Module:User:Benwing2/parameters

local export = {}

local m_str_utils = require("Module:string utilities")

local require_when_needed = require("Module:utilities/require when needed")

local dump = mw.dumpObject local floor = math.floor local gsplit = mw.text.gsplit local gsub = string.gsub local huge = math.huge local insert = table.insert local list_to_set = require("Module:table").listToSet local list_to_text = mw.text.listToText local match = string.match local max = math.max local pairs = pairs local pattern_escape = m_str_utils.pattern_escape local remove_holes = require_when_needed("Module:parameters/remove holes") local rsplit = m_str_utils.split local scribunto_param_key = m_str_utils.scribunto_param_key local sort = table.sort local trim = mw.text.trim local type = type local yesno = require_when_needed("Module:yesno")

local debug_track_module = "Module:debug/track" local families_module = "Module:families" local labels_module = "Module:labels" local languages_module = "Module:languages" local parse_utilities_module = "Module:parse utilities" local references_module = "Module:references" local scripts_module = "Module:scripts" local wikimedia_languages_module = "Module:wikimedia languages"

--[==[ intro: This module is used to standardize template argument processing and checking. A typical workflow is as follows (based on Module:translations):

{	...	local parent_args = frame:getParent.args

local params = { [1] = {required = true, default = "und"}, [2] = {},		[3] = {list = true}, ["alt"] = {}, ["sc"] = {}, ["tr"] = {}, }

local args = require("Module:parameters").process(parent_args, params)

-- Do further processing of the parsed arguments in `args`. ... }

The `params` table should have the parameter names as the keys, and a (possibly empty) table of parameter tags as the value. An empty table as the value merely states that the parameter exists, but should not receive any special treatment. Possible parameter tags are listed below:


 * {required = true}
 * The parameter is required; an error is shown if it is not present. The template's page itself is an exception; no error is shown there.


 * {default =}
 * Specifies a default input value for the parameter, if it is absent or empty. This will be processed as though it were the input instead, so (for example) {default = "und"} with the type {"language"} will return a language object for Undetermined language if no language code is provided.
 * When used on list parameters, this specifies a default value for the first item in the list only. Note that it is not possible to generate a default that depends on the value of other parameters.
 * If used together with {required = true}, the default applies only to the template's page itself. This can be used to show an example text.


 * {alias_of =}
 * Treat the parameter as an alias of another. When arguments are specified for this parameter, they will automatically

be renamed and stored under the alias name. This allows for parameters with multiple alternative names, while still treating them as if they had only one name.
 * Aliases cannot be required, as this prevents the other name or names of the parameter from being used. Parameters

that are aliases and required at the same time cause an error to be thrown.
 * {allow_empty = true}
 * If the argument is an empty string value, it is not converted to {nil}, but kept as-is.


 * {allow_whitespace = true}
 * Spacing characters such as spaces and newlines at the beginning and end of a positional parameter are not removed.

(MediaWiki itself automatically trims spaces and newlines at the edge of named parameters.)
 * {type =}
 * Specifies what value type to convert the argument into. The default is to leave it as a text string. Alternatives are:
 * {type = "boolean"}
 * The value is treated as a boolean value, either true or false. No value, the empty string, and the strings {"0"},

{"no"}, {"n"} and {"false"} are treated as {false}, all other values are considered {true}.
 * {type = "number"}
 * The value is converted into a number, or {nil} if the value is not parsable as a number.
 * {type = "language"}
 * The value is interpreted as a language code (or name, if {method = "name"}) and converted into the corresponding

object (see Module:languages). If the code or name is invalid, then an error is thrown. The additional settings {etym_lang = true} and/or {family = true} can be given to allow (respectively) Etymology-only language codes and/or language family codes to be considered valid and the corresponding object returned.
 * {type = "wikimedia language"}
 * The value is interpreted as a code and converted into a wikimedia language object. If the code is invalid, then an error is thrown. If {method = "fallback"} is specified, conventional language codes which are different from their Wikimedia equivalent will also be accepted as a fallback.
 * {type = "family"}
 * The value is interpreted as a language family code (or name, if {method = "name"}) and converted into the

corresponding object (see Module:families). If the code or name is invalid, then an error is thrown.
 * {type = "script"}
 * The value is interpreted as a script code (or name, if {method = "name"}) and converted into the corresponding object

