested list. return {retval} end return retval end local normtags = {} for _, single_tag in ipairs(split_tags) do		if do_track then -- If the tag was a multipart tag, track each of individual raw tags. track("tag/" .. single_tag) end table.insert(normtags, normalize_multipart_component(single_tag, lang, do_track)) end return normtags end

--[==[ Normalize a tag set (a list of tags) into its canonical-form tags. The return value is a list of normalized tag sets (a list because of there may be conjoined shortcuts among the input tags). A normalized tag set is a list of tag elements, where each element is either a string (the canonical form of a tag), a list of such strings (in the case of multipart tags) or a list of lists of such strings (in the case of two-level multipart tags). For example, the multipart tag `nom//acc//voc` will be represented in canonical form as { {"nominative", "accusative", "vocative"}}, and the two-level multipart tag `1:s//3:p` will be represented as { {{"first-person", "singular"}, {"third-person", "plural"}}}.

Example 1:

{normalize_tag_set({"nom//acc//voc", "n", "p"})} = { }

Example 2:

{normalize_tag_set({"ed-form"}, ENGLISH)} = { {{"simple", "past"}, {"past", "participle"}}}

Example 3:

{normalize_tag_set({"archaic", "ed-form"}, ENGLISH)} = { {{"archaic", "simple", "past"}, {"archaic", "past", "participle"}}} ]==] function export.normalize_tag_set(tag_set, lang, do_track) -- We track usage of shortcuts, normalized forms and (in the case of multipart tags or list tags) intermediate -- forms. For example, if the tags 1s|mn|gen|indefinite are passed in, we track the following: -- Tracking/inflection of/tag/1s -- Tracking/inflection of/tag/1 -- Tracking/inflection of/tag/s -- Tracking/inflection of/tag/first-person -- Tracking/inflection of/tag/singular -- Tracking/inflection of/tag/mn -- Tracking/inflection of/tag/m//n -- Tracking/inflection of/tag/m -- Tracking/inflection of/tag/n -- Tracking/inflection of/tag/masculine -- Tracking/inflection of/tag/neuter -- Tracking/inflection of/tag/gen -- Tracking/inflection of/tag/genitive -- Tracking/inflection of/tag/indefinite local output_tag_set = {} local saw_semicolon = false

for _, tag in ipairs(tag_set) do		if do_track then -- Track the raw tag. track("tag/" .. tag) end -- Expand the tag, which may generate a new tag (either a fully canonicalized tag, a multipart tag, or a list		-- of tags). tag = export.lookup_shortcut(tag, lang, do_track) if type(tag) == "table" then saw_semicolon = m_table.contains(tag, ";") if saw_semicolon then -- If we saw a conjoined shortcut, we need to use a more general algorithm that can expand a single -- tag set into multiple. break end

for _, t in ipairs(tag) do				if do_track then -- If the tag expands to a list of raw tags, track each of those. track("tag/" .. t)				end table.insert(output_tag_set, normalize_tag(t, lang, do_track)) end else table.insert(output_tag_set, normalize_tag(tag, lang, do_track)) end end

if not saw_semicolon then return {output_tag_set} end

-- Use a more general algorithm that handles conjoined shortcuts. local output_tag_set = {} for i, tag in ipairs(tag_set) do		if do_track then -- Track the raw tag. track("tag/" .. tag) end -- Expand the tag, which may generate a new tag (either a fully canonicalized tag, a multipart tag, or a list		-- of tags). tag = export.lookup_shortcut(tag, lang, do_track) if type(tag) == "table" then local output_tag_sets = {} local shortcut_tag_sets = export.split_tag_set(tag) local normalized_shortcut_tag_sets = {} for _, shortcut_tag_set in ipairs(shortcut_tag_sets) do				m_table.extendList(normalized_shortcut_tag_sets,					export.normalize_tag_set(shortcut_tag_set, lang, do_track)) end local after_tags = slice(tag_set, i + 1) local normalized_after_tags_sets = export.normalize_tag_set(after_tags, lang, do_track) for _, normalized_shortcut_tag_set in ipairs(normalized_shortcut_tag_sets) do				for _, normalized_after_tags_set in ipairs(normalized_after_tags_sets) do					table.insert(output_tag_sets, m_table.append(output_tag_set, normalized_shortcut_tag_set, normalized_after_tags_set)) end end return output_tag_sets else table.insert(output_tag_set, normalize_tag(tag, lang, do_track)) end end

