Module:form of
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- The following documentation is located at Module:form of/doc.[edit]
- Useful links: subpage list • links • transclusions • testcases • sandbox
local m_links = require("Module:links")
local m_table = require("Module:table")
local m_pos = mw.loadData("Module:form of/pos")
local m_functions = require("Module:form of/functions")
local ulen = mw.ustring.len
local rsubn = mw.ustring.gsub
local rmatch = mw.ustring.match
local rsplit = mw.text.split
local export = {}
--[=[
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:
* [[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 tags, their shortcuts,
the category they belong to (tense-aspect, case, gender, voice-valence,
etc.), the appropriate glossary link and the wikidata ID.
* [[Module:form of/data2]] is a data-only file containing information on
the less common inflection tags, in the same format as
[[Module:form of/data]].
* [[Module:form of/cats]] is a data-only file listing the
language-specific categories that are added when the appropriate
combinations of tags are seen for a given language.
* [[Module:form of/pos]] is a data-only file listing the recognized
parts of speech and their abbreviations, used for categorization.
FIXME: This should be unified with the parts of speech listed in
[[Module:links]].
* [[Module:form of/functions]] contains functions for use with
[[Module:form of/data]] and [[Module:form of/cats]]. They are
contained in this module because data-only modules can't contain
code. The functions in this file are of two types:
(1) Display handlers allow for customization of the display of
multipart tags (see below). Currently there is only one
such handler, for handling multipart person tags such as
'1//2//3'.
(2) Cat functions allow for more complex categorization logic,
and are referred to by name in [[Module:form of/cats]].
Currently no such functions exist.
The following terminology is used in conjunction with {{inflection of}}:
* A TAG is a single grammatical item, as specified in a single numbered
parameter of {{inflection of}}. Examples 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 SHORTCUTS, and some tags have multiple equivalent shortcuts
(e.g. 'p' or 'pl' for 'plural'). The full, non-abbreviated form of
a tag is called its CANONICAL FORM.
* 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 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 a shortcut 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').
* A TAG SET is an ordered list of tags, which together express a single
inflection, for example, '1|s|pres|ind', which can be expanded to
canonical-form tags as 'first-person|singular|present|indicative'.
Multiple tag sets can be specified in a single call to {{inflection of}}
by separating the individual tag sets with a semicolon, e.g.
'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').
* A MULTIPART TAG is a tag that embeds multiple tags within it, such as
'f//n' or 'nom//acc//voc'. These are used in 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. [[siga]] from [[seguir]] "to follow"),
or Latin third-declension adjectives, where the dative and ablative
plural of all genders have the same form (e.g. [[omnibus]] from [[omnis]]
"all"). 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 "and", ''dative and ablative'' or
''masculine, feminine and 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.
* A TWO-LEVEL MULTIPART TAG is a special type of multipart tag that
joins two or more tag sets instead of joining 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 [[μέλλον]] of the verb [[μέλλω]] "to intend",
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.
* A MULTIPART TAG SHORTCUT is a shortcut that expands into a multipart
tag, for example '123', which expands to the multipart tag '1//2//3'.
Only the most common such combinations exist as shortcuts.
* A LIST TAG SHORTCUT is a special type of shortcut that expands to a list
of tags instead of a single tag. For example, the shortcut '1s' expands to
'1|s' (first-person singular). Only the most common such combinations
exist as shortcuts.
]=]
-- 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
function export.format_form_of(data)
if type(data) ~= "table" then
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 terminfo_classes = data.text_classes or "form-of-definition-link"
local parts = {}
table.insert(parts, "<span class='" .. text_classes .. "'>")
table.insert(parts, data.text)
if data.text ~= "" and data.terminfo then
table.insert(parts, " ")
end
if data.terminfo then
table.insert(parts, "<span class='" .. terminfo_classes .. "'>")
if type(data.terminfo) == "string" then
table.insert(parts, data.terminfo)
else
table.insert(parts, m_links.full_link(data.terminfo, data.terminfo_face, false))
end
table.insert(parts, "</span>")
end
if data.posttext then
table.insert(parts, data.posttext)
end
table.insert(parts, "</span>")
return table.concat(parts)
end
local function 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 [[Module:form of/data]] (which includes
-- more common tags) and then (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, 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 is_link_or_html(tag) then
return tag
end
local m_data = mw.loadData("Module:form of/data")
-- 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).