(see Module:scripts). If the code or name is invalid, then an error is thrown.
 * {type = "qualifier"}
 * The value is interpreted as a qualifier and converted into the correct format for passing into `format_qualifiers`

in Module:qualifiers (which currently just means converting it to a one-item list).
 * {type = "labels"}
 * The value is interpreted as a comma-separated list of labels and converted into the correct format for passing into

`show_labels` in Module:labels (which is currently a list of strings). Splitting is done on commas not followed by whitespace, except that commas inside of double angle brackets do not count even if not followed by whitespace. This type should be used by for normal labels (typically specified using l or ll) and accent qualifiers (typically specified using a and aa).
 * {type = "references"}
 * The value is interpreted as one or more references, in the format prescribed by `parse_references` in

Module:references, and converted into a list of objects of the form accepted by `format_references` in the same module. If a syntax error is found in the reference format, an error is thrown.
 * {list =}
 * Treat the parameter as a list of values, each having its own parameter name, rather than a single value. The parameters will have a number at the end, except optionally for the first (but see also {require_index = true}). For example, {list = true} on a parameter named "head" will include the parameters head (or head1), head2, head3 and so on. If the parameter name is a number, another number doesn't get appended, but the counting simply continues, e.g. for parameter {3} the sequence is 3, 4, 5 etc. List parameters are returned as numbered lists, so for a template that is given the parameters `|head=a|head2=b|head3=c`, the processed value of the parameter {"head"} will be { { "a", "b", "c" }}}.
 * The value for {list =} can also be a string. This tells the module that parameters other than the first should have a different name, which is useful when the first parameter in a list is a number, but the remainder is named. An example would be for genders: {list = "g"} on a parameter named {1} would have parameters 1, g2, g3 etc.
 * If the number is not located at the end, it can be specified by putting {"\1"} at the number position. For example, parameters f1accel, f2accel, ... can be captured by using the parameter name {"f\1accel"}, as is done in Module:headword/templates.


 * {set =}
 * Require that the value of the parameter be one of the specified list of values (or omitted, if {required = true} isn't

given). The values in the specified list should be strings corresponding to the raw parameter values except when {type = "number"}, in which case they should be numbers. The use of `set` is disallowed if {type = "boolean"} and causes an error to be thrown.
 * {sublist =}
 * The value of the parameter is a delimiter-separated list of individual raw values. The resulting field in `args` will

be a Lua list (i.e. a table with numeric indices) of the converted values. If {sublist = true} is given, the values will be split on comma (possibly with whitespace on one or both sides of the comma, which is ignored). Otherwise, the value of `sublist` should be either a Lua pattern specifying the delimiter(s) to split on or a function to do the splitting, which is passed two values (the value to split and a function to signal an error) and should return a list of the split values.
 * {convert =}
 * If given, this specifies a function to convert the raw parameter value into the Lua object used during further

processing. The function is passed two arguments, the raw parameter value itself and a function used to signal an error during parsing or conversion, and should return one value, the converted parameter. The error-signaling function contains the name and raw value of the parameter embedded into the message it generates, so these do not need to specified in the message passed into it. If `type` is specified in conjunction with `convert`, the processing by `type` happens first. If `sublist` is given in conjunction with `convert`, the raw parameter value will be split appropriately and `convert` called on each resulting item.
 * {etym_lang = true}
 * When used in conjunction with {type = "language"}, allows etymology-only language codes

to be returned. The returned objects are of the same type as those for full languages and for almost all purposes they can be used interchangeably. To check if a given object refers to an etymology-only language, use {object:hasType("language", "etymology-only")}.
 * {family = true}
 * When used in conjunction with {type = "language"}, allows language family codes

to be returned. To check if a given object refers to a language family, use {object:hasType("family")}.
 * {method = "name"}
 * When used in conjunction with {type = "language"}, {type = "family"} or {type = "script"}, checks for and parses a

