Module:Infobox MOS: Difference between revisions

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local p = {}

~~local utils = require('Module:Utils')~~

~~local rat = require('Module:Rational')~~

~~local mos = require('Module:MOS')~~

~~local et = require('Module:ET')~~

~~--local xp = require('Module:Xenpaper') -- No xenpaper links for now~~

~~local infobox = require('Module:Infobox')~~

local ~~common_suffix~~ = {

local getArgs = require("Module:Arguments").getArgs

~~['3/2']~~ = ~~'f',~~

local ib = require("Module:Infobox")

~~['2']~~ = ~~'o',~~

local kbvis = require("Module:Keyboard vis")

~~['2/1']~~ = ~~'o',~~

local mos = require("Module:MOS")

~~['3']~~ = ~~'t',~~

local tamnams = require("Module:TAMNAMS")

~~['3/1']~~ = ~~'t',~~

local tip = require("Module:Template input parse")

}

local xp = require("Module:Xenpaper")

local yesno = require("Module:Yesno")

local ~~common_ratio~~ = {

-- TODO: REWRITE. REFACTOR. AGAIN.

['f'] = ~~rat~~.new(3, 2),

~~['o']~~ = 2,

-- TODO: bugfix tamnams lookup breaking for mosses with 5 steps or less; interim

[~~'t'~~] = 3,

-- fix currently implemented shows smaller mosses as descending from itself.

}

-- Helper function

-- Concatenates the contents of two tables into one

-- This doesn't have a return value; rather, the first table passed has the

-- second table's contents added to it.

function p.concatenate_tables(t1, t2)

for i=1, #t2 do

t1[#t1 + 1] = t2[i]

end

-- Helper function

-- Annotates a section header with the equave as superscript text.

function p.annotate_section_header(input_mos, section_header)

local et_suffix = mos.et_suffix(input_mos)

return (et_suffix == "edo"

and string.format('<div style=\"margin-top: 0.6em;\"><b>%s</b></div>', section_header)

or string.format('<div style=\"margin-top: 0.6em;\"><b>%s</b><sup><abbr title=\"In steps of %s\">(%s)</sup></div>', section_header, et_suffix, et_suffix)

)

end

-- Helper function

-- Create a keyboard visualization, based on the Halberstadt keyboard layout

function p.kb_vis(input_mos)

local input_mos = input_mos or mos.new(5, 2)

local brightest_mode = mos.brightest_mode(input_mos)

local vis = ""

if input_mos.nL + input_mos.ns < 40 then

vis = kbvis.vis_small(brightest_mode)

end

return {{["Header"] = vis}}

end

-- Helper function

-- Adds categories

function p.categorize(~~tuning~~)

function p.categorize(input_mos)

local ~~tuning~~ = ~~tuning~~ or ~~"5L 2s"~~

local input_mos = input_mos or mos.new(5, 2)

~~local input_mos =~~ mos.~~parse~~(~~tuning~~)

-- Add to category of abstact mosses

local categories = "[[Category:Abstract MOS patterns]]"

local categories = " [[Category:Abstract MOS patterns]]"

~~-- Add tuning category~~

~~--categories = categories .. string.format('[[Category:%s]]', tuning)~~

-- Add notecount category if the notecount is greater than 3

local notecount = input_mos.nL + input_mos.ns

if notecount > 3 then

categories = categories .. string.format('[[Category:%d-tone scales]]', notecount)

categories = categories .. string.format(" [[Category:%d-tone scales]]", notecount)

end

-- If the mos is octave-equivalent, add appropriate tamnams-named categories

-- Otherwise, add to nonoctave category

if ~~rat~~.eq(input_mos~~.equave, rat.new(2)~~) then

if mos.is_octave_equivalent(input_mos) then

-- Caveats:

-- - Only octave-equivalent mos names are used as categories.

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-- - Mosses whose notecounts > 10 and periods < 5 are categorized under

-- the closest tamnams-named ancestor.

~~-- - Monolarge scales aren't categorized for they're all related to one~~

local ancestor_mos = tamnams.find_ancestor(input_mos)

~~-- another. (For now.)~~

local tamnams_name = tamnams.lookup_name(ancestor_mos)

~~-- - Monosmall descendants that descend from 1L 9s aren't categorized~~

~~-- for now.~~

local ancestor_mos = ~~mos~~.find_ancestor(input_mos)

local tamnams_name = ~~mos~~.~~tamnams_name[mos.as_string~~(ancestor_mos)]

~~if tamnams_name == "arch(a)eotonic" then~~

~~tamnams_name = "archaeotonic"~~

~~end~~

if tamnams_name ~= nil then

categories = categories .. string.format('[[Category:%s]]', tamnams_name)

categories = categories .. string.format(" [[Category:%s]]", tamnams_name)

end

else

categories = categories .. '[[Category:Nonoctave]]'

categories = categories .. " [[Category:Nonoctave]]"

end

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-- Creates adjacent links for mos, found by +/-1 large or +/- small steps

function p.adjacent_links(input_mos)

local input_mos = input_mos or mos.new(5, 2)

local input_mos = input_mos or mos.new(1, 1)

local ~~long_equave_as_text~~ = ""

local adjacent_mosses = {

~~local equave_as_text = ""~~

mos.new(input_mos.nL - 1, input_mos.ns - 1, input_mos.equave), -- UL

~~if not rat~~.eq(input_mos.equave, 2) ~~then~~

mos.new(input_mos.nL , input_mos.ns - 1, input_mos.equave), -- U

~~long_equave_as_text = string~~.~~format~~(" (%s-~~equivalent~~)", ~~rat~~.~~as_ratio~~(input_mos.equave))