error("Internal error: Should not get here") end

function export.combine_multipart_tags(tag_set) for i, tag in ipairs(tag_set) do		if type(tag) == "table" then for j, subtag in ipairs(tag) do				if type(subtag) == "table" then tag[j] = table.concat(subtag, ":") end end tag_set[i] = table.concat(tag, "//") end end

return tag_set end

function export.normalize_tags(tags, lang, recombine_multitags, do_track) local tag_sets = export.normalize_tag_set(tags, lang, do_track) if recombine_multitags then for i, tag_set in ipairs(tag_sets) do			tag_sets[i] = export.combine_multipart_tags(tag_set) end return export.combine_tag_sets(tag_sets) end return tag_sets end

--[==[ Split a tag set containing two-level multipart tags into one or more tag sets not containing such tags. Single-level multipart tags are left alone. (If we need to, a slight modification of the following code will also split single-level multipart tags.) This assumes that multipart tags are represented as lists and two-level multipart tags are represented as lists of lists, as is output by {normalize_tag_set}. NOTE: We have to be careful to properly handle imbalanced two-level multipart tags such as `def:s//p` (or the reverse, `s//def:p`). ]==] function export.split_two_level_multipart_tag_set(tag_set) for i, tag in ipairs(tag_set) do		if type(tag) == "table" then -- We saw a multipart tag. Check if any of the parts are two-level. local saw_two_level_tag = false for _, first_level_tag in ipairs(tag) do				if type(first_level_tag) == "table" then saw_two_level_tag = true break end end if saw_two_level_tag then -- We found a two-level multipart tag. -- (1) Extract the preceding tags. local pre_tags = slice(tag_set, 1, i - 1) -- (2) Extract the following tags. local post_tags = slice(tag_set, i + 1) -- (3) Loop over each tag set alternant in the two-level multipart tag. -- For each alternant, form the tag set consisting of pre_tags + alternant + post_tags, -- and recursively split that tag set. local resulting_tag_sets = {} for _, first_level_tag_set in ipairs(tag) do					local expanded_tag_set = {} m_table.extendList(expanded_tag_set, pre_tags) -- The second level may have a string or a list. if type(first_level_tag_set) == "table" then m_table.extendList(expanded_tag_set, first_level_tag_set) else table.insert(expanded_tag_set, first_level_tag_set) end m_table.extendList(expanded_tag_set, post_tags) m_table.extendList(resulting_tag_sets, export.split_two_level_multipart_tag_set(expanded_tag_set)) end return resulting_tag_sets end end end

return {tag_set} end

--[==[ Split a tag set that may consist of multiple semicolon-separated tag sets into the component tag sets. ]==] function export.split_tag_set(tag_set) local split_tag_sets = {} local cur_tag_set = {} for _, tag in ipairs(tag_set) do		if tag == ";" then if #cur_tag_set > 0 then table.insert(split_tag_sets, cur_tag_set) end cur_tag_set = {} else table.insert(cur_tag_set, tag) end end if #cur_tag_set > 0 then table.insert(split_tag_sets, cur_tag_set) end return split_tag_sets end

export.split_tags_into_tag_sets = export.split_tag_set

--[==[ Combine multiple tag sets in a tag set group into a simple tag set, with logical tag sets separated by semicolons. This is the opposite of {split_tag_set}. ]==] function export.combine_tag_sets(tag_sets) if #tag_sets == 1 then return tag_sets[1] end local combined_tag_set = {} for _, tag_set in ipairs(tag_sets) do		if #combined_tag_set > 0 then table.insert(combined_tag_set, ";") end m_table.extendList(combined_tag_set, tag_set) end return tags end

local tag_set_param_mods = { lb = { item_dest = "labels", convert = function(arg, parse_err) return rsplit(arg, "//", true) end, } }