language, family or script name instead of a code.
 * {allow_holes = true}
 * This is used in conjunction with list-type parameters. By default, the values are tightly packed in the resulting list. This means that if, for example, an entry specified `head=a|head3=c` but not head2, the returned list will be { {"a", "c"}}}, with the values stored at the indices {1} and {2}, not {1} and {3}. If it is desirable to keep the numbering intact, for example if the numbers of several list parameters correlate with each other (like those of compound), then this tag should be specified.
 * If {allow_holes = true} is given, there may be {nil} values in between two real values, which makes many of Lua's table processing functions no longer work, like {#} or {ipairs}. To remedy this, the resulting table will contain an additional named value, `maxindex`, which tells you the highest numeric index that is present in the table. In the example above, the resulting table will now be { { "a", nil, "c", maxindex = 3}}}. That way, you can iterate over the values from {1} to `maxindex`, while skipping {nil} values in between.


 * {disallow_holes = true}
 * This is used in conjunction with list-type parameters. As mentioned above, normally if there is a hole in the source arguments, e.g. `head=a|head3=c` but not head2, it will be removed in the returned list. If {disallow_holes = true} is specified, however, an error is thrown in such a case. This should be used whenever there are multiple list-type parameters that need to line up (e.g. both head and tr are available and head3 lines up with tr3), unless {allow_holes = true} is given and you are prepared to handle the holes in the returned lists.


 * {require_index = true}
 * This is used in conjunction with list-type parameters. By default, the first parameter can have its index omitted. For example, a list parameter named `head` can have its first parameter specified as either head or head1. If {require_index = true} is specified, however, only head1 is recognized, and head will be treated as an unknown parameter. affixusex (and variants suffixusex, prefixusex) use this, for example, on all list parameters.


 * {separate_no_index = true}
 * This is used to distinguish between head and head1 as different parameters. For example, in affixusex, to distinguish between sc (a script code for all elements in the usex's language) and sc1 (the script code of the first element, used when lang1 is also specified to indicate that the first element is in a different language). When this is used, the resulting table will contain an additional named value, `default`, which contains the value for the indexless argument.

]==]

local function track(page) require(debug_track_module)("parameters/" .. page) end

-- Some splitting functions -

--[==[ Split an argument on comma, but not comma followed by whitespace. Can be used e.g. as the value of the `sublist` field in the `params` structure. ]==] function export.split_on_comma_without_whitespace(val) if val:find(",%s") or val:find("\\") then return require(parse_utilities_module).split_on_comma(val) else return rsplit(val, ",") end end

-- Value conversion -

-- For a list parameter `name` and corresponding value `list_name` of the `list` field (which should have the same value -- as `name` if `list = true` was given), generate a pattern to match parameters of the list and store the pattern as a -- key in `patterns`, with corresponding value set to `name`. For example, if `list_name` is "tr", the pattern will -- match "tr" as well as "tr1", "tr2", ..., "tr10", "tr11", etc. If the `list_name` contains a \1 in it, the numeric -- portion goes in place of the \1. For example, if `list_name` is "f\1accel", the pattern will match "faccel", -- "f1accel", "f2accel", etc. Any \1 in `name` is removed before storing into `patterns`. local function save_pattern(name, list_name, patterns) name = type(name) == "string" and gsub(name, "\1", "") or name if match(list_name, "\1") then patterns["^" .. gsub(pattern_escape(list_name), "\1", "([1-9]%%d*)") .. "$"] = name else patterns["^" .. pattern_escape(list_name) .. "([1-9]%d*)$"] = name end end

-- Convert a list in `list` to a string, separating the final element from the preceding one(s) by `conjunction`. If -- `dump_vals` is given, pass all values in `list` through mw.dumpObject (WARNING: this destructively modifies -- `list`). This is similar to serialCommaJoin in Module:table when used with the `dontTag = true` option, but -- internally uses mw.text.listToText. local function concat_list(list, conjunction, dump_vals) if dump_vals then for i = 1, #list do			list[i] = dump(list[i]) end end return list_to_text(list, nil, conjunction) end