mos.new(input_mos.nL + 1, input_mos.ns - 1, input_mos.equave), -- UR

~~equave_as_text = string~~.~~format~~(~~"⟨%s⟩"~~, ~~rat~~.~~as_ratio(~~input_mos.equave))

mos.new(input_mos.nL - 1, input_mos.ns , input_mos.equave), -- L

~~end~~

mos.new(input_mos.nL + 1, input_mos.ns , input_mos.equave), -- R

mos.new(input_mos.nL - 1, input_mos.ns + 1, input_mos.equave), -- DL

mos.new(input_mos.nL , input_mos.ns + 1, input_mos.equave), -- D

mos.new(input_mos.nL + 1, input_mos.ns + 1, input_mos.equave), -- DR

}

local adjacent_links = {

string.format("[[~~%dL %ds~~%s | ~~↖%dL %ds~~%s]]", ~~input_mos~~.~~nL-~~1, ~~input_mos.ns-1, long_equave_as_text~~, ~~input_mos~~.~~nL-~~1, ~~input_mos.ns-1, equave_as_text~~),

mos.is_valid(adjacent_mosses[1]) and string.format("[[%s|↖ %s]]", mos.as_long_string(adjacent_mosses[1], false), mos.as_string(adjacent_mosses[1]), true) or "",

string.format("[[~~%dL %ds~~%s | ~~↑%dL %ds~~%s]]", ~~input_mos~~.nL , ~~input_mos.ns-1, long_equave_as_text~~, ~~input_mos~~.nL , ~~input_mos.ns-1, equave_as_text~~),

mos.is_valid(adjacent_mosses[2]) and string.format("[[%s|↑ %s]]", mos.as_long_string(adjacent_mosses[2], false), mos.as_string(adjacent_mosses[2]), true) or "",

string.format("[[~~%dL %ds~~%s | %~~dL %ds%s↗~~]]", ~~input_mos~~.~~nL+1~~, ~~input_mos.ns-1, long_equave_as_text~~, ~~input_mos~~.~~nL+1~~, ~~input_mos.ns-1, equave_as_text~~),

mos.is_valid(adjacent_mosses[3]) and string.format("[[%s|%s ↗]]", mos.as_long_string(adjacent_mosses[3], false), mos.as_string(adjacent_mosses[3]), true) or "",

string.format("[[~~%dL %ds~~%s | ~~←%dL %ds~~%s]]", ~~input_mos~~.~~nL-1~~, ~~input_mos.ns , long_equave_as_text~~, ~~input_mos~~.~~nL-1~~, ~~input_mos.ns , equave_as_text~~),

mos.is_valid(adjacent_mosses[4]) and string.format("[[%s|← %s]]", mos.as_long_string(adjacent_mosses[4], false), mos.as_string(adjacent_mosses[4]), true) or "",

string.format("[[~~%dL %ds~~%s | %~~dL %ds%s→~~]]", ~~input_mos~~.~~nL+1~~, ~~input_mos.ns~~ , ~~long_equave_as_text, input_mos~~.~~nL+1~~, ~~input_mos.ns , equave_as_text~~),

mos.is_valid(adjacent_mosses[5]) and string.format("[[%s|%s →]]", mos.as_long_string(adjacent_mosses[5], false), mos.as_string(adjacent_mosses[5]), true) or "",

string.format("[[~~%dL %ds~~%s | ~~↙%dL %ds~~%s]]", ~~input_mos~~.~~nL-1~~, ~~input_mos.ns+1, long_equave_as_text~~, ~~input_mos~~.~~nL-1~~, ~~input_mos.ns+1, equave_as_text~~),

mos.is_valid(adjacent_mosses[6]) and string.format("[[%s|↙ %s]]", mos.as_long_string(adjacent_mosses[6], false), mos.as_string(adjacent_mosses[6]), true) or "",

string.format("[[~~%dL %ds~~%s | ~~↓%dL %ds~~%s]]", ~~input_mos~~.nL , ~~input_mos.ns+1, long_equave_as_text~~, ~~input_mos~~.nL , ~~input_mos.ns+1, equave_as_text~~),

mos.is_valid(adjacent_mosses[7]) and string.format("[[%s|↓ %s]]", mos.as_long_string(adjacent_mosses[7], false), mos.as_string(adjacent_mosses[7]), true) or "",

string.format("[[~~%dL %ds~~%s | %~~dL %ds%s↘~~]]", ~~input_mos~~.~~nL+1~~, ~~input_mos.ns+1, long_equave_as_text~~, ~~input_mos~~.~~nL+1~~, ~~input_mos.ns+1, equave_as_text~~),

mos.is_valid(adjacent_mosses[8]) and string.format("[[%s|%s ↘]]", mos.as_long_string(adjacent_mosses[8], false), mos.as_string(adjacent_mosses[8]), true) or ""

}

~~for i = 1, #adjacent_links do~~

~~local gcd = utils._gcd(input_mos.nL, input_mos.ns)~~

~~local is_null_large = string.find(adjacent_links[i], "0L") and input_mos.nL == gcd~~

~~local is_null_small = string.find(adjacent_links[i], "0s") and input_mos.ns == gcd~~

~~if is_null_large or is_null_small then~~

~~adjacent_links[i] = ""~~

~~end~~

return adjacent_links

end

-- TODO: Cleanup and adopt mos functions

-- Helper function

-- Produces section entries for scale sturcture

-- Section is returned as a jagged array and return value must be merged into

-- a larger array.

