Module:Infobox regtemp: Difference between revisions

Revision as of 08:01, 28 November 2025

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This module should not be invoked directly; use its corresponding template instead: Template:Infobox regtemp.

Module:Infobox regtemp is a draft module. It is incomplete and may not be in active development. If possible, editors are encouraged to help with its development. In the meantime, editors should avoid using this module across the Xenharmonic Wiki, except for testing.

This module generates an infobox providing information about a given regular temperament.

Introspection summary for Module:Infobox regtemp

Functions provided (5)
Line	Function	Params
7	`infobox_RT` (invokable)	`(frame)`
209	`digit2greek`	`(number, purpose)`
291	`num2greek`	`(number, purpose)`
306	`digit2greeklet`	`(number, purpose)`
373	`num2greeklet`	`(number)`

Lua modules required (3)
Variable	Module	Functions used
infobox	Module:Infobox	`build`
u	Module:Utils	`eval_num_arg` `log2` `value_provided`
yesno	Module:Yesno	dependency not used

No function descriptions were provided. The Lua code may have further information.

local p = {}

local infobox = require("Module:Infobox")
local u = require("Module:Utils")
local yesno = require("Module:Yesno")

function p.infobox_RT(frame)
	
	-- no real math functionality... yet
	local name = frame.args["tempname"]
	
	local subgroup = frame.args["subgroup"]
	local basis = frame.args["commas"]
	
	local edo_first = frame.args["edo_first"]
	local edo1 = tonumber(edo_first)
	local edo_second = frame.args["edo_second"]
	local edo2 = tonumber(edo_second)
	
	local tuning = frame.args["tuning"]
	local genfrac = frame.args["genfrac"]
	local method = frame.args["method"]
	local mapping = frame.args["mapping"]
	
	local mos = frame.args["mosses"]
	local ploidacot = frame.args["ploidacot"]
	local colorname = frame.args["colorname"]
	local pergen = frame.args["pergen"]
	
	local limit1 = frame.args["lim1"]
	local comp1 = frame.args["comp1"]
	local acc1 = frame.args["acc1"]
	local limit2 = frame.args["lim2"]
	local comp2 = frame.args["comp2"]
	local acc2 = frame.args["acc2"]
	local debugg = frame.args["debug"]
	
	local data = {}
	
	table.insert(data, {
		"Subgroups",
		subgroup
	})

	table.insert(data, {
		"Comma basis",
		basis
	})

	table.insert(data, {
		"Reduced mapping",
		"⟨" .. mapping .. "]"
	})

	-- process mapping
	local map = {}
	for str in mapping:gmatch("(-?%d+);") do
		table.insert(map, str)
	end
	local genchain_mapping = {}
	for str in mapping:gmatch("(-?%d+)") do
		table.insert(genchain_mapping, str)
	end
	genchain_mapping[1] = 0
	
	-- interpret subgroup
	local subgroup_basis = {}
	for str in subgroup:gmatch("(%d+/?%d*)") do
		table.insert(subgroup_basis, str)
	end
	
	-- autocalculating ploidacot
	local ploid = tonumber (map[1])
	
	local equave = u.eval_num_arg(subgroup_basis[1])
	local referent = u.eval_num_arg(subgroup_basis[2])
	local equave_letter
	local cot = tonumber(genchain_mapping[2])
	local suffix = "cleft"
	if equave == 3 then -- twelfth-based temp
		equave_letter = "t"
		if referent == 5 then
			referent_candidate = u.eval_num_arg(subgroup_basis[3])
			if referent_candidate == 7 then
				referent = referent_candidate
				cot = tonumber(genchain_mapping[3])
				suffix = "gem"
			end
		end
	elseif equave == 1.5 then -- fifth-based temp
		equave_letter = "f"
	elseif equave == 2 then
		equave_letter = "o"
		if referent == 3 then
			suffix = "cot"
		elseif referent == 5 then
			suffix = "seph"
		end
	else
		equave_letter = equave
	end
	
	if suffix == "cleft" then
		suffix = referent .. suffix
	end
	
	local equave_size = 1200 * u.log2(equave)
	local referent_size = 1200 * u.log2(referent)
	local period_size = equave_size / ploid
	local generator_size = tonumber(tuning)
	if cot < 0 then
		generator_size = equave_size - generator_size
		cot = -cot
	end
	
	-- find the shear
	local shear
	if cot ~= 0 then
		shear = (math.floor(generator_size * cot / period_size) 
			- math.floor(referent_size % equave_size / period_size)) % cot
	else
		shear = 0
	end
	
	-- omega extension
	if ploid == 1 and cot > 2 and shear == cot - ploid then
		shear = shear - cot
	end
	
	suffix = p.num2greeklet(tostring(shear)) .. p.num2greek(tostring(cot), "cot") .. suffix
	
	if ploid ~= 1 then
		suffix = p.num2greek(tostring(ploid), "ploid") .. "ploid " .. suffix
	end
	
	if not u.value_provided (ploidacot) then
		ploidacot = suffix
	end
	
	-- edo join
	table.insert(data, {
		"Edo join",
		"[[" .. edo_first .. "ed" .. equave_letter .. "|" .. edo_first .. "]] & [[" .. edo_second .. "ed" .. equave_letter .. "|" .. edo_second .. "]]"
	})

	table.insert(data, {
		"Generator ([[" .. method .. "]])",
		"~" .. genfrac .. " = " .. tuning .. "{{c}}"
	})

	table.insert(data, {
		"MOS scales",
		mos
	})

	table.insert(data, {
		"Ploidacot",
		ploidacot
	})
	
	if u.value_provided (pergen) then
		table.insert(data, {
			"Pergen",
			pergen
		})
	end

	if u.value_provided (colorname) then
		table.insert(data, {
			"Color name",
			colorname
		})
	end
	