-- Helper function for use with convert_val_error. Format a list of possible choices using `concat_list` and -- conjunction "or", displaying "either " before the choices if there's more than one. local function format_choice_list(typ) return (#typ > 1 and "either " or "") .. concat_list(typ, " or ") end

-- Signal an error for a value `val` that is not of the right typ `typ` (which is either a string specifying a type or -- a list of possible values, in the case where `set` was used). `name` is the name of the parameter and can be a -- function to signal an error (which is assumed to automatically display the parameter's name and value). `seetext` is -- an optional additional explanatory link to display (e.g. WT:LOL, the list of possible languages and codes). local function convert_val_error(val, name, typ, seetext) if type(name) == "function" then if type(typ) == "table" then typ = "choice, must be " .. format_choice_list(typ) end name(("Invalid %s; the value %s is not valid%s"):format(typ, val, seetext and "; see " .. seetext or "")) else if type(typ) == "table" then typ = "must be " .. format_choice_list(typ) else typ = "should be a valid " .. typ end error(("Parameter %s %s; the value %s is not valid.%s"):format(dump(name), typ, dump(val), seetext and " See " .. seetext .. "." or "")) end end

-- Convert a value that is not a string or number to a string using mw.dumpObject, for debugging purposes. local function dump_if_unusual(val) return (type(val) == "string" or type(val) == "number") and val or dump(val) end

-- A helper function for use with generating error-signaling functions in the presence of raw value conversion. Format a -- message `msg`, including the processed value `processed` if it is different from the raw value `rawval`; otherwise, -- just return `msg`. local function msg_with_processed(msg, rawval, processed) if rawval == processed then return msg else return ("%s (processed value %s)"):format(msg, dump_if_unusual(processed)) end end

-- Generate the appropriate error-signaling function given parameter value `val` and name `name`. If `name` is already -- a function, it is just returned; otherwise a function is generated and returned that displays the passed-in messaeg -- along with the parameter's name and value. local function make_parse_err(val, name) if type(name) == "function" then return name else return function(msg) error(("%s: parameter %s=%s"):format(msg, name, val)) end end end

-- A reimplementation of ipairs for use in a single-variable for-loop (like with gsplit) instead of a two-variable -- for-loop (like with ipairs). If we changed the return statement below to `return index, list[index]`, we'd get -- ipairs directly. local function iterate_over_list(list) local index, len = 0, #list return function index = index + 1 if index <= len then return list[index] end end end

-- A helper function for use with `sublist`. It is an iterator function for use in a for-loop that returns split -- elements of `val` using `sublist` (a Lua split pattern; boolean `true` to split on commas optionally surrounded by -- whitespace; or a function to do the splitting, which is passed two values, the value to split and a function to -- signal an error, and should return a list of the split elements). `name` is the parameter name or error-signaling -- function passed into convert_val. local function split_sublist(val, name, sublist) sublist = sublist == true and "%s*,%s*" or sublist if type(sublist) == "string" then return gsplit(val, sublist) elseif type(sublist) == "function" then local retval = sublist(val, make_parse_err(val, name)) return iterate_over_list(retval) else error(('Internal error: Expected `sublist` to be of type "string" or "function" or boolean `true`, but saw %s'):		format(dump(sublist))) end end

-- For parameter named `name` with value `val` and param spec `param`, if the `set` field is specified, verify that the -- value is one of the one specified in `set`, and throw an error otherwise. `name` is taken directly from the -- corresponding parameter passed into convert_val and may be a function to signal an error. Optional `typ` is a -- string specifying the conversion type of `val` and is used for special-casing: If `typ` is "boolean", an internal -- error is thrown (since `set` cannot be used in conjunction with booleans) and if `typ` is "number", no checking -- happens because in this case `set` contains numbers and is checked inside the number conversion function itself, -- after converting `val` to a number. local function check_set(val, name, param, typ) if typ == "boolean" then error(('Internal error: Cannot use `set` with `type = "%s"`'):format(typ)) end if typ == "number" then -- Needs to be special cased because the check happens after conversion to numbers. return end if not param.set[val] then local list = {} for k in pairs(param.set) do			insert(list, dump(k)) end sort(list) -- If the parameter is not required then put "or empty" at the end of the list, to avoid implying the parameter is actually required. if not param.required then insert(list, "empty") end convert_val_error(val, name, list) end end

