Module:MOS tunings: Difference between revisions

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m Text formatting for ratios
Line 210: Line 210:
if #ji_ratios ~= 0 then
if #ji_ratios ~= 0 then
local ratios_as_text = jira.ratios_as_text(sorted_ji_ratios[i])
local ratios_as_text = jira.ratios_as_text(sorted_ji_ratios[i])
result = result .. string.format("|| %s", ratios_as_text)
result = result .. (ratios_as_text ~= "" and string.format("|| <small>%s</small>", ratios_as_text) or "|| ")
end
end

Revision as of 19:59, 31 August 2024

Module documentation[view] [edit] [history] [purge]
This module should not be invoked directly; use its corresponding template instead: Template:MOS tunings.

This module displays the cent values of a MOS scale's degrees under various tunings, or step ratios, as well as the nearest JI ratios represented by those scale degrees.

Introspection summary for Module:MOS tunings 
Functions provided (9)
Line Function Params
19 capitalize_first (text)
25 sort_step_ratios (step_ratios)
53 preprocess_step_ratios (step_ratios)
97 preprocess_ji_ratios (input_mos, modal_union, step_ratios, ji_ratios)
131 _mos_tunings (main) (input_mos, mos_prefix, mos_abbrev, step_ratios, ji_ratios)
224 parse_step_ratios (unparsed)
252 parse_ji_ratios (unparsed, equave_in_cents)
270 mos_tunings (invokable) (frame)
289 tester none
Lua modules required (6)
Variable Module Functions used
et Module:ET as_string
jira Module:JI ratios sort_by_closeness_to_cent_values
ratios_as_text
search_by_params
parse_search_params
parse_ratios
mos Module:MOS equave_to_cents
interval_to_cents
new
as_string
modal_union
mos_to_et
interval_to_et_steps
parse
tamnams Module:TAMNAMS find_step_ratio_range_for_ratio_pair
lookup_step_ratio
degree_quality
verify_prefix
verify_abbrev
tip Module:Template input parse parse_numeric_pairs
yesno Module:Yesno yesno

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


local mos = require("Module:MOS")
local tamnams = require("Module:TAMNAMS")
local et = require("Module:ET")
local yesno = require("Module:Yesno")
local tip = require("Module:Template input parse")
local jira = require("Module:JI ratios")
local p = {}

-- Rewritten/simplified module replacement for Module:MOS degrees
-- A new template is chosen because it's a better name than the old one and is
-- far easier to maintain than the old one.

-- TODO:
-- Reinstate return-nil functionality for TIP
-- - Diatonic interval category lookup?

-- Helper function
-- Capitalizes the first character of a string
function p.capitalize_first(text)
	return string.upper(string.sub(text, 1, 1)) .. string.sub(text, 2, -1)
end

-- Helper function
-- Sorts step ratios L:s by their hardnesses
function p.sort_step_ratios(step_ratios)
	if #step_ratios < 2 then
		return step_ratios
	end
	
	-- Sort using selection sort, which is ok for smol datasets.
	for i = 1, #step_ratios - 1 do
		local index_of_smallest = i
		local current_val = step_ratios[i][1] / step_ratios[i][2]
		
		-- Find the ratio with the smallest hardness
		for j = i + 1, #step_ratios do
			if (step_ratios[j][1] / step_ratios[j][2] < current_val) then
				index_of_smallest = j
			end
		end
		
		if index_of_smallest ~= i then
			local temp = step_ratios[index_of_smallest]
			step_ratios[index_of_smallest] = step_ratios[i]
			step_ratios[i] = temp
		end
	end
	return step_ratios
end

-- Helper function
-- Finds the step ratio range and sorts step ratios
function p.preprocess_step_ratios(step_ratios)
	local step_ratios = p.sort_step_ratios(step_ratios)
	local step_ratio_range = ""
	
	-- If the step ratios are 3/2, 2/1, and 3/1 in that order, then they are
	-- the simple step ratios: basic, hard, and soft.
	-- These should not be sorted, since the basic-hard-soft sorting is a little
	-- more intuitive than sorting by hardness.
	if #step_ratios == 3 then
		if step_ratios[1][1] == 3 and step_ratios[1][2] == 2
			and step_ratios[2][1] == 2 and step_ratios[2][2] == 1
			and step_ratios[3][1] == 3 and step_ratios[3][2] == 1 then
			return "Simple Tunings", {{2,1}, {3,1}, {3,2}}
		end
	end
	