function p.scale_structure(input_mos)

local input_mos = input_mos or mos.new(5, ~~5, 3~~)

local input_mos = input_mos or mos.new(5, 2)

local ~~equave_as_text~~ = ~~rat~~.~~as_ratio~~(input_mos~~.equave~~)

local equave_as_string = mos.equave_as_string(input_mos)

local equave_in_cents = ~~rat~~.~~cents~~(input_mos~~.equave~~)

local equave_in_cents = mos.equave_to_cents(input_mos)

local number_of_periods = ~~utils~~.~~_gcd~~(input_mos~~.nL, input_mos.ns~~)

local number_of_periods = mos.period_count(input_mos)

local ~~period_as_text~~ = ""

local period_as_string = ""

if number_of_periods == 1 then

~~period_as_text~~ = ~~equave_as_text~~

period_as_string = equave_as_string

else

~~local equave_suffix~~ = ~~common_suffix[equave_as_text] or equave_as_text~~

period_as_string = mos.reduced_period_to_et_string(input_mos, "")

~~period_as_text = string~~.~~format~~("~~1\\%ded%s~~"~~, number_of_periods, equave_suffix~~)

end

local period_in_cents = equave_in_cents / number_of_periods

local ~~scale_structure~~ = {

local step_pattern = string.format("...%d steps...", input_mos.nL + input_mos.ns)

{"Brightest mode", ~~mos~~.brightest_mode(~~input_mos~~)},

if input_mos.nL + input_mos.ns <= 40 then

{"[[Equave]] ~~(cents)~~", string.format("%s (%.~~1f¢~~)", ~~equave_as_text~~, equave_in_cents)},

local brightest_mode = mos.brightest_mode(input_mos)

{"[[Period]] ~~(cents)~~", string.format("%s (%.~~1f¢~~)", ~~period_as_text~~, period_in_cents)}

step_pattern = string.format("<abbr title=\"Brightest mode\">%s</abbr><br /><abbr title=\"Darkest mode\">%s</abbr>", brightest_mode, string.reverse(brightest_mode))

end

local section_header = "Scale structure"

local section_entries = {

{ ["Header"] = string.format("<div style=\"margin-top: 0.6em;\"><b>%s</b></div>", section_header)},

{ ["Header"] = "[[Step pattern]]", ["Data"] = step_pattern},

{ ["Header"] = "[[Equave]]" , ["Data"] = string.format("%s (%.1f{{c}})", equave_as_string, equave_in_cents) },

{ ["Header"] = "[[Period]]" , ["Data"] = string.format("%s (%.1f{{c}})", period_as_string, period_in_cents) }

}

return ~~scale_structure~~

return section_entries

end

-- Helper function

-- Produces generator ranges for scale

function p.~~generator_ranges~~(input_mos)

-- Section is returned as a jagged array and return value must be merged into

local input_mos = input_mos or mos.new(5, 2)

-- a larger array.

function p.generator_sizes(input_mos)

local input_mos = input_mos or mos.new(5, 2,3)

local bright_min_in_steps = mos.bright_gen_to_et_string(input_mos, {1, 1}, "")

local bright_max_in_steps = mos.bright_gen_to_et_string(input_mos, {1, 0}, "")

local dark_min_in_steps = mos.dark_gen_to_et_string (input_mos, {1, 0}, "")

local dark_max_in_steps = mos.dark_gen_to_et_string (input_mos, {1, 1}, "")

local ~~number_of_periods~~ = ~~utils~~.~~_gcd~~(input_mos.nL, input_mos.ns)

local bright_min_in_cents = mos.bright_gen_to_cents(input_mos, {1, 1})

local bright_max_in_cents = mos.bright_gen_to_cents(input_mos, {1, 0})

local dark_min_in_cents = mos.dark_gen_to_cents(input_mos, {1, 0})

local dark_max_in_cents = mos.dark_gen_to_cents(input_mos, {1, 1})

local ~~bright_gen~~ = ~~mos~~.~~bright_gen~~(input_mos)

local section_header = p.annotate_section_header(input_mos, "Generator size")

local ~~dark_gen~~ = {

local section_entries = {

[~~'L'~~] = ~~input_mos.nL / number_of_periods - bright_gen~~[~~'L'~~],

{ ["Header"] = section_header},

[~~'s'~~] = ~~input_mos~~.~~ns / number_of_periods - bright_gen['~~s']

{ ["Header"] = "[[Bright]]", ["Data"] = string.format("%s to %s (%.1f{{c}} to %.1f{{c}})", bright_min_in_steps, bright_max_in_steps, bright_min_in_cents, bright_max_in_cents) },

{ ["Header"] = "[[Dark]]" , ["Data"] = string.format("%s to %s (%.1f{{c}} to %.1f{{c}})", dark_min_in_steps, dark_max_in_steps, dark_min_in_cents, dark_max_in_cents) },

}

~~local equalized_ed = et~~.~~new~~(~~input_mos~~.nL ~~+ input_mos~~.~~ns,~~ input_mos~~.equave~~)

return section_entries

local ~~collapsed_ed~~ = et.new(~~input_mos.nL~~, ~~input_mos.equave~~)

end

-- Helper function

-- Produces section entries for tamnams info

-- Conditions for tamnams info inclusion:

-- - Scale is octave-equivalent.

-- - Scales within the "named range" (6-10 notes, or is 1L 1s or 2L 2s) have

-- a tamnams name.

-- - Scales with a notecount greater than 10 and no more than 5 periods have

-- a tamnams-named ancestor.

-- - Scales with a notecount greater than 10 and more than 5 periods don't have

-- a tamnams-named ancestor, but will report what nL ns mos they descend from.