--[==[ func: export.convert_val(val, name, param) Convert a parameter value according to the associated specs listed in the `params` table passed to Module:parameters. `val` is the value to convert for a parameter whose name is `name` (used only in error messages). `param` is the spec (the value part of the `params` table for the parameter). In place of passing in the parameter name, `name` can be a function that throws an error, displaying the specified message along with the parameter name and value. This function processes all the conversion-related fields in `param`, including `type`, `set`, `sublist`, `convert`, etc. It returns the converted value. ]==] local convert_val = setmetatable({	["boolean"] = function(val)		return yesno(val, true)	end,	["family"] = function(val, name, param)		return require(families_module)[param.method == "name" and "getByCanonicalName" or "getByCode"](val) or			convert_val_error(val, name, "family " .. (param.method == "name" and "name" or "code"), "WT:LOF")	end,	["labels"] = function(val, name, param)		-- FIXME: Should be able to pass in a parse_err function.		return require(labels_module).split_labels_on_comma(val)	end,

["references"] = function(val, name, param) return require(references_module).parse_references(val, make_parse_err(val, name)) end,

["qualifier"] = function(val, name, param) return {val} end,

["language"] = function(val, name, param) local lang = require(languages_module)[param.method == "name" and "getByCanonicalName" or "getByCode"](val, nil, param.etym_lang, param.family) if lang then return lang end local list = {"language"} local links = {"WT:LOL"} if param.etym_lang then insert(list, "etymology language") insert(links, "WT:LOL/E") end if param.family then insert(list, "family") insert(links, "WT:LOF") end convert_val_error(val, name, concat_list(list, " or ") .. " " .. (param.method == "name" and "name" or "code"),			concat_list(links, " and ")) end, ["number"] = function(val, name, param) if type(val) == "number" then return val end -- Avoid converting inputs like "nan" or "inf". val = tonumber(val:match("^[+%-]?%d+%.?%d*")) or convert_val_error(val, name, "number") if param.set then -- Don't pass in "number" here; otherwise no checking will happen. check_set(val, name, param) end return val end, ["script"] = function(val, name, param) return require(scripts_module)[param.method == "name" and "getByCanonicalName" or "getByCode"](val) or convert_val_error(val, name, "script " .. (param.method == "name" and "name" or "code"), "WT:LOS") end, ["string"] = function(val, name, param) return val end, ["wikimedia language"] = function(val, name, param) local fallback = param.method == "fallback" local lang = require(wikimedia_languages_module)[fallback and "getByCodeWithFallback" or "getByCode"](val) if lang then return lang end local list = {"wikimedia language"} if fallback then insert(list, "language") end convert_val_error(val, name, concat_list(list, " or ") .. " code") end, }, {	__call = function(self, val, name, param) local typ = param.type or "string" local func, sublist = self[typ], param.sublist if not func then error("Internal error: " .. dump(typ) .. " is not a recognized parameter type.") elseif sublist then local retlist = {} if type(val) ~= "string" then error("Internal error: " .. dump(val) .. " is not a string.") end if param.convert then local thisval, insval local thisindex = 0 local parse_err if type(name) == "function" then -- We assume the passed-in error function in `name` already shows the parameter name and raw value. parse_err = function(msg) name(("%s: item #%s=%s"):format(msg_with_processed(msg, thisval, insval), thisindex, thisval)) end else parse_err = function(msg) error(("%s: item #%s=%s of parameter %s=%s"):format(msg_with_processed(msg, thisval, insval), thisindex, thisval, name, val)) end end for v in split_sublist(val, name, sublist) do					thisval = v					thisindex = thisindex + 1 if param.set then check_set(v, name, param, typ) end insval = func(v, name, param) insert(retlist, param.convert(insval, parse_err)) end else for v in split_sublist(val, name, sublist) do					if param.set then check_set(v, name, param, typ) end insert(retlist, func(v, name, param)) end end return retlist else if param.set then check_set(val, name, param, typ) end local retval = func(val, name, param) if param.convert then local parse_err if type(name) == "function" then -- We assume the passed-in error function in `name` already shows the parameter name and raw value. if retval == val then -- This is an optimization to avoid creating a closure. The second arm works correctly even -- when retval == val. parse_err = name else parse_err = function(msg) name(msg_with_processed(msg, val, retval)) end end else parse_err = function(msg) error(("%s: parameter %s=%s"):format(msg_with_processed(msg, val, retval), name, val)) end end retval = param.convert(retval, parse_err) end return retval end end }) export.convert_val = convert_val -- used by Module:parameter utilities