	-- If there are multiple step ratios, find the step ratio range it
	-- corresponds to. If there is one step ratio, find the name of that
	-- hardness. If there are zero step ratios, then return "Tunings"
	if #step_ratios > 1 then
		local lower_ratio = step_ratios[1]
		local upper_ratio = step_ratios[#step_ratios]
		
		step_ratio_range = tamnams.find_step_ratio_range_for_ratio_pair(lower_ratio, upper_ratio)
		if step_ratio_range ~= nil then
			step_ratio_range = p.capitalize_first(step_ratio_range) .. " Tunings"
		else
			step_ratio_range = "Tunings"
		end
	elseif #step_ratios == 1 then
		step_ratio_range = tamnams.lookup_step_ratio(step_ratios[1])
		if step_ratio_range ~= nil then
			step_ratio_range = p.capitalize_first(step_ratio_range) .. " Tuning"
		else
			step_ratio_range = string.format("%s/%s", step_ratios[1][1], step_ratios[1][2]) .. " Tuning"
		end
	else
		step_ratio_range = "Tunings"
	end
	
	return step_ratio_range, step_ratios
end

-- Preprocess step ratios
function p.preprocess_ji_ratios(input_mos, modal_union, step_ratios, ji_ratios)

	-- Calculate the avegrage step ratio, then normalize it to x:1
	local avg_step_ratio = {0, 0}
	for i = 1, #step_ratios do
		avg_step_ratio[1] = avg_step_ratio[1] + step_ratios[i][1]
		avg_step_ratio[2] = avg_step_ratio[2] + step_ratios[i][2]
	end
	avg_step_ratio[1] = avg_step_ratio[1] / #step_ratios
	avg_step_ratio[2] = avg_step_ratio[2] / #step_ratios

	avg_step_ratio[1] = avg_step_ratio[1] / avg_step_ratio[2]
	avg_step_ratio[2] = avg_step_ratio[2] / avg_step_ratio[2]
	
	-- Calculate the tolerance, the range in which ratios can be accepted +/-
	-- from an et-step. (ET may be a non-integer value, since the L:s ratio is
	-- normalized to x:1.)
	-- Tolerance is how many cents away from an et-step a ratio can be. This is
	-- 30% of the small step size, and maxes out at 30 cents.
	local steps_in_et = input_mos.nL * avg_step_ratio[1] + input_mos.ns * avg_step_ratio[2]
	local tolerance = math.min((mos.equave_to_cents(input_mos) / steps_in_et) * 0.30, 30)
	
	-- Calculate the cent values for each interval in the modal union
	local cent_values = {}
	for i = 1, #modal_union do
		table.insert(cent_values, mos.interval_to_cents(modal_union[i], input_mos, avg_step_ratio))
	end
	
	local sorted_ratios = jira.sort_by_closeness_to_cent_values(ji_ratios, cent_values, tolerance)
	
	return sorted_ratios, string.format("Ratios within %.1f of the averaged scale degrees are shown.", tolerance)
end

-- Main function
function p._mos_tunings(input_mos, mos_prefix, mos_abbrev, step_ratios, ji_ratios)
	local input_mos = input_mos or mos.new(5,2)
	local mos_prefix = mos_prefix or "mos"
	local mos_abbrev = mos_abbrev or "m"
	local step_ratios = step_ratios or {{2,1}, {3,1}, {3,2}}
	local ji_ratios = ji_ratios or {}
	
	-- Scalesig
	local scale_sig = mos.as_string(input_mos)
	
	-- Sort/preprocess step ratios
	local step_ratio_range = ""
	step_ratio_range, step_ratios = p.preprocess_step_ratios(step_ratios)
	
	-- Preprocess JI ratios
	local modal_union = mos.modal_union(input_mos)
	local sorted_ji_ratios, search_info = p.preprocess_ji_ratios(input_mos, modal_union, step_ratios, ji_ratios)
	
	-- Create table
	local result = "{| class=\"wikitable sortable right-all left-1 left-2\"\n"
	
	-- Table caption
	result = result	.. string.format("|+ style=\"font-size: 105%%; white-space: nowrap;\" | %s of %s\n", step_ratio_range, scale_sig)
	
	-- First row of headers
	-- First two headers span two rows
	result = result .. "! rowspan=\"2\" class=\"unsortable\" | Scale degree\n"
	result = result .. "! rowspan=\"2\" class=\"unsortable\" | Abbrev.\n"
	
	-- Headers for tunings; these span two cols
	for i = 1, #step_ratios do
		local step_ratio_as_text = tamnams.lookup_step_ratio(step_ratios[i])
		if step_ratio_as_text == nil then
			step_ratio_as_text = string.format("%s:%s", step_ratios[i][1], step_ratios[i][2])
		else
			step_ratio_as_text = p.capitalize_first(step_ratio_as_text) .. string.format(" (%s:%s)", step_ratios[i][1], step_ratios[i][2])
		end
		
		local et_as_string = et.as_string(mos.mos_to_et(input_mos, step_ratios[i]))
		local header_text = string.format("%s<br>[[%s]]", step_ratio_as_text, et_as_string)
		result = result .. string.format("! colspan=\"2\" | %s\n", header_text)
	end
	
	-- Headers for JI ratios; this spans two rows
	if #ji_ratios ~= 0 then
		result = result .. "! rowspan=\"2\" class=\"unsortable\" | Approx.<br>Ratios\n"
	end
	result = result .. "|-\n"
	
	-- Second row of headers
	for i = 1, #step_ratios do
		result = result .. "! Steps\n"
		result = result .. "! Cents\n"
	end
	