-- Section is returned as a jagged array and return value must be merged into

-- a larger array.

function p.tamnams_information(input_mos)

local input_mos = input_mos or mos.new(6,6,3)

local ~~bright_min_in_steps~~ = et.~~backslash_display~~(~~equalized_ed, bright_gen['L'] + bright_gen['s']~~)

-- If a mos is octave-equivalent and has 10 or fewer steps, then it has a

local ~~bright_max_in_steps~~ = et.~~backslash_display~~(~~collapsed_ed, bright_gen['L']~~)

-- tamnams name/prefix/abbrev.

local ~~dark_min_in_steps~~ = et.~~backslash_display~~(~~collapsed_ed, dark_gen['L']~~)

-- If a mos is octave-equivalent, has more than 10 steps, and is not a root

local ~~dark_max_in_steps~~ = et.~~backslash_display~~(~~equalized_ed, dark_gen['L'] + dark_gen['s']~~)

-- mos nL ns, then:

-- - If it has 5 periods or less, then its closest ancestor has a tamnams

-- name.

-- - If it has more than 5 periods, then it relates to a root mos nL ns that

-- has more than 10 steps (ancestor therefore has no tamnams name).

-- If a mos is not octave-equivalent, then it may have a tamnams name (if

-- step count is 5 or less; currently unsupported) or not.

local is_octave_equivalent = mos.is_octave_equivalent(input_mos)

local has_tamnams_name = tamnams.lookup_name(input_mos) ~= nil

local is_within_named_range = mos.step_count(input_mos) <= 10

local is_within_period_count = mos.period_count(input_mos) <= 5

local is_root_mos = input_mos.nL == input_mos.ns

local ~~bright_min_in_cents~~ = et.~~cents~~(~~equalized_ed~~, ~~bright_gen~~[~~'L'~~] ~~+ bright_gen~~[~~'s'~~])

local section_header = "TAMNAMS information"

~~local bright_max_in_cents~~ = et.~~cents~~(~~collapsed_ed~~, ~~bright_gen~~[~~'L'~~])

local section_entries = nil

local ~~dark_min_in_cents~~ = et.~~cents~~(~~collapsed_ed~~, ~~dark_gen~~[~~'L'~~])

if is_octave_equivalent and has_tamnams_name then

local ~~dark_max_in_cents~~ = et.~~cents~~(~~equalized_ed~~, ~~dark_gen~~[~~'L'~~] ~~+ dark_gen~~[~~'s'~~])

section_entries = {

{ ["Header"] = string.format("<div style=\"margin-top: 0.6em;\"><b>%s</b></div>", section_header) },

{ ["Header"] = "[[TAMNAMS#Mos_pattern_names | Name]]" , ["Data"] = tamnams.lookup_name (input_mos) },

{ ["Header"] = "[[TAMNAMS#Mos_pattern_names | Prefix]]" , ["Data"] = tamnams.lookup_prefix(input_mos) .. "-" },

{ ["Header"] = "[[TAMNAMS#Mos_pattern_names | Abbrev.]]" , ["Data"] = tamnams.lookup_abbrev(input_mos) }

}

elseif is_octave_equivalent and not has_tamnams_name and not is_root_mos and not is_within_named_range then

-- Lookup closest named ancestor mos

local ancestor_mos, ratio_1, ratio_2, generations = tamnams.find_ancestor_info(input_mos)

-- Link to ancestor mos

local ancestor_link = mos.as_link(ancestor_mos)

-- Lookup step ratio range

local step_ratio_range = string.format("%s:%s to %s:%s", ratio_1[1], ratio_1[2], ratio_2[1], ratio_2[2])

local range_name = tamnams.lookup_step_ratio_range(ratio_1, ratio_2)

local step_ratio_range_entry = range_name == nil and step_ratio_range or string.format("%s (%s)", step_ratio_range, range_name)

local ancestor_name = tamnams.lookup_name(ancestor_mos)

local ancestor_entry = ancestor_name == nil and ancestor_link or string.format("%s (%s)", ancestor_link, ancestor_name)

section_entries = {

{ ["Header"] = string.format("<div style=\"margin-top: 0.6em;\"><b>%s</b></div>", section_header) },

{ ["Header"] = "Related to" , ["Data"] = ancestor_entry },

{ ["Header"] = "With tunings", ["Data"] = step_ratio_range_entry }

}

end

return {

return section_entries

~~{"[[Bright]]", string.format("%s (%.1f¢) to %s (%.1f¢)", bright_min_in_steps, bright_min_in_cents, bright_max_in_steps, bright_max_in_cents)},~~

~~{"[[Dark]]", string.format("%s (%.1f¢) to %s (%.1f¢)", dark_min_in_steps, dark_min_in_cents, dark_max_in_steps, dark_max_in_cents)},~~

}

end

-- Helper function

-- ~~Produces~~ section ~~entries~~ for ~~tamnams info~~

-- Adds a section for scale names

function p.~~tamnams_information~~(~~scalesig~~)

function p.other_names(other_names)

local ~~scalesig~~ = ~~scalesig~~ or "~~5L 2s~~"

local other_names = other_names or {"p-chromatic", "hard diatonic"}

local ~~tamnams_name~~ = ~~mos.tamnams_name[scalesig] or ""~~

local section_header = "Other names"

~~local tamnams_prefix = mos.tamnams_prefix[scalesig] or ""~~

~~local tamnams_abbrev = mos.tamnams_abbrev[scalesig] or~~ ""

if ~~tamnams_name~~ == "" then

if #other_names == 0 then

return nil

else

~~return {~~

local scale_names = ""

{"[~~[TAMNAMS~~#~~Mos_pattern_names | Name]]~~"~~, tamnams_name},~~

for i=1, #other_names do

{"~~[[TAMNAMS#Mos_pattern_names | Prefix]~~]", ~~tamnams_prefix~~},

scale_names = scale_names .. other_names[i]