local function process_error(fmt, ...) local args = {...} for i, val in ipairs(args) do		args[i] = dump(val) end if type(fmt) == "table" then -- hacky signal that we're called from internal_process_error, and not to omit stack frames return error(fmt[1]:format(unpack(args))) else return error(fmt:format(unpack(args)), 3) end end

local function internal_process_error(fmt, ...) fmt = "Internal error in `params` table: " .. fmt process_error({fmt}, ...) end

--[==[ Process arguments with a given list of parameters. Return a table containing the processed arguments. The `args` parameter specifies the arguments to be processed; they are the arguments you might retrieve from {frame:getParent.args} (the template arguments) or in some cases {frame.args} (the invocation arguments). The `params` parameter specifies a list of valid parameters, and consists of a table. If an argument is encountered that is not in the parameter table, an error is thrown.

The structure of the `params` table is as described above in the intro comment.

WARNING: The `params` table is destructively modified to save memory. Nonetheless, different keys can share the same value objects in memory without causing problems.

The `return_unknown` parameter, if set to {true}, prevents the function from triggering an error when it comes across an argument with a name that it doesn't recognise. Instead, the return value is a pair of values: the first is the processed arguments as usual, while the second contains all the unrecognised arguments that were left unprocessed. This allows you to do multi-stage processing, where the entire set of arguments that a template should accept is not known at once. For example, an inflection-table might do some generic processing on some arguments, but then defer processing of the remainder to the function that handles a specific inflectional type. ]==] function export.process(args, params, return_unknown) -- Process parameters for specific properties local args_new = {} local required = {} local seen = {} local patterns = {} local names_with_equal_sign = {} local list_from_index for name, param in pairs(params) do -- Populate required table, and make sure aliases aren't set to required. if param.required then if param.alias_of then internal_process_error(					"Parameter %s is an alias of %s, but is also set as a required parameter. Only %s should be set as required.",					name, param.alias_of, name) end required[name] = true end -- Convert param.set from a list into a set. -- `seen` prevents double-conversion if multiple parameter keys share the same param table. local set = param.set if set and not seen[param] then param.set = list_to_set(set) seen[param] = true end local alias = param.alias_of if alias then -- Check that the alias_of is set to a valid parameter. if not params[alias] then internal_process_error("Parameter %s is an alias of an invalid parameter.", name) end -- Check that all the parameters in params are in the form Scribunto normalizes input argument keys into (e.g. 1 not "1", "foo" not " foo "). Otherwise, this function won't be able to normalize the input arguments in the expected way. local normalized = scribunto_param_key(alias) if alias ~= normalized then internal_process_error(					"Parameter %s (a " .. type(alias) .. ") given in the alias_of field of parameter %s is not a normalized Scribunto parameter. Should be %s (a " .. type(normalized) .. ").",					alias, name, normalized) -- Aliases can't be lists unless the canonical parameter is also a list. elseif param.list and not params[alias].list then internal_process_error(					"The list parameter %s is set as an alias of %s, which is not a list parameter.", name, alias) -- Aliases can't be aliases of other aliases. elseif params[alias].alias_of then internal_process_error(					"Alias_of cannot be set to another alias: parameter %s is set as an alias of %s, which is in turn an alias of %s. Set alias_of for %s to %s.",					name, alias, params[alias].alias_of, name, params[alias].alias_of) end end local normalized = scribunto_param_key(name) if name ~= normalized then internal_process_error(				"Parameter %s (a " .. type(name) .. ") is not a normalized Scribunto parameter. Should be %s (a " .. type(normalized) .. ").",				name, normalized) end if param.list then if not param.alias_of