--[==[ Parse tag set properties from a tag set (list of tags). Currently no per-tag properties are recognized, and the only per-tag-set property recognized is `` for specifing label(s) for the tag set. Per-tag-set properties must be attached to the last tag. ]==] function export.parse_tag_set_properties(tag_set) local function generate_tag_set_obj(last_tag) tag_set[#tag_set] = last_tag return {tags = tag_set} end local last_tag = tag_set[#tag_set] -- Check for inline modifier, e.g. מרים. But exclude HTML entry with, , or -- similar in it, caused by wrapping an argument in, or similar. Basically, all tags of -- the sort we parse here should consist of a less-than sign, plus letters, plus a colon, e.g. , so if -- we see a tag on the outer level that isn't in this format, we don't try to parse it. The restriction to the -- outer level is to allow generated HTML inside of e.g. qualifier tags, such as foo. if last_tag:find("<") and not last_tag:find("^[^<]*<[a-z]*[^a-z:]") then return require(parse_utilities_module).parse_inline_modifiers(last_tag, {			param_mods = tag_set_param_mods,			generate_obj = generate_tag_set_obj,		}) else return generate_tag_set_obj(last_tag) end end

function export.normalize_pos(pos) if not pos then return nil end return mw.loadData(export.form_of_pos_module)[pos] or pos end

-- Return the display form of a single canonical-form tag. The value -- passed in must be a string (i.e. it cannot be a list describing a -- multipart tag). To handle multipart tags, use get_tag_display_form. local function get_single_tag_display_form(normtag, lang) local data = export.lookup_tag(normtag, lang) local display = normtag

-- If the tag has a special display form, use it	if data and data.display then display = data.display end

-- If there is a nonempty glossary index, then show a link to it	local glossary = data and data[export.GLOSSARY] if glossary then if glossary == export.WIKTIONARY then display = "" .. display .. "" elseif glossary == export.WIKIPEDIA then display = "" .. display .. "" elseif glossary == export.APPENDIX then display = "" .. display .. "" elseif type(glossary) ~= "string" then error(("Internal error: Wrong type %s for glossary value %s for tag %s"):format( type(glossary), mw.dumpObject(glossary), normtag)) else local link = rmatch(glossary, "^wikt:(.*)") if link then display = "" .. display .. "" end if not link then link = rmatch(glossary, "^w:(.*)") if link then display = "" .. display .. "" end end if not link then display = "" .. display .. "" end end end return display end

--[==[ Turn a canonicalized tag spec (which describes a single, possibly multipart tag) into the displayed form. The tag spec may be a string (a canonical-form tag); a list of canonical-form tags (in the case of a simple multipart tag); or a list of mixed canonical-form tags and lists of such tags (in the case of a two-level multipart tag). `joiner` indicates how to join the parts of a multipart tag, and can be either {"and"} ("foo and bar", or "foo, bar and baz" for 3 or more), {"slash"} ("foo/bar"), {"en-dash"} ("foo–bar") or {nil}, which uses the global default found in {multipart_join_strategy} in Module:form of/functions. (NOTE: The global default is {"slash"} and this seems unlikely to change.) ]==] function export.get_tag_display_form(tagspec, lang, joiner) if type(tagspec) == "string" then return get_single_tag_display_form(tagspec, lang) end -- We have a multipart tag. See if there's a display handler to display them specially. for _, handler in ipairs(require(export.form_of_functions_module).display_handlers) do		local displayval = handler(tagspec, joiner) if displayval then return displayval end end -- No display handler. local displayed_tags = {} for _, first_level_tag in ipairs(tagspec) do		if type(first_level_tag) == "string" then table.insert(displayed_tags, get_single_tag_display_form(first_level_tag, lang)) else -- A first-level element of a two-level multipart tag. Currently we just separate the individual components -- with spaces, but other ways are possible, e.g. using an underscore, colon, parens or braces. local components = {} for _, component in ipairs(first_level_tag) do				table.insert(components, get_single_tag_display_form(component, lang)) end table.insert(displayed_tags, table.concat(components, " ")) end end return require(export.form_of_functions_module).join_multiparts(displayed_tags, joiner) end