{"~~[[TAMNAMS#Mos_pattern_names | Abbrev.]~~]", ~~tamnams_abbrev~~}

if i ~= #other_names then

}

scale_names = scale_names .. "<br />"

end

local section_entries = {

{ ["Header"] = string.format("<div style=\"margin-top: 0.6em;\"><b>%s</b></div>", section_header)},

{ ["Header"] = "Name(s)", ["Data"] = scale_names}

}

return section_entries

end

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-- Helper function

-- Produces section for related scales

-- Section is returned as a jagged array and return value must be merged into

-- a larger array.

function p.related_scales(input_mos)

local input_mos = input_mos or mos.new(5, 2)

local parent_mos = mos.~~new(math.min~~(input_mos~~.nL, input_mos.ns~~)~~, math~~.~~abs~~(input_mos~~.nL-input_mos.ns), input_mos.equave~~)

-- Produce the mos's relatives

~~local~~ soft_child_mos = mos.~~new~~(input_mos~~.nL+input_mos.ns, input_mos.nL, input_mos.equave~~)

local parent_mos, sister_mos, soft_child_mos, hard_child_mos, neutral_mos, soft_flought_mos, hard_flought_mos

~~local hard_child_mos~~ = mos.~~new~~(input_mos~~.nL, input_mos.nL+input_mos.ns, input_mos.equave~~)

parent_mos = mos.parent(input_mos)

~~local sister_mos~~ = mos.~~new~~(input_mos~~.ns, input_mos.nL, input_mos.equave~~)

sister_mos = mos.sister(input_mos)

soft_child_mos, hard_child_mos = mos.children(input_mos)

neutral_mos = mos.neutralized(input_mos)

soft_flought_mos, hard_flought_mos = mos.interleaved(input_mos)

local parent_scalesig = ~~string.format(~~"~~[[%s]]~~", mos.~~as_string~~(parent_mos ))

-- Produce links to those relatives; parent and sister links have extra

local ~~soft_scalesig~~ = ~~string~~.~~format~~("~~[[%s]]~~", mos.~~as_string~~(soft_child_mos))

-- checks to make sure they're valid mosses:

local hard_scalesig = ~~string~~.~~format~~(~~"[[%s]]",~~ mos.~~as_string~~(~~hard_child_mos)~~)

-- - If the input mos is a root mos (nL ns), then it has no parent

local ~~sister_scalesig~~ = ~~string~~.~~format~~(~~"[[%s]]",~~ mos.~~as_string~~(~~sister_mos )~~)

-- - If the input mos is a root mos, then it's its own sister

local is_nL_ns = input_mos.nL == input_mos.ns

local parent_scalesig = is_nL_ns and "none" or mos.as_link(parent_mos)

local sister_scalesig = is_nL_ns and (mos.as_string(input_mos) .. " (self)") or mos.as_link(sister_mos)

local soft_scalesig = mos.as_link(soft_child_mos)

local hard_scalesig = mos.as_link(hard_child_mos)

local neutral_scalesig = mos.as_link(neutral_mos)

local soft_flought_scalesig = mos.as_link(soft_flought_mos)

local hard_flought_scalesig = mos.as_link(hard_flought_mos)

local ~~gcd~~ = ~~utils._gcd(input_mos.nL, input_mos.ns)~~

local section_header = "Related MOS scales"

local ~~is_null_large~~ = ~~string.find(parent_scalesig,~~ "0L"~~) and input_mos.nL == gcd~~

local section_entries = {

~~local is_null_small~~ = string.~~find~~(~~parent_scalesig,~~ "0s"~~) and input_mos~~.~~ns == gcd~~

{ ["Header"] = string.format("<div style=\"margin-top: 0.6em;\"><b>%s</b></div>", section_header)},

~~if is_null_large or is_null_small then~~

{ ["Header"] = "[[Operations_on_MOSes#Parent_MOS | Parent]]" , ["Data"] = parent_scalesig },

~~parent_scalesig =~~ "~~none~~"

{ ["Header"] = "[[Operations_on_MOSes#Sister_MOS | Sister]]" , ["Data"] = sister_scalesig },

~~end~~

{ ["Header"] = "[[Operations_on_MOSes#Daughter_MOS | Daughters]]" , ["Data"] = soft_scalesig .. ", " .. hard_scalesig },

{ ["Header"] = "[[Operations_on_MOSes#Neutralization | Neutralized]]", ["Data"] = neutral_scalesig},

~~return {~~

{ ["Header"] = "[[Flought_scale | 2-Flought]]" , ["Data"] = soft_flought_scalesig .. ", " .. hard_flought_scalesig }

{"Parent", parent_scalesig},

{"[[Operations_on_MOSes#Sister_MOS | Sister]]", sister_scalesig},

{"Daughters", soft_scalesig .. ", " .. hard_scalesig}

}

return section_entries

end

-- Helper function

-- Produces simple equal tunings

-- Includes xenpaper links

function p.equal_tunings(input_mos)

local input_mos = input_mos or mos.new(5, 2)

local bright_gen = mos.bright_gen(input_mos)

~~local mos_as_vector = {~~

~~['L'] = input_mos.nL,~~

~~['s'] = input_mos.ns~~

}

local step_ratios = {

{ 1, 1 },

Line 236:

Line 329:

}

local ~~step_ratio_names~~ = {

local section_header = p.annotate_section_header(input_mos, "Equal tunings")