if m_data.tags[tag] then
return tag
end
local expansion = m_data.shortcuts[tag]
if not expansion then
local m_data2 = mw.loadData("Module:form of/data2")
expansion = m_data2.shortcuts[tag]
end
if not expansion then
return 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 [[Module:form of/data]] (which includes more common tags) and then in
-- [[Module:form of/data2]].
function export.lookup_tag(tag)
local m_data = mw.loadData("Module:form of/data")
local tagobj = m_data.tags[tag]
if tagobj then
return tagobj
end
local m_data2 = mw.loadData("Module:form of/data2")
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-tag shortcut or a list-tag shortcut.
local function normalize_single_tag(tag, do_track)
local expansion = export.lookup_shortcut(tag, do_track)
if type(expansion) ~= "string" then
error("Tag '" .. tag .. "' is a list-tag shortcut, which is not allowed here")
end
tag = expansion
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 treates as if colon-separated. If
-- RECOMBINE_TAGS isn't given, the return value may be a list of tags;
-- otherwise, it will always be a string, and multiple tags will be
-- represented as canonical-form tags joined by ":".
local function normalize_multipart_component(tag, recombine_tags, 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 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, do_track)
if type(tag) == "table" then
-- We found a list-tag shortcut; treat as if colon-separated.
components = tag
else
return normalize_single_tag(tag, do_track)
end
end
local normtags = {}
for _, component in ipairs(components) do
table.insert(normtags, normalize_single_tag(component, do_track))
end
if recombine_tags then
return table.concat(normtags, ":")
else
return normtags
end
end
-- Normalize a single tag. If RECOMBINE_TAGS isn't given, 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; otherwise, it will always
-- be a string, and multipart tags will be represented as canonical-form tags
-- joined by "//" and/or ":".
local function normalize_tag(tag, recombine_multitags, 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 '{{lb|grc|Epic}}//{{lb|grc|Ionic}}' 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, recombine_multitags,
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. Note,
-- this will never happen when RECOMBINE_TAGS is given.
return {retval}
end
return retval
end
local normtags = {}
for _, single_tag in ipairs(split_tags) do
table.insert(normtags, normalize_multipart_component(single_tag,
recombine_multitags, do_track))
end
if recombine_multitags then
return table.concat(normtags, "//")
else
return normtags
end
end
-- Normalize a tag set (a list of tags) into a list of canonical-form tags
-- (which -- may be larger due to the possibility of list-tag shortcuts).
-- If RECOMBINE_TAGS isn't given, the return list may itself contains lists;
-- in particular, multipart tags will be represented as lists. Specifically,
-- the list will consist of the elements of the multipart tag, which will
-- either be canonical-form strings or (in the case of two-level multipart
-- tags) nested lists of canonical-form strings. For example, the multipart
-- tag ''nom//acc//voc'' will expand to
-- {"nominative", "accusative", "vocative"}
-- and the two-level multipart tag ''1:s//3:p'' will expand to
-- {{"first-person", "singular"}, {"third-person", "plural"}}.
-- If RECOMBINE_TAGS is given, multipart tags will be represented in string
-- form, i.e. as canonical-form tags joined by "//" and/or ":".
function export.normalize_tags(tags, recombine_multitags, do_track)
local ntags = {}
for _, tag in ipairs(tags) do
-- 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, do_track)
if type(tag) == "table" then
for _, t in ipairs(tag) do
table.insert(ntags, normalize_tag(t, recombine_multitags,
do_track))
end
else
table.insert(ntags, normalize_tag(tag, recombine_multitags,
do_track))
end
end
return ntags
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_tags().
-- NOTE: We have to be careful to properly handle imbalanced two-level multipart tags such as
-- <code>def:s//p</code> (or the reverse, <code>s//def:p</code>).
function export.split_two_level_multipart_tag_set(tag_set)
-- This would be a whole lot easier in Python, with built-in support for
-- slicing and array concatenation.
