Module:MOS intervals: Difference between revisions

Latest revision as of 22:12, 7 October 2025

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

This module generates a table showing interval varieties and qualities for a given MOS scale.

Introspection summary for Module:MOS intervals

Functions provided (3)
Line	Function	Params
45	`lookup_interval_range`	`(cents)`
55	`_mos_intervals` (main)	`(args)`
160	`mos_intervals` (invokable)	`(frame)`

Lua modules required (5)
Variable	Module	Functions used
getArgs	Module:Arguments	`getArgs`
mos	Module:MOS	`new` `as_string` `mode_to_step_matrix` `brightest_mode` `darkest_mode` `equave_step_count` `period_step_count` `bright_gen_step_count` `dark_gen_step_count` `interval_eq` `interval_to_cents` `interval_as_string` `parse`
rat	Module:Rational	dependency not used
tamnams	Module:TAMNAMS	`interval_quality` `verify_prefix` `verify_abbrev`
yesno	Module:Yesno	`yesno`

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

local p = {}

local getArgs = require("Module:Arguments").getArgs
local mos = require("Module:MOS")
local rat = require("Module:Rational")
local tamnams = require("Module:TAMNAMS")
local yesno = require("Module:Yesno")

-- -- TODO:
-- - (High priority): Refactor code so instead of string concatenation, lines
--   are appended to a table, where table.concat() is called at the end.

-- EXPERIMENTAL FEATURE: lookup table for intervals
-- Mostly based off Margo Schulter's categories (without large/medium/small),
-- but other interpretations are possible. Plus, this only goes up to 1200c.
p.interval_ranges = {
    { name = "Pure unison (1:1)"        , range = {   0,    0} },
    { name = "Comma/diesis"             , range = {   0,   60} },
    { name = "Minor second"             , range = {  60,  125} },
    { name = "Neutral second"           , range = { 125,  170} },
    { name = "Major second"             , range = { 180,  240} },
    { name = "Interseptimal (Maj2-min3)", range = { 240,  260} },
    { name = "Minor third"              , range = { 260,  330} },
    { name = "Neutral third"            , range = { 330,  372} },
    { name = "Major third"              , range = { 372,  440} },
    { name = "Interseptimal (Maj3-4)"   , range = { 440,  468} },
    { name = "Perfect fourth"           , range = { 468,  528} },
    { name = "Superfourth"              , range = { 528,  560} },
    { name = "Tritonic region"          , range = { 560,  640} },
    { name = "Subfifth"                 , range = { 640,  672} },
    { name = "Perfect fifth"            , range = { 672,  732} },
    { name = "Interseptimal (5-min6)"   , range = { 732,  760} },
    { name = "Minor sixth"              , range = { 760,  828} },
    { name = "Neutral sixth"            , range = { 828,  870} },
    { name = "Major sixth"              , range = { 870,  940} },
    { name = "Interseptimal (Maj6-min7)", range = { 940,  960} },
    { name = "Minor seventh"            , range = { 960, 1020} },
    { name = "Neutral seventh"          , range = {1030, 1075} },
    { name = "Major seventh"            , range = {1075, 1140} },
    { name = "Octave less comma/diesis" , range = {1140, 1200} },
    { name = "Pure octave (2:1)"        , range = {1200, 1200} }
}

-- EXPERIMENTAL FEATURE: interval lookup function
function p.lookup_interval_range(cents)
    for _, interval in ipairs(p.interval_ranges) do
        if cents >= interval.range[1] and cents <= interval.range[2] then
            return interval.name
        end
    end
    return "Out of range"
end

-- Main function; to be called by wrapper
function p._mos_intervals(args)
	-- Default param for input mos is 5L 2s
	local input_mos    = args["Input MOS"   ] or mos.new(5, 2, 2)
	local mos_prefix   = args["MOS Prefix"  ] or "mos"
	local mos_abbrev   = args["MOS Abbrev"  ] or "m"
	local is_collapsed = args["Is Collapsed"] == true
	local show_inregs  = false
	
	-- Get the scale sig
	local scale_sig = mos.as_string(input_mos)
	
	-- Get the brightest and darkest modes as step matrices
	local bright_step_matrix = mos.mode_to_step_matrix(mos.brightest_mode(input_mos))
	local dark_step_matrix = mos.mode_to_step_matrix(mos.darkest_mode(input_mos))
	
	-- Get the number of steps per period and equave
	local equave_step_count = mos.equave_step_count(input_mos)
	local period_step_count = mos.period_step_count(input_mos)
	
	-- Get the step counts for the bright and dark generators
	local bright_gen_step_count = mos.bright_gen_step_count(input_mos)
	local dark_gen_step_count = mos.dark_gen_step_count(input_mos)
	
	-- Create the table
	local result = '{| class="wikitable mw-collapsible' .. (is_collapsed and ' mw-collapsed"\n' or '"\n')
	
	-- Create table title
	result = result
		.. '|+ style="font-size: 105%; white-space: nowrap;" | ' .. string.format('Intervals of %s', scale_sig) .. '\n'
		.. '|-\n'
		
	-- Create table headers
	result = result
		.. '! colspan="3" | Intervals\n'
		.. '! rowspan="2" | Steps<br />subtended\n'
		.. '! rowspan="2" | Range in cents\n'
		.. '|-\n'	-- Start of second row of header cells
		.. '! Generic\n'
		.. '! Specific\n'
		.. '! Abbrev.\n'
		.. (show_inregs and '! Interval Regions\n' or '')