~~"Equalized"~~,

local section_entries = {{ ["Header"] = section_header }}

"~~Supersoft~~",

"~~Soft~~",

~~"Semisoft",~~

~~"Basic",~~

~~"Semihard",~~

~~"Hard",~~

~~"Superhard",~~

~~"Collapsed"~~

}

~~local equal_tunings = {}~~

for i = 1, #step_ratios do

local step_ratio = step_ratios[i]

local ~~ed_size~~ = mos_as_vector['L'] * step_ratio~~[1] + mos_as_vector['s'] * step_ratio[2]~~

local ed_as_string = mos.et_string(input_mos, step_ratio)

~~local gen_size = bright_gen['L'] * step_ratio[1] + bright_gen['s'] * step_ratio[2]~~

local ed = et.~~new~~(~~ed_size~~, ~~input_mos.equave~~)

local gen_in_steps = mos.bright_gen_to_et_string(input_mos, step_ratio, "")

local ~~ed_as_text~~ = et.~~as_string~~(ed)

local gen_in_cents = mos.bright_gen_to_cents(input_mos, step_ratio)

local ~~gen_in_steps~~ = et.~~backslash_display~~(~~ed, gen_size~~)

local step_ratio_name = tamnams.lookup_step_ratio(step_ratio)

~~local gen_in_cents~~ = ~~et.cents~~(ed, ~~gen_size~~)

step_ratio_name = step_ratio_name:gsub("^%l", string.upper)

local caption = string.format("[[%s]] (L:s = %d:%d)", ~~step_ratio_names[i]~~, step_ratio[1], step_ratio[2])

local xenpaper_link = xp.mosstep_pattern_to_xenpaper_link(mos.brightest_mode(input_mos), step_ratios[i], input_mos.equave)

local text = string.format("[[%s | %s]] (%.~~1f¢~~)", ~~ed_as_text~~, gen_in_steps, gen_in_cents)

local caption = string.format("[[%s]] [%s (<span style=\"white-space: nowrap;\">L:s = %d:%d</span>)]", step_ratio_name, xenpaper_link, step_ratio[1], step_ratio[2])

local text = string.format("[[%s|%s]] (%.1f{{c}})", ed_as_string, gen_in_steps, gen_in_cents)

table.insert(~~equal_tunings~~, { caption, text })

table.insert(section_entries, { ["Header"] = caption, ["Data"] = text })

end

return ~~equal_tunings~~

return section_entries

end

-- New "main" function

function p._infobox_mos(~~tuning~~)

function p._infobox_mos(input_mos)

local ~~tuning~~ = ~~tuning~~ or "~~5L 2s~~"

local input_mos = input_mos or mos.new(4, 5, 3)

local ~~tuning_parsed~~ = ~~mos~~.~~parse~~(~~tuning~~)

local other_names_unparsed = ""

local other_names_parsed = tip.parse_entries(other_names_unparsed) or tip.parse_entries(other_names_unparsed, ",")

local sections = {}

local ~~tamnams_info_header~~ = ""

-- Keyboard visualization

local ~~tamnams_info_section~~ = p.~~tamnams_information~~(~~tuning~~)

local kb_vis = p.kb_vis(input_mos)

~~if tamnams_info_section ~~~= ~~nil then~~

p.concatenate_tables(sections, kb_vis)

~~table~~.~~insert~~(sections, ~~{tamnams_info_header, tamnams_info_section}~~)

~~end~~

-- Scale structure section

local scale_structure = p.scale_structure(input_mos)

p.concatenate_tables(sections, scale_structure)

-- Interval range section

--local step_sizes = p.step_sizes(tuning_parsed)

--p.concatenate_tables(sections, step_sizes)

-- Generator sizes section

local gen_sizes = p.generator_sizes(input_mos)

p.concatenate_tables(sections, gen_sizes)

~~local scale_structure_header = "Scale structure"~~

-- Tamnams info section, if applicable

local ~~scale_structure_section~~ = p.~~scale_structure~~(~~tuning_parsed~~)

local tamnams_info = p.tamnams_information(input_mos)

~~table~~.~~insert~~(sections, ~~{scale_structure_header, scale_structure_section}~~)

if tamnams_info ~= nil then

p.concatenate_tables(sections, tamnams_info)

end

~~local gen_ranges_headher = "Generator ranges"~~

-- Other names section, if applicable

local ~~gen_ranges_section~~ = p.~~generator_ranges~~(~~tuning_parsed~~)

local other_names_section = p.other_names(other_names_parsed)

~~table~~.~~insert~~(sections, ~~{gen_ranges_headher, gen_ranges_section}~~)

if other_names_section ~= nil then

p.concatenate_tables(sections, other_names_section)

end

~~local related_scales_header = "~~Related scales"

-- Related scales section

local ~~related_scales_section~~ = p.related_scales(~~tuning_parsed~~)

local related_scales = p.related_scales(input_mos)

~~table~~.~~insert~~(sections, ~~{related_scales_header, related_scales_section}~~)

p.concatenate_tables(sections, related_scales)

~~local equal_tunings_header = "~~Equal tunings"

-- Equal tunings section

local ~~equal_tunings_section~~ = p.equal_tunings(~~tuning_parsed~~)

local equal_tunings = p.equal_tunings(input_mos)

~~table~~.~~insert~~(sections, ~~{equal_tunings_header, equal_tunings_section}~~)

p.concatenate_tables(sections, equal_tunings)

local adjacent_links = p.adjacent_links(~~tuning_parsed~~)

-- Adjacent links

local adjacent_links = p.adjacent_links(input_mos)

local args = {

["Adjacent Links"] = adjacent_links,

["Title"] = mos.as_long_string(input_mos),

["Rows"] = sections,

["name"] = "Infobox MOS"