--[==[ Given a normalized tag set (i.e. as output by {normalize_tag_set}; all tags are in canonical form, multipart tags are represented as lists, and two-level multipart tags as lists of lists), convert to displayed form (a string). See {get_tag_display_form} for the meaning of `joiner`. ]==] function export.get_tag_set_display_form(normalized_tag_set, lang, joiner) local parts = {}

for _, tagspec in ipairs(normalized_tag_set) do		local to_insert = export.get_tag_display_form(tagspec, lang, joiner) -- Maybe insert a space before inserting the display form of the tag. We insert a space if		-- (a) we're not the first tag; and -- (b) the tag we're about to insert doesn't have the "no_space_on_left" property; and -- (c) the preceding tag doesn't have the "no_space_on_right" property. -- NOTE: We depend here on the fact that -- (1) all tags with either of the above properties set have the same display form as canonical form, and -- (2) all tags with either of the above properties set are single-character tags. -- The second property is an optimization to avoid looking up display forms resulting from multipart tags, -- which won't be found and which will trigger loading of Module:form of/data2. If multichar punctuation is -- added in the future, it's ok to change the == 1 below to <= 2 or <= 3. --		-- If the first property above fails to hold in the future, we need to track the canonical form of each tag -- (including the previous one) as well as the display form. This would also avoid the need for the == 1 check. if #parts > 0 then local most_recent_tagobj = ulen(parts[#parts]) == 1 and export.lookup_tag(parts[#parts], lang) local to_insert_tagobj = ulen(to_insert) == 1 and export.lookup_tag(to_insert, lang) if (				(not most_recent_tagobj or not most_recent_tagobj.no_space_on_right) and				(not to_insert_tagobj or not to_insert_tagobj.no_space_on_left)			) then table.insert(parts, " ") end end table.insert(parts, to_insert) end

return table.concat(parts) end

--[==[ Given a normalized tag set (i.e. as output by {normalize_tag_set}; all tags are in canonical form, multipart tags are represented as lists, and two-level multipart tags as lists of lists), fetch the associated categories and labels. Return two values, a list of categories and a list of labels. `lang` is the language of term represented by the tag set, and `POS` is the user-provided part of speech (which may be {nil}). ]==] function export.fetch_categories_and_labels(normalized_tag_set, lang, POS, pagename, lemmas) local m_cats = mw.loadData(export.form_of_cats_module) local categories = {} local labels = {}

POS = export.normalize_pos(POS) -- First split any two-level multipart tags into multiple sets, to make our life easier. for _, tag_set in ipairs(export.split_two_level_multipart_tag_set(normalized_tag_set)) do		-- Call a named function, either from the lang-specific data in -- Module:form of/lang-specific/LANGCODE/functions or in Module:form of/functions. local function call_named_function(name, funtype) local data = { pagename = pagename or mw.title.getCurrentTitle.subpageText, lemmas = lemmas, tag_set = normalized_tag_set, lang = lang, POS = POS }			local modules_tried = {} local function try_lang_specific_module(langcode) if export.langs_with_lang_specific_tags[langcode] then local lang_specific_module = export.form_of_lang_data_module_prefix .. langcode .. "/functions" local langdata = require(utilities_module).safe_require(lang_specific_module) if langdata then table.insert(modules_tried, lang_specific_module) if langdata.cat_functions then local fn = langdata.cat_functions[name] if fn then return fn(data), true end end end end return nil, false end -- First try lang-specific. local langcode = lang and lang:getCode if langcode then local retval, found_it = try_lang_specific_module(langcode) if found_it then return retval end end -- If the lang we're dealing with is an etym-only lang, try again with the corresponding full language. local full_langcode = lang and lang:getFullCode if full_langcode and full_langcode ~= langcode then local retval, found_it = try_lang_specific_module(full_langcode) if found_it then return retval end end -- Try lang-independent. table.insert(modules_tried, export.form_of_functions_module) local fn = require(export.form_of_functions_module).cat_functions[name] if fn then return fn(data) end for i, modname in ipairs(modules_tried) do modules_tried[i] = "" .. modname .. "" end error(("No %s function named '%s' in %s"):format(funtype, name, lang_specific_part, m_table.serialCommaJoin(modules_tried, {conj = "or", dontTag = true}))) end