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 = {}
for j=1,i-1 do
table.insert(pre_tags, tag_set[j])
end
-- (2) Extract the following tags.
local post_tags = {}
for j=i+1,#tag_set do
table.insert(post_tags, tag_set[j])
end
-- (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 = {}
for _, pre_tag in ipairs(pre_tags) do
table.insert(expanded_tag_set, pre_tag)
end
-- The second level may have a string or a list.
if type(first_level_tag_set) == "table" then
for _, second_level_tag in ipairs(first_level_tag_set) do
table.insert(expanded_tag_set, second_level_tag)
end
else
table.insert(expanded_tag_set, first_level_tag_set)
end
for _, post_tag in ipairs(post_tags) do
table.insert(expanded_tag_set, post_tag)
end
for _, split_tag_set in ipairs(export.split_two_level_multipart_tag_set(expanded_tag_set)) do
table.insert(resulting_tag_sets, split_tag_set)
end
end
return resulting_tag_sets
end
end
end
return {tag_set}
end
-- Given a list of tags, split into tag sets (separated by semicolons in the initial list of tags).
function export.split_tags_into_tag_sets(tags)
local tag_set_group = {}
local cur_tag_set = {}
for _, tag in ipairs(tags) do
if tag == ";" then
if #cur_tag_set > 0 then
table.insert(tag_set_group, cur_tag_set)
end
cur_tag_set = {}
else
table.insert(cur_tag_set, tag)
end
end
if #cur_tag_set > 0 then
table.insert(tag_set_group, cur_tag_set)
end
return tag_set_group
end
-- Given a list of tags, split into tag sets (separated by semicolons in the initial list of tags).
-- Then, potentially split each tag set into multiple tag sets if there are any two-level multipart
-- tags in those tag sets.
function export.split_tags_into_tag_sets_and_expand_two_level_multipart_tags(tags)
-- First, split into tag sets.
local tag_sets = export.split_tags_into_tag_sets(tags)
-- Now split any two-level multipart tags.
local resulting_tag_sets = {}
for _, tag_set in ipairs(tag_sets) do
for _, resulting_tag_set in ipairs(export.split_two_level_multipart_tag_set(tag_set)) do
table.insert(resulting_tag_sets, resulting_tag_set)
end
end
return resulting_tag_sets
end
function export.normalize_pos(pos)
return m_pos[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)
local data = export.lookup_tag(normtag)
-- If the tag has a special display form, use it
if data and data.display then
normtag = data.display
end
-- If there is a nonempty glossary index, then show a link to it
if data and data.glossary then
if data.glossary_type == "wikt" then
normtag = "[[" .. data.glossary .. "|" .. normtag .. "]]"
elseif data.glossary_type == "wp" then
normtag = "[[w:" .. data.glossary .. "|" .. normtag .. "]]"
else
normtag = "[[wikt:Appendix:Glossary#" .. mw.uri.anchorEncode(data.glossary) .. "|" .. normtag .. "]]"
end
end
return normtag
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), or 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]].
function export.get_tag_display_form(tagspec, joiner)
if type(tagspec) == "string" then
return get_single_tag_display_form(tagspec)
end
-- We have a multipart tag. See if there's a display handler to
-- display them specially.
for _, handler in ipairs(m_functions.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))
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))
end
table.insert(displayed_tags, table.concat(components, " "))
end
end
return m_functions.join_multiparts(displayed_tags, joiner)
end
-- 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
-- Compute and return the appropriate categories for the tags in `tags` (user-specified tags,
-- which may consist of multiple tag sets separated by semicolons) and the language in `lang`.
-- This checks both language-specific and language-agnostic category specs in [[Module:form of/cats]].