}

return ~~infobox~~.~~build_multisection~~(~~tuning,~~ sections~~, adjacent_links)~~

return ib._infobox(args)

--return sections

end

-- Wrapper function

function p.infobox_MOS(frame)

local args = getArgs(frame)

local ~~tuning~~ = ~~frame.~~args['Tuning']

-- "Scale Signature" is preferred; "Tuning" is supported for legacy purposes

local other_names = ~~frame.~~args[~~'Other names'~~] or nil

local unparsed = args["Tuning"] or args["Scale Signature"]

local debug_mode = ~~tonumber~~(frame.args[~~'debug'~~]) ~~== 1~~

local input_mos = mos.parse(unparsed)

local other_names = args["othernames"] or nil

local debug_mode = yesno(args["debug"], false)

local wtext = yesno(frame.args["wtext"] or args["wtext"])

local result = p._infobox_mos(~~tuning~~)

local result = p._infobox_mos(input_mos)

if not debug_mode then

result = result .. p.categorize(~~tuning~~)

result = result .. p.categorize(input_mos)

end

~~return result~~

if wtext then

result = "<syntaxhighlight lang=\"wikitext\">" .. result .. "</syntaxhighlight>"

~~end~~

end

~~function p.tester()~~

~~local adjacent_links = { "4L 1s", "5L 1s", "6L 1s", "4L 2s", "6L 2s", "4L 3s", "5L 3s", "" }~~

~~local section_1_entries = {~~

~~{"Brightest mode", "LLLsLLs"},~~

~~{"Period (cents)", "2\1 (1200¢)"},~~

~~{"Bright generator range", "4\7 (685.7¢) to 3\5 (720¢)"},~~

~~{"Dark generator range", "2\5 (480¢) to 3\7 (514.3¢)"}~~

}

~~local section_2_entries = {~~

~~{"Name", "diatonic"},~~

~~{"Prefix", "dia-"},~~

~~{"Abbrev.", "dia."}~~

}

~~local section_3_entries = {~~

~~{"Parent MOS", "2L 3s"},~~

~~{"Sister MOS", "2L 5s"},~~

~~{"Daughter MOSes", "7L 5s, 5L 7s"}~~

}

~~local section_4_entries~~ = {

{"~~Supersoft (L:s~~ = ~~4:3)", "15~~\~~\26 (692.3¢)~~"},

~~{"Soft (L:s = 3:2)", "11~~\~~\19 (694.7¢)~~"},

{"~~Semisoft (L:s = 5:3)", "18\\31 (696~~.~~8¢)"},~~

~~{"Basic (L:s = 2:1)", "7\\12 (700¢)"},~~

~~{"Semihard (L:s = 5:2)", "17\\29 (703~~.~~4¢)"},~~

~~{"Hard (L:s = 3:1)", "10\\17 (705~~.~~9¢)"},~~

~~{"Superhard (L:s = 4:1)", "13\\22 (709~~.~~1¢)~~"},

}

~~local sections = {~~

~~{"Scale structure", section_1_entries},~~

~~{"TAMNAMS information", section_2_entries},~~

~~{"Related scales", section_3_entries},~~

{"~~Simple equal tunings", section_4_entries},~~

}

~~return infobox.build_multisection("5L 2s (2/1-equivalent)", sections, adjacent_links)~~

return frame:preprocess(result)

end

return p

@@ Line 1: / Line 1: @@
 local p = {}
-local utils = require('Module:Utils')
-local rat = require('Module:Rational')
-local mos = require('Module:MOS')
-local et = require('Module:ET')
---local xp = require('Module:Xenpaper')		-- No xenpaper links for now
-local infobox = require('Module:Infobox')
-local common_suffix = {
+local getArgs = require("Module:Arguments").getArgs
-	['3/2'] = 'f',
+local ib = require("Module:Infobox")
-	['2'] = 'o',
+local kbvis = require("Module:Keyboard vis")
-	['2/1'] = 'o',
+local mos = require("Module:MOS")
-	['3'] = 't',
+local tamnams = require("Module:TAMNAMS")
-	['3/1'] = 't',
+local tip = require("Module:Template input parse")
-}
+local xp = require("Module:Xenpaper")
+local yesno = require("Module:Yesno")
-local common_ratio = {
+-- TODO: REWRITE. REFACTOR. AGAIN.
-	['f'] = rat.new(3, 2),
-	['o'] = 2,
+-- TODO: bugfix tamnams lookup breaking for mosses with 5 steps or less; interim
-	['t'] = 3,
+-- fix currently implemented shows smaller mosses as descending from itself.
-}
+-- Helper function
+-- Concatenates the contents of two tables into one
+-- This doesn't have a return value; rather, the first table passed has the
+-- second table's contents added to it.
+function p.concatenate_tables(t1, t2)
+	for i=1, #t2 do
+		t1[#t1 + 1] = t2[i]
+	end
+end
+-- Helper function
+-- Annotates a section header with the equave as superscript text.
+function p.annotate_section_header(input_mos, section_header)
+	local et_suffix = mos.et_suffix(input_mos)
+	return (et_suffix == "edo"
+		and string.format('<div style=\"margin-top: 0.6em;\"><b>%s</b></div>', section_header)
+		or  string.format('<div style=\"margin-top: 0.6em;\"><b>%s</b><sup><abbr title=\"In steps of %s\">(%s)</sup></div>', section_header, et_suffix, et_suffix)
+	)
+end
+-- Helper function
+-- Create a keyboard visualization, based on the Halberstadt keyboard layout
+function p.kb_vis(input_mos)
+	local input_mos = input_mos or mos.new(5, 2)
+	local brightest_mode = mos.brightest_mode(input_mos)
+	local vis = ""
+	if input_mos.nL + input_mos.ns < 40 then
+		vis = kbvis.vis_small(brightest_mode)
+	end
+	return {{["Header"] = vis}}
+end
 -- Helper function
 -- Adds categories
-function p.categorize(tuning)
+function p.categorize(input_mos)
-	local tuning = tuning or "5L 2s"
+	local input_mos = input_mos or mos.new(5, 2)
-	local input_mos = mos.parse(tuning)
 	-- Add to category of abstact mosses
-	local categories = "[[Category:Abstract MOS patterns]]"
+	local categories = " [[Category:Abstract MOS patterns]]"
-	-- Add tuning category
-	--categories = categories .. string.format('[[Category:%s]]', tuning)
 	-- Add notecount category if the notecount is greater than 3
 	local notecount = input_mos.nL + input_mos.ns
 	if notecount > 3 then
-		categories = categories .. string.format('[[Category:%d-tone scales]]', notecount)
+		categories = categories .. string.format(" [[Category:%d-tone scales]]", notecount)
 	end
 	-- If the mos is octave-equivalent, add appropriate tamnams-named categories
 	-- Otherwise, add to nonoctave category
-	if rat.eq(input_mos.equave, rat.new(2)) then
+	if mos.is_octave_equivalent(input_mos) then
 		-- Caveats:
 		-- - Only octave-equivalent mos names are used as categories.
@@ Line 47: / Line 72: @@
 		-- - Mosses whose notecounts > 10 and periods < 5 are categorized under
 		--   the closest tamnams-named ancestor.
-		-- - Monolarge scales aren't categorized for they're all related to one
+		local ancestor_mos = tamnams.find_ancestor(input_mos)
-		--   another. (For now.)
+		local tamnams_name = tamnams.lookup_name(ancestor_mos)
-		-- - Monosmall descendants that descend from 1L 9s aren't categorized
-		--   for now.
-		local ancestor_mos = mos.find_ancestor(input_mos)
-		local tamnams_name = mos.tamnams_name[mos.as_string(ancestor_mos)]
-		if tamnams_name == "arch(a)eotonic" then
-			tamnams_name = "archaeotonic"
-		end
 		if tamnams_name ~= nil then
-			categories = categories .. string.format('[[Category:%s]]', tamnams_name)
+			categories = categories .. string.format(" [[Category:%s]]", tamnams_name)
 		end
 	else
-		categories = categories .. '[[Category:Nonoctave]]'
+		categories = categories .. " [[Category:Nonoctave]]"
 	end
@@ Line 71: / Line 88: @@
 -- Creates adjacent links for mos, found by +/-1 large or +/- small steps
 function p.adjacent_links(input_mos)
-	local input_mos = input_mos or mos.new(5, 2)
+	local input_mos = input_mos or mos.new(1, 1)
-	local long_equave_as_text = ""
+	local adjacent_mosses = {
-	local equave_as_text = ""
+		mos.new(input_mos.nL - 1, input_mos.ns - 1, input_mos.equave),		-- UL
-	if not rat.eq(input_mos.equave, 2) then
+		mos.new(input_mos.nL    , input_mos.ns - 1, input_mos.equave),		-- U
-		long_equave_as_text = string.format(" (%s-equivalent)", rat.as_ratio(input_mos.equave))
+		mos.new(input_mos.nL + 1, input_mos.ns - 1, input_mos.equave),		-- UR
-		equave_as_text = string.format("⟨%s⟩", rat.as_ratio(input_mos.equave))
+		mos.new(input_mos.nL - 1, input_mos.ns    , input_mos.equave),		-- L
-	end
+		mos.new(input_mos.nL + 1, input_mos.ns    , input_mos.equave),		-- R
+		mos.new(input_mos.nL - 1, input_mos.ns + 1, input_mos.equave),		-- DL
+		mos.new(input_mos.nL    , input_mos.ns + 1, input_mos.equave),		-- D
+		mos.new(input_mos.nL + 1, input_mos.ns + 1, input_mos.equave),		-- DR
+	}
 	local adjacent_links = {
-		string.format("[[%dL %ds%s | ↖%dL %ds%s]]", input_mos.nL-1, input_mos.ns-1, long_equave_as_text, input_mos.nL-1, input_mos.ns-1, equave_as_text),
+		mos.is_valid(adjacent_mosses[1]) and string.format("[[%s|&#x2196;&nbsp;%s]]", mos.as_long_string(adjacent_mosses[1], false), mos.as_string(adjacent_mosses[1]), true) or "",
-		string.format("[[%dL %ds%s | ↑%dL %ds%s]]", input_mos.nL  , input_mos.ns-1, long_equave_as_text, input_mos.nL  , input_mos.ns-1, equave_as_text),
+		mos.is_valid(adjacent_mosses[2]) and string.format("[[%s|&#x2191;&nbsp;%s]]", mos.as_long_string(adjacent_mosses[2], false), mos.as_string(adjacent_mosses[2]), true) or "",
-		string.format("[[%dL %ds%s | %dL %ds%s↗]]", input_mos.nL+1, input_mos.ns-1, long_equave_as_text, input_mos.nL+1, input_mos.ns-1, equave_as_text),
+		mos.is_valid(adjacent_mosses[3]) and string.format("[[%s|%s&nbsp;&#x2197;]]", mos.as_long_string(adjacent_mosses[3], false), mos.as_string(adjacent_mosses[3]), true) or "",
-		string.format("[[%dL %ds%s | ←%dL %ds%s]]", input_mos.nL-1, input_mos.ns  , long_equave_as_text, input_mos.nL-1, input_mos.ns  , equave