	-- Add a row for each scale degree
	for i = 1, #modal_union do
		local interval = modal_union[i]
		
		-- Add cells for the degree names
		local degree_name   = tamnams.degree_quality(interval, input_mos, "sentence-case", mos_prefix)
		local degree_abbrev = tamnams.degree_quality(interval, input_mos, "abbrev"       , mos_abbrev)
		
		result = result
			.. "|-\n"
			.. string.format("| %s || %s", degree_name, degree_abbrev)
	
		-- Add cells for each interval's tunings
		for j = 1, #step_ratios do
			local step_ratio = step_ratios[j]
			local step_count = mos.interval_to_et_steps(interval, step_ratio)
			local cents = mos.interval_to_cents(interval, input_mos, step_ratio)
			
			result = result
				.. " "
				.. string.format("|| %s\\%s || %.1f", step_count, input_mos.nL * step_ratio[1] + input_mos.ns * step_ratio[2], cents)
		end
		
		-- Add cells for JI ratios
		if #ji_ratios ~= 0 then
			local ratios_as_text = jira.ratios_as_text(sorted_ji_ratios[i])
			result = result .. (ratios_as_text ~= "" and string.format("|| <small>%s</small>", ratios_as_text) or "|| ")
		end
		
		result = result .. "\n"
	end
	
	-- End of table
	result = result .. "|}\n" .. search_info
	
	return result
end

function p.parse_step_ratios(unparsed)
	local parsed = {}
	if unparsed == "" or unparsed == "Simple Tunings" then
		parsed = {{2,1}, {3,1}, {3,2}}		-- Default is the simple step ratios
	elseif unparsed == "NONE" then
		parsed = {}
	elseif unparsed == "Central Spectrum" then
		parsed = {{4,3}, {3,2}, {5,3}, {2,1}, {5,2}, {3,1}, {4,1}}
	elseif unparsed == "Soft-of-basic" then
		parsed = {{4,3}, {3,2}, {2,1}}
	elseif unparsed == "Hyposoft" then
		parsed = {{3,2}, {5,3}, {2,1}}
	elseif unparsed == "Hypohard" then
		parsed = {{2,1}, {5,2}, {3,1}}
	elseif unparsed == "Hard-of-basic" then
		parsed = {{2,1}, {3,1}, {4,1}}
	else
		parsed = tip.parse_numeric_pairs(unparsed)
	end
	return parsed
end

-- Parse JI ratios passed into template
-- If the unparsed string corresponds to a list of JI ratios ("a/b; c/d; e/f"),
-- then parse it as a list of ratios. If it's not that, parse it as search
-- params. If the text is "NONE", then there should be no ratios passed in.
-- If the unparsed string is an empty string, return nil. (This is so the
-- wrapper function can go by default search params.)
function p.parse_ji_ratios(unparsed, equave_in_cents)
	local parsed = nil
	
	if unparsed == "" then
		parsed = jira.search_by_params({["Int Limit"] = 32, ["Tenney Height"] = 8.5, ["Prime Limit"] = 19}, equave_in_cents)		-- Default search params, given no other params
	elseif unparsed == "NONE" then
		parsed = {}
	elseif string.match(unparsed, "Int Limit:") then
		local search_params = jira.parse_search_params(unparsed)	-- Search params require at the absolute least an int limit, so see if there's "Int Limit"
		parsed = jira.search_by_params(search_params, equave_in_cents)
	else
		parsed = jira.parse_ratios(unparsed)
	end
	
	return parsed
end

-- Wrapper function; to be called by template
function p.mos_tunings(frame)
	-- Get params
	local scalesig    = frame.args["Scale Signature"]
	local input_mos = mos.parse(scalesig)
	local equave_in_cents = mos.equave_to_cents(input_mos)
	
	local mos_prefix  = frame.args["MOS Prefix"]
	local mos_abbrev  = frame.args["MOS Abbrev"]
	local collapsed   = yesno(frame.args["Collapsed"], false)		-- Currently does nothing
	local step_ratios = p.parse_step_ratios(frame.args["Step Ratios"])
	local ji_ratios   = p.parse_ji_ratios(frame.args["JI Ratios"], equave_in_cents)

	-- Verify name/prefix/abbrev
	mos_prefix = tamnams.verify_prefix(input_mos, mos_prefix)
	mos_abbrev = tamnams.verify_abbrev(input_mos, mos_abbrev)

	return p._mos_tunings(input_mos, mos_prefix, mos_abbrev, step_ratios, ji_ratios)
end

function p.tester()
	local range, ratios = p.preprocess_step_ratios({ {7,1}, {3,1}, {2,1} })
	local input_mos = mos.parse("9L 4s<7/2>")
	
	--return p.preprocess_ji_ratios(input_mos, mos.modal_union(input_mos), {{2,1}, {3,2}, {5,3}}, ji_ratios)
	--return ji_ratios
	return p._mos_tunings(input_mos)
end

return p