then local key = name if type(name) == "string" then key = gsub(name, "\1", "") end -- _list is used as a temporary flag. args_new[key] = {maxindex = 0, _list = param.list} end if type(param.list) == "string" then -- If the list property is a string, then it represents the name -- to be used as the prefix for list items. This is for use with lists -- where the first item is a numbered parameter and the -- subsequent ones are named, such as 1, pl2, pl3. save_pattern(name, param.list, patterns) elseif type(name) == "number" then if list_from_index then internal_process_error(						"Only one numeric parameter can be a list, unless the list property is a string.") end -- If the name is a number, then all indexed parameters from -- this number onwards go in the list. list_from_index = name else save_pattern(name, name, patterns) end if match(name, "\1") then insert(names_with_equal_sign, name) end end end --Process required changes to `params`. for i = 1, #names_with_equal_sign do		local name = names_with_equal_sign[i] params[gsub(name, "\1", "")] = params[name] params[name] = nil end -- Process the arguments local args_unknown = {} local max_index for name, val in pairs(args) do		local orig_name, raw_type, index, normalized = name, type(name) if raw_type == "number" then if list_from_index ~= nil and name >= list_from_index then index = name - list_from_index + 1 name = list_from_index end else -- Does this argument name match a pattern? for pattern, pname in pairs(patterns) do				index = match(name, pattern) -- It matches, so store the parameter name and the -- numeric index extracted from the argument name. if index then index = tonumber(index) name = pname break end end end local param = params[name] if param and param.require_index then -- Disallow require_index for numeric parameter names, as this doesn't make sense. if raw_type == "number" then internal_process_error("Cannot set require_index for numeric parameter %s.", name) -- If a parameter without the trailing index was found, and -- require_index is set on the param, set the param to nil to treat it -- as if it isn't recognized. elseif not index then param = nil end end -- If the argument is not in the list of parameters, trigger an error. -- return_unknown suppresses the error, and stores it in a separate list instead. if not param then if return_unknown then args_unknown[name] = val else process_error("Parameter %s is not used by this template.", name) end else -- Check that separate_no_index is not being used with a numeric parameter. if param.separate_no_index then if raw_type == "number" then internal_process_error("Cannot set separate_no_index for numeric parameter %s.", name) elseif type(param.alias_of) == "number" then internal_process_error(						"Cannot set separate_no_index for parameter %s, as it is an alias of numeric parameter %s.",						name, param.alias_of) end end -- If no index was found, use 1 as the default index. -- This makes list parameters like g, g2, g3 put g at index 1. -- If `separate_no_index` is set, then use 0 as the default instead. if param.list then index = index or param.separate_no_index and 0 or 1 end -- Normalize to the canonical parameter name. If it's a list, but the alias is not, then determine the index. local raw_name = param.alias_of if param.alias_of then raw_type = type(raw_name) if raw_type == "number" then if params[raw_name].list then index = index or param.separate_no_index and 0 or 1 normalized = raw_name + index - 1 else normalized = raw_name end name = raw_name else name = gsub(raw_name, "\1", "") if params[name].list then index = index or param.separate_no_index and 0 or 1 end if not index or index == 0 then normalized = name elseif name == raw_name then normalized = name .. index else normalized = gsub(raw_name, "\1", index) end end else normalized = orig_name end -- Remove leading and trailing whitespace unless allow_whitespace is true. if not param.allow_whitespace then val = trim(val) end -- Empty string is equivalent to nil unless allow_empty is true. if val == "" and not param.allow_empty then val = nil -- Track empty parameters, unless (1) allow_empty is set or (2) they're numbered parameters where a higher numbered parameter is also in use (e.g. track, but not term). if raw_type == "number" and not max_index then -- Find the