	-- error and stuff
	local limit_text
	if equave_letter == "o" then
		limit_text = "-odd-limit"
	elseif equave_letter == "t" then
		limit_text = "-throdd-limit"
	else
		limit_text = "-integer-limit"
	end
	local string1 = limit1 .. limit_text .. ": " .. acc1 .. "{{c}}"
	local string2 = limit1 .. limit_text .. ": " .. comp1 .. " notes"
	if u.value_provided (limit2) then
		string1 = string1 .. "; <br>" .. limit2 .. limit_text .. ": " .. acc2 .. "{{c}}"
		string2 = string2 .. "; <br>" .. limit2 .. limit_text .. ": " .. comp2 .. " notes"
	end

	table.insert(data, {
		"Minimax error",
		string1
	})

	table.insert(data, {
		"Target scale size",
		string2
	})

	local result = infobox.build(
		name,
		data
	)
	
	return frame:preprocess(debugg == true and "<pre>" .. result .. "</pre>" or result)
end

function p.digit2greek(number, purpose)

	local greek
	
	if number == "1" then
		if purpose == "ploid" then
			greek = "ha"
		elseif purpose == "cot" then
			greek = "mono"
		elseif purpose == "decade" then
			greek = "deca"
		else
			greek = "hen"
		end
	elseif number == "2" then
		if purpose == "decade" then
			greek = "icosa"
		elseif purpose == "unit" then
			greek = "do"
		else
			greek = "di"
		end
	elseif number == "0" then
		if purpose == "unit" then
			greek = ""
		else
			greek = "a"
		end
	else
		if number == "3" then
			if purpose == "decade" then
				greek = "tria"
			else
				greek = "tri"
			end
		elseif number == "4" then
			if purpose == "decade" then
				greek = "tessera"
			else
				greek = "tetra"
			end
		elseif number == "5" then
			if purpose == "decade" then
				greek = "pente"
			else
				greek = "penta"
			end
		elseif number == "6" then
			if purpose == "decade" then
				greek = "hexe"
			else
				greek = "hexa"
			end
		elseif number == "7" then
			if purpose == "decade" then
				greek = "hebdome"
			else
				greek = "hepta"
			end
		elseif number == "8" then
			if purpose == "decade" then
				greek = "ogdoe"
			elseif purpose == "unit" then
				greek = "octo"
			else
				greek = "octa"
			end
		elseif number == "9" then
			if purpose == "decade" then
				greek = "enene"
			else
				greek = "ennea"
			end
		end
		if purpose == "decade" then
			greek = greek .. "conta"
		end
	end

	return greek
end

function p.num2greek(number, purpose)

	local greek
	
	if string.len(number) == 1 then
		greek = p.digit2greek(number, purpose)
	elseif string.len(number) == 2 then
		local unit = string.char(string.byte(number, 2))
		local decade = string.char(string.byte(number, 1))
		
		greek = p.digit2greek(unit, "unit") .. p.digit2greek(decade, "decade")
	end
	return greek
end

function p.digit2greeklet(number, purpose)

	local greek
	
	if number == "1" then
		if purpose == "decade" then
			greek = "iota-"
		elseif purpose == "unit" then
			greek = "alpha-"
		end
	elseif number == "2" then
		if purpose == "decade" then
			greek = "kappa-"
		elseif purpose == "unit" then
			greek = "beta-"
		end
	elseif number == "3" then
		if purpose == "decade" then
			greek = "lambda-"
		elseif purpose == "unit" then
			greek = "gamma-"
		end
	elseif number == "4" then
		if purpose == "decade" then
			greek = "mu-"
		elseif purpose == "unit" then
			greek = "delta-"
		end
	elseif number == "5" then
		if purpose == "decade" then
			greek = "nu-"
		elseif purpose == "unit" then
			greek = "epsilon-"
		end
	elseif number == "6" then
		if purpose == "decade" then
			greek = "xi-"
		elseif purpose == "unit" then
			greek = "wau-"
		end
	elseif number == "7" then
		if purpose == "decade" then
			greek = "omicron-"
		elseif purpose == "unit" then
			greek = "zeta-"
		end
	elseif number == "8" then
		if purpose == "decade" then
			greek = "pi-"
		elseif purpose == "unit" then
			greek = "eta-"
		end
	elseif number == "9" then
		if purpose == "decade" then
			greek = "qoppa-"
		elseif purpose == "unit" then
			greek = "theta-"
		end	
	elseif number == "0" then
		greek = ""
	elseif number == "-1" then
		greek = "omega-"
	end

	return greek
end

function p.num2greeklet(number)

	local greek
	
	if string.len(string.match(number, "(%d+)")) == 1 then
		greek = p.digit2greeklet(number, "unit")
	elseif string.len(string.match(number, "(%d+)")) == 2 then
		local unit = string.char(string.byte(number, 2))
		local decade = string.char(string.byte(number, 1))
		
		greek = p.digit2greeklet(decade, "decade") .. p.digit2greeklet(unit, "unit")
	end
	return greek
end

return p

Module:Infobox regtemp: Difference between revisions

Revision as of 08:01, 28 November 2025

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