-- `POS` is the user-specified part of speech, if any, and `terminfo` is currently unused.
function export.fetch_lang_categories(lang, tags, terminfo, POS)
local m_cats = mw.loadData("Module:form of/cats")
local categories = {}
local normalized_tags = export.normalize_tags(tags)
local split_tag_sets = export.split_tags_into_tag_sets_and_expand_two_level_multipart_tags(normalized_tags)
POS = export.normalize_pos(POS)
-- Loop over each tag set and compute categories for each one.
for _, tag_set in ipairs(split_tag_sets) do
local function make_function_table()
return {
lang=lang,
tags=normalized_tags,
term=term,
p=POS
}
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)
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_tags = export.normalize_tags(spec[2])
-- 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_tags 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_tags[i]) == "table" then
table.sort(normalized_spec_tags[i])
end
end
for i=1,#tag_set_tags do
if not m_table.contains(tag_set_tags, normalized_spec_tags[i], "deepCompare") 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 predication == "call" then
local fn = m_functions.cat_functions[spec[2]]
if not fn then
error("No condition function named '" .. spec[2] .. "'")
end
return fn(make_function_table()), 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
-- Substitute POS request with user-specified part of speech
-- or default
spec = rsub(spec, "<<p=(.-)>>", function(default)
return POS or export.normalize_pos(default)
end)
table.insert(categories, lang:getCanonicalName() .. " " .. spec)
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
local fn = m_functions.cat_functions[spec[2]]
if not fn then
error("No spec function named '" .. spec[2] .. "'")
end
return process_spec(fn(make_function_table()))
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 langspecs = m_cats[lang:getCode()]
if langspecs then
for _, spec in ipairs(langspecs) do
process_spec(spec)
end
end
if lang:getCode() ~= "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
end
function export.tagged_inflections(data, terminfo, notext, capfirst, posttext, joiner)
data.tags = {"nominative"}
if not data.tags then
error("First argument must now be a table of arguments")
end
local cur_infl = {}
local inflections = {}
local ntags = export.normalize_tags(data.tags, nil, "do-track")
for i, tagspec in ipairs(ntags) do
if tagspec == ";" then
if #cur_infl > 0 then
table.insert(inflections, table.concat(cur_infl))
end
cur_infl = {}
else
local to_insert = export.get_tag_display_form(tagspec, data.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 #cur_infl > 0 then
local most_recent_tagobj = ulen(cur_infl[#cur_infl]) == 1 and
export.lookup_tag(cur_infl[#cur_infl])
local to_insert_tagobj = ulen(to_insert) == 1 and
export.lookup_tag(to_insert)
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(cur_infl, " ")
end
end
table.insert(cur_infl, to_insert)
end
end
if #cur_infl > 0 then
table.insert(inflections, table.concat(cur_infl))
end
local format_data = require("Module:table").shallowcopy(data)
if #inflections == 1 then
format_data.text =
data.notext and "" or ((data.capfirst and require("Module:string utilities").ucfirst(inflections[1]) or inflections[1]) ..
(data.terminfo and " of" or ""))
return export.format_form_of(format_data)
else
format_data.text = data.notext and "" or ((data.capfirst and "Inflection" or "inflection") ..
(data.terminfo and " of" or ""))
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"
return link .."\n## <span class='" .. text_classes .. "'>" ..
table.concat(inflections, "</span>\n## <span class='" .. text_classes .. "'>") .. "</span>"
end
end
function export.to_Wikidata_IDs(tags, skip_tags_without_ids)
if type(tags) == "string" then
tags = mw.text.split(tags, "|", true)
end
local ret = {}
local function get_wikidata_id(tag)
if tag == ";" and not skip_tags_without_ids then
error("Semicolon is not supported for Wikidata IDs")
else
return nil
end
local data = export.lookup_tag(tag)
if not data or not data.wikidata then
if not skip_tags_without_ids then
error("The tag \"" .. tag .. "\" does not have a Wikidata ID defined in [[Module:form of/data]]")
else
return nil
end
else
return data.wikidata
end
end
for i, tag in ipairs(export.normalize_tags(tags)) do
if type(tag) == "table" then
local ids = {}
for _, onetag in ipairs(tag) do
table.insert(ids, get_wikidata_id(onetag))
end
table.insert(ret, ids)
else
table.insert(ret, get_wikidata_id(tag))
end
end
return ret
end
function export.dump_form_of_data(frame)
local data = {
data = require("Module:form of/data"),
data2 = require("Module:form of/data2")
}
return require("Module:JSON").toJSON(data)
end
return export