-- Given a tag from the current tag set (which may be a list in case of a multipart tag), -- and a tag from a categorization spec, check that the two match. -- (1) If both are strings, we just check for equality. -- (2) If the spec tag is a string and the tag set tag is a list (i.e. it originates from a		-- multipart tag), we check that the spec tag is in the list. This is because we want to treat -- multipart tags in user-specified tag sets as if the user had specified multiple tag sets. -- For example, if the user said "1//3|s|pres|ind" and the categorization spec says {"has", "1"}, -- we want this to match, because "1//3|s|pres|ind" should be treated equivalently to two tag -- sets "1|s|pres|ind" and "3|s|pres|ind", and the former matches the categorization spec. -- (3) If the spec tag is a list (i.e. it originates from a multipart tag), we check that the -- tag set tag is also a list and is a superset of the spec tag. For example, if the categorization -- spec says {"has", "1//3"}, then the tag set tag must be a multipart tag that has both "1" and "3" -- in it. "1//3" works, as does "1//2//3". local function tag_set_tag_matches_spec_tag(tag_set_tag, spec_tag) if type(spec_tag) == "table" then if type(tag_set_tag) == "table" and is_subset(spec_tag, tag_set_tag) then return true end elseif type(tag_set_tag) == "table" then if m_table.contains(tag_set_tag, spec_tag) then return true end elseif tag_set_tag == spec_tag then return true end return false end

-- Check that the current tag set matches the given spec tag. This means that any of the tags -- in the current tag set match, according to tag_set_tag_matches_spec_tag; see above. If the -- current tag set contains only string tags (i.e. no multipart tags), and the spec tag is a -- string (i.e. not a multipart tag), this boils down to list containment, but it gets more -- complex when multipart tags are present. local function tag_set_matches_spec_tag(spec_tag) spec_tag = normalize_tag(spec_tag, lang) for _, tag_set_tag in ipairs(tag_set) do				if tag_set_tag_matches_spec_tag(tag_set_tag, spec_tag) then return true end end return false end

-- Check whether the given spec matches the current tag set. Two values are returned: -- (1) whether the spec matches the tag set; (2) the index of the category to add if -- the spec matches. local function check_condition(spec) if type(spec) == "boolean" then return spec elseif type(spec) ~= "table" then error("Wrong type of condition " .. spec .. ": " .. type(spec)) end local predicate = spec[1] if predicate == "has" then return tag_set_matches_spec_tag(spec[2]), 3 elseif predicate == "hasall" then for _, tag in ipairs(spec[2]) do					if not tag_set_matches_spec_tag(tag) then return false, 3 end end return true, 3 elseif predicate == "hasany" then for _, tag in ipairs(spec[2]) do					if tag_set_matches_spec_tag(tag) then return true, 3 end end return false, 3 elseif predicate == "tags=" then local normalized_spec_tag_sets = export.normalize_tag_set(spec[2], lang) if #normalized_spec_tag_sets > 1 then error("Internal error: No support for conjoined shortcuts in category/label specs in "						.. "Module:form of/cats when processing spec tag set " .. table.concat(spec[2], "|")) end local normalized_spec_tag_set = normalized_spec_tag_sets[1] -- Check for and disallow two-level multipart tags in the specs. FIXME: Remove this when we remove -- support for two-level multipart tags. for _, tag in ipairs(normalized_spec_tag_set) do					if type(tag) == "table" then for _, subtag in ipairs(tag) do							if type(subtag) == "table" then error("Internal error: No support for two-level multipart tags in category/label specs"									.. "Module:form of/cats when processing spec tag set "									.. table.concat(spec[2], "|")) end end end end -- Allow tags to be in different orders, and multipart tags to be in different orders. To handle this, -- we first check that both tag set tags and spec tags have the same length. If so, we sort the -- multipart tags in the tag set tags and spec tags, and then check that all tags in the spec tags are -- in the tag set tags. if #tag_set ~= #normalized_spec_tag_set then return false, 3 end local tag_set_tags = m_table.deepcopy(tag_set) for i=1,#tag_set_tags do					if type(tag_set_tags[i]) == "table" then table.sort(tag_set_tags[i]) end if type(normalized_spec_tag_set[i]) == "table" then table.sort(normalized_spec_tag_set[i]) end end for i=1,#tag_set_tags do					if not m_table.contains(tag_set_tags, normalized_spec_tag_set[i]) then return false, 3 end end return true, 3 elseif predicate == "p=" then return POS == export.normalize_pos(spec[2]), 3 elseif predicate == "pany" then for _, specpos in ipairs(spec[2]) do					if POS == export.normalize_pos(specpos) then return true, 3 end end return false, 3 elseif predicate == "pexists" then return POS ~= nil, 2 elseif predicate == "not" then local condval = check_condition(spec[2]) return not condval, 3 elseif predicate == "and" then local condval = check_condition(spec[2]) if condval then condval = check_condition(spec[3]) end return condval, 4 elseif predicate == "or" then local condval = check_condition(spec[2]) if not condval then condval = check_condition(spec[3]) end return condval, 4 elseif predicate == "call" then return fn(call_named_function(spec[2], "condition")), 3 else error("Unrecognized predicate: " .. predicate) end end

-- Process a given spec. This checks any conditions in the spec against the -- tag set, and insert any resulting categories into `categories`. Return value -- is true if the outermost condition evaluated to true and a category was inserted -- (this is used in {"cond" ...} conditions, which stop when a subcondition evaluates		-- to true). local function process_spec(spec) if not spec then return false elseif type(spec) == "string" then -- A category. Substitute POS request with user-specified part of speech or default. spec = rsub(spec, "<>", function(default)					return POS or export.normalize_pos(default)				end) table.insert(categories, lang:getFullName .. " " .. spec) return true elseif type(spec) == "table" and spec.labels then -- A label spec. for _, label in ipairs(spec.labels) do					m_table.insertIfNot(labels, label) end return true elseif type(spec) ~= "table" then error("Wrong type of specification " .. spec .. ": " .. type(spec)) end local predicate = spec[1] if predicate == "multi" then -- WARNING! #spec doesn't work for objects loaded from loadData for i, sp in ipairs(spec) do					if i > 1 then process_spec(sp) end end return true elseif predicate == "cond" then -- WARNING! #spec doesn't work for objects loaded from loadData for i, sp in ipairs(spec) do					if i > 1 and process_spec(sp) then return true end end return false elseif predicate == "call" then return process_spec(call_named_function(spec[2], "spec")) else local condval, ifspec = check_condition(spec) if condval then process_spec(spec[ifspec]) return true else process_spec(spec[ifspec + 1]) -- FIXME: Are we sure this is correct? return false end end end

local langcode = lang:getCode local langspecs = m_cats[langcode] if langspecs then for _, spec in ipairs(langspecs) do				process_spec(spec) end end local full_code = lang:getFullCode if full_code ~= langcode then local langspecs = m_cats[full_code] if langspecs then for _, spec in ipairs(langspecs) do					process_spec(spec) end end end if full_code ~= "und" then local langspecs = m_cats["und"] if langspecs then for _, spec in ipairs(langspecs) do					process_spec(spec) end end end end

return categories, labels end

--[==[ Implementation of templates that display inflection tags, such as the general inflection of, semi-specific variants such as participle of, and specific variants such as past participle of. `data` contains all the information controlling the display, with the following fields:

labels, and for displaying categories and labels. can be indicated by a {";"} as one of the tags, and tag-set properties may be attached to the last tag of a tag set. The tags themselves may come directly from the user (as in inflection of); come partly from the user (as in participle of, which adds the tag `part` to user-specified inflection tags); or be entirely specified by the template (as in past participle of). per-tag-set properties. Each element of the list is an object of the form { {tags = {"TAG", "TAG", ...}, labels = {"LABEL", "LABEL", ...}}. If `.tag_sets` is specified, `.tags` should not be given and vice-versa. Specifying `.tag_sets` in place of tags allowed per-tag set labels to be specified; otherwise, there is no advantage. Module:pt-gl-inflections uses this functionality to supply labels like {"Brazil"} and {"Portugal"} associated with specific tag sets. non-lemma form. These are passed directly to {full_link} in Module:links. Each object should have at minimum a `.lang` field containing the language of the lemma and a `.term` field containing the lemma itself. Each object is formatted using {full_link} and then if there are more than one, they are joined using {serialCommaJoin} in  Module:table. Alternatively, `.lemmas` can be a string, which is displayed directly. If omitted entirely, no lemma links are shown and the connecting "of" is also omitted. {"term"}. inflection of. {"form-of-definition use-with-mention"} for the tag text, {"form-of-definition-link"} for the lemma links. (FIXME: Should separate out the lemma links into their own field.) `.joiner`: Override the joiner (normally a slash) used to join multipart tags. You should normally not specify this.
 * `.lang`: (required) Language to use when looking up language-specific inflection tags, categories and
 * `.tags`: (required unless `.tag_sets` is given) List of non-canonicalized inflection tags. Multiple tag sets
 * `.tag_sets`: (required unless `.tags` is given) List of non-canonicalized tag sets and associated
 * `.lemmas`: (recommended) List of objects describing the lemma(s) of which the term in question is a
 * `.lemma_face`: (recommended) "Face" to use when displaying the lemma objects. Usually should be set to
 * `.POS`: (recommended) Categorizing part-of-speech tag. Comes from the p or POS argument of
 * `.pagename`: Page name of "current" page or nil to use the actual page title; for testing purposes.
 * `.enclitics`: List of enclitics to display after the lemmas, in parens.
 * `.no_format_categories`: If true, don't format the categories derived from the inflection tags; just return them.
 * `.sort`: Sort key for formatted categories. Ignored when `.no_format_categories` = {true}.
 * `.nocat`: Suppress computation of categories (even if `.no_format_categories` is not given).
 * `.notext`: Disable display of all tag text and `inflection of` text. (FIXME: Maybe not implemented correctly.)
 * `.capfirst`: Capitalize the first word displayed.
 * `.pretext`: Additional text to display before the inflection tags, but after any top-level labels.
 * `.posttext`: Additional text to display after the lemma links.
 * `.text_classes`: CSS classes used to wrap the tag text and lemma links. Default is

A typical call might look like this (for ): { local lang = require("Module:languages").getByCode("es")

local lemma_obj = { lang = lang, term = "amar", }

return m_form_of.tagged_inflections({		lang = lang, tags = {"1", "s", "pres", "ind"}, lemmas = {lemma_obj}, lemma_face = "term", POS = "verb"	}) }

Normally, one value is returned, the formatted text, which has appended to it the formatted categories derived from the tag-set-related categories generated by the specs in [Module:form of/cats]]. To suppress this, set `data.no_format_categories` = {true}, in which case two values are returned, the formatted text without any formatted categories appended and a list of the categories to be formatted.

NOTE: There are two sets of categories that may be generated: (1) categories derived directly from the tag sets, as specified in Module:form of/cats; (2) categories derived from tag-set labels, either (a) set explicitly by the caller in `data.tag_sets`, (b) specified by the user using `` attached to the last tag in a tag set, or (c) specified in Module:form of/cats. The second type (label-related categories) are currently not returned in the second return value of {tagged_inflections}, and are currently inserted into the output text even if `data.no_format_categories` is set to {true}; but they can be suppressed by setting `data.nocat` = {true} (which also suppresses the first type of categories, those derived directly from tag sets, even if `data.no_format_categories` is set to {true}). ]==] function export.tagged_inflections(data) if not data.tags and not data.tag_sets then error("First argument must be a table of arguments, and `.tags` or `.tag_sets` must be specified") end if data.tags and data.tag_sets then error("Both `.tags` and `.tag_sets` cannot be specified") end local tag_sets = data.tag_sets if not tag_sets then tag_sets = export.split_tag_set(data.tags) for i, tag_set in ipairs(tag_sets) do			tag_sets[i] = export.parse_tag_set_properties(tag_set) end end

local inflections = {} local categories = {} for _, tag_set in ipairs(tag_sets) do		local normalized_tag_sets = export.normalize_tag_set(tag_set.tags, data.lang, "do-track")

for _, normalized_tag_set in ipairs(normalized_tag_sets) do			local cur_infl = {} local this_categories, this_labels = export.fetch_categories_and_labels(normalized_tag_set, data.lang,				data.POS, data.pagename, type(data.lemmas) == "table" and data.lemmas or nil) if not data.nocat then m_table.extendList(categories, this_categories) end local cur_infl = export.get_tag_set_display_form(normalized_tag_set, data.lang, data.joiner) if #cur_infl > 0 then if tag_set.labels then this_labels = m_table.append(tag_set.labels, this_labels) end table.insert(inflections, {infl_text = cur_infl, labels = this_labels}) end end end

local overall_labels, need_per_tag_set_labels for _, inflection in ipairs(inflections) do		if overall_labels == nil then overall_labels = inflection.labels elseif not m_table.deepEquals(overall_labels, inflection.labels) then need_per_tag_set_labels = true overall_labels = nil break end end

if not need_per_tag_set_labels then for _, inflection in ipairs(inflections) do			inflection.labels = nil end end

local format_data = m_table.shallowcopy(data)

local function format_labels(labels, notext) if labels and #labels > 0 then return require(labels_module).show_labels { labels = labels, lang = data.lang, sort = data.sort, nocat = data.nocat } .. (notext and (data.pretext or "") == "" and "" or " ") else return "" end end

local of_text = data.lemmas and " of" or "" local formatted_text if #inflections == 1 then if need_per_tag_set_labels then error("Internal error: need_per_tag_set_labels should not be set with one inflection") end format_data.text = format_labels(overall_labels, data.notext) .. (data.pretext or "") .. (data.notext and "" or			((data.capfirst and require("Module:string utilities").ucfirst(inflections[1].infl_text) or inflections[1].infl_text) .. of_text)) formatted_text = export.format_form_of(format_data) else format_data.text = format_labels(overall_labels, data.notext) .. (data.pretext or "") .. (data.notext and "" or			((data.capfirst and "Inflection" or "inflection") .. of_text)) format_data.posttext = (data.posttext or "") .. ":"		local link = export.format_form_of(format_data) local text_classes = data.text_classes or "form-of-definition use-with-mention" for i, inflection in ipairs(inflections) do inflections[i] = "\n## " .. format_labels(inflection.labels, false) .. "" .. inflection.infl_text .. " "		end formatted_text = link .. table.concat(inflections) end

if not data.no_format_categories then if #categories > 0 then formatted_text = formatted_text .. require("Module:utilities").format_categories(categories, data.lang,				data.sort, nil, export.force_cat) end return formatted_text end return formatted_text, categories end

--[==[ Given a tag set, return a flattened list all Wikidata ID's of all tags in the tag set. FIXME: Only used in a debugging function in Module:se-verbs; move there. ]==] function export.to_Wikidata_IDs(tag_set, lang, skip_tags_without_ids) local ret = {}

local function get_wikidata_id(tag) local data = export.lookup_tag(tag, lang)

if not data or not data[export.WIKIPEDIA] then if not skip_tags_without_ids then error('The tag "' .. tag .. '" does not have a Wikidata ID defined in the form-of data modules') else return nil end else return ("Q%s"):format(data[export.WIKIPEDIA]) end end

local normalized_tag_sets = export.normalize_tag_set(tag_set, lang) for _, tag_set in ipairs(normalized_tag_sets) do		for _, tag in ipairs(tag_set) do			if type(tag) == "table" then for _, subtag in ipairs(tag) do					if type(subtag) == "table" then -- two-level multipart tag; FIXME: delete support for this for _, subsubtag in ipairs(subtag) do							table.insert(ret, get_wikidata_id(subsubtag)) end else table.insert(ret, get_wikidata_id(subtag)) end end else table.insert(ret, get_wikidata_id(tag)) end end end

return ret end

function export.dump_form_of_data(frame) local data = { data = require(export.form_of_data_module), data2 = require(export.form_of_data2_module) }	return require("Module:JSON").toJSON(data) end

function export.finalize_tag_data(tags, shortcuts) local function process_shortcut(name, shortcut) -- If the shortcut is already in the list, then there is a duplicate. if shortcuts[shortcut] then error("The shortcut \"" .. shortcut .. "\" (for the inflection tag \"" .. name .. "\") conflicts with an existing shortcut for the tag \"" .. shortcuts[shortcut] .. "\".") elseif tags[shortcut] then error("The shortcut \"" .. shortcut .. "\" (for the inflection tag \"" .. name .. "\") conflicts with an existing tag with that name.") end

shortcuts[shortcut] = name end for name, data in pairs(tags) do		local data_shortcuts = data[export.SHORTCUTS] if data_shortcuts then if type(data_shortcuts) == "string" then process_shortcut(name, data_shortcuts) else for _, shortcut in ipairs(data_shortcuts) do					process_shortcut(name, shortcut) end end end end end

return export