highest numbered parameter that's in use/an empty string, as we don't want parameters like 500= to mean we can't track any empty parameters with a lower index than 500. local n = 0 while args[n + 1] do						n = n + 1 end max_index = 0 for n = n, 1, -1 do						if args[n] ~= "" then max_index = n							break end end end if raw_type ~= "number" or name > max_index then -- Disable this for now as it causes slowdowns on large pages like a. -- track("empty parameter") end end -- Can't use "if val" alone, because val may be a boolean false. if val ~= nil then -- Convert to proper type if necessary. val = convert_val(val, orig_name, params[raw_name] or param) -- Mark it as no longer required, as it is present. required[name] = nil -- Store the argument value. if index then -- If the parameter is duplicated, throw an error. if args_new[name][index] ~= nil then process_error(							"Parameter %s has been entered more than once. This is probably because a list parameter has been entered without an index and with index 1 at the same time, or because a parameter alias has been used.",							normalized) end args_new[name][index] = val -- Store the highest index we find. args_new[name].maxindex = max(index, args_new[name].maxindex) if args_new[name][0] ~= nil then args_new[name].default = args_new[name][0] if args_new[name].maxindex == 0 then args_new[name].maxindex = 1 end args_new[name][0] = nil end if params[name].list then -- Don't store index 0, as it's a proxy for the default. if index > 0 then args_new[name][index] = val -- Store the highest index we find. args_new[name].maxindex = max(index, args_new[name].maxindex) end else args_new[name] = val end else -- If the parameter is duplicated, throw an error. if args_new[name] ~= nil then process_error(							"Parameter %s has been entered more than once. This is probably because a parameter alias has been used.",							normalized) end if not param.alias_of then args_new[name] = val else if params[param.alias_of].list then args_new[param.alias_of][1] = val -- Store the highest index we find. args_new[param.alias_of].maxindex = max(1, args_new[param.alias_of].maxindex) else args_new[param.alias_of] = val end end end end end end -- Remove holes in any list parameters if needed. for name, val in pairs(args_new) do		if type(val) == "table" then local listname = val._list if listname then if params[name].disallow_holes then local highest = 0 for num, _ in pairs(val) do						if type(num) == "number" and num > 0 and num < huge and floor(num) == num then highest = max(highest, num) end end for i = 1, highest do						if val[i] == nil then if type(listname) == "string" then listname = dump(listname) elseif type(name) == "number" then i = i + name - 1 -- Absolute index. listname = "numeric" else listname = dump(name) end process_error(								"Item %s in the list of " .. listname .. " parameters cannot be empty, because the list must be contiguous.",								i) end end -- Some code depends on only numeric params being present -- when no holes are allowed (e.g. by checking for the					-- presence of arguments using next), so remove -- `maxindex`. val.maxindex = nil elseif not params[name].allow_holes then args_new[name] = remove_holes(val) end end end end -- Handle defaults. for name, param in pairs(params) do		if param.default ~= nil then local arg_new = args_new[name] if type(arg_new) == "table" and arg_new._list then if arg_new[1] == nil then arg_new[1] = convert_val(param.default, name, param) end if arg_new.maxindex == 0 then arg_new.maxindex = 1 end arg_new._list = nil elseif arg_new == nil then args_new[name] = convert_val(param.default, name, param) end end end -- The required table should now be empty. -- If any entry remains, trigger an error, unless we're in the template namespace. if mw.title.getCurrentTitle.namespace ~= 10 then local list = {} for name in pairs(required) do			insert(list, dump(name)) end local n = #list if n > 0 then process_error("Parameter" .. ( n == 1 and (" " .. list[1] .. " is") or ("s " .. concat_list(list, " and ", true) .. " are") ) .. " required.") end end -- Remove the temporary _list flag. for _, arg_new in pairs(args_new) do		if type(arg_new) == "table" then arg_new._list = nil end end if return_unknown then return args_new, args_unknown else return args_new end end

return export