	-- Write each row
	for i = 1, #bright_step_matrix do
		-- Compare the bright and dark intervals. If they're the same, then the
		-- current interval class is a period interval.
		local current_bright_interval = bright_step_matrix[i]
		local current_dark_interval = dark_step_matrix[i]
		local is_period = mos.interval_eq(current_bright_interval, current_dark_interval)
		
		-- If it's a period interval, then there is only one row to write.
		-- Otherwise, there are two rows to write, one for each size.
		if is_period then
			local cents = mos.interval_to_cents(current_bright_interval, input_mos, {1, 1})
			local cents_formatted = string.format("%.1f{{c}}", cents)
			
			result = result
				.. "|-\n"
				.. "| '''" .. i-1 .. "-" .. mos_prefix .. "step'''\n"
				.. "| " .. tamnams.interval_quality(current_bright_interval, input_mos, "sentence-case", mos_prefix) .. "\n"
				.. "| " .. tamnams.interval_quality(current_bright_interval, input_mos, "abbrev"       , mos_abbrev) .. "\n"
				.. "| <span style=\"white-space: nowrap;\">" .. mos.interval_as_string(current_bright_interval) .. "</span>\n"
				.. "| " .. cents_formatted .. "\n"
				.. (show_inregs and string.format("| %s\n", p.lookup_interval_range(cents)) or "")
		else
			-- Calculate the cent values min and max for the current intervals
			local sm_min_cents = mos.interval_to_cents(current_dark_interval, input_mos, {1,1})
			local sm_max_cents = mos.interval_to_cents(current_dark_interval, input_mos, {1,0})
			local lg_min_cents = mos.interval_to_cents(current_bright_interval, input_mos, {1,1})
			local lg_max_cents = mos.interval_to_cents(current_bright_interval, input_mos, {1,0})
			
			-- Then sort, as the min and max may be swapped 
			-- This happens if the dark interval has more small steps than large steps
			local sm_min_sorted = math.min(sm_min_cents, sm_max_cents)
			local sm_max_sorted = math.max(sm_min_cents, sm_max_cents)
			local lg_min_sorted = math.min(lg_min_cents, lg_max_cents)
			local lg_max_sorted = math.max(lg_min_cents, lg_max_cents)
			
			-- Produce text ranges for intervals
			local dark_interval_range   = string.format("%.1f{{c}} to %.1f{{c}}", sm_min_sorted, sm_max_sorted)
			local bright_interval_range = string.format("%.1f{{c}} to %.1f{{c}}", lg_min_sorted, lg_max_sorted)
	
			result = result
				.. "|-\n"
				.. '| rowspan="2" | ' .. i-1 .. '-' .. mos_prefix .. 'step\n'
				.. "| " .. tamnams.interval_quality(current_dark_interval, input_mos, "sentence-case", mos_prefix) .. "\n"
				.. "| " .. tamnams.interval_quality(current_dark_interval, input_mos, "abbrev"       , mos_abbrev) .. "\n"
				.. "| <span style=\"white-space: nowrap;\">" .. mos.interval_as_string(current_dark_interval) .. "</span>\n"
				.. "| " .. dark_interval_range .. "\n"
				.. (show_inregs and string.format("| %s to %s\n", p.lookup_interval_range(sm_min_sorted), p.lookup_interval_range(sm_max_sorted)) or "")
				.. "|-\n"
				.. "| " .. tamnams.interval_quality(current_bright_interval, input_mos, "sentence-case", mos_prefix) .. "\n"
				.. "| " .. tamnams.interval_quality(current_bright_interval, input_mos, "abbrev"       , mos_abbrev) .. "\n"
				.. "| <span style=\"white-space: nowrap;\">" .. mos.interval_as_string(current_bright_interval) .. "</span>\n"
				.. "| " .. bright_interval_range .. "\n"
				.. (show_inregs and string.format("| %s to %s\n", p.lookup_interval_range(lg_min_sorted), p.lookup_interval_range(lg_max_sorted)) or "")
		end
		
	end
	result = result .. "|}"

	return result
end

-- Wrapper function; to be called by template
function p.mos_intervals(frame)
	local args = getArgs(frame)
	
	-- Preprocess scalesig into input mos
	local input_mos = mos.parse(args["Scale Signature"])
	args["Input MOS"] = input_mos
	args["Scale Signature"] = nil

	-- Preprocess collapse option
	args["Collapsed"] = yesno(args["Collapsed"], false)
	
	-- EXPERIMENTAL: option to show interval regions
	args["Show Interval Regions"] = yesno(args["Show Interval Regions"], false)
	
	-- Preprocess (verify) prefix/abbrev
	args["MOS Prefix"] = tamnams.verify_prefix(input_mos, args["MOS Prefix"])
	args["MOS Abbrev"] = tamnams.verify_abbrev(input_mos, args["MOS Abbrev"])

	local result = p._mos_intervals(args)
	local debugg = yesno(args["debug"])
	
	-- Debugger option
	if debugg == true then
		result = "<syntaxhighlight lang=\"wikitext\">" .. result .. "</syntaxhighlight>"
	end
	
	return frame:preprocess(result)
end

return p

Module:MOS intervals: Difference between revisions

Latest revision as of 22:12, 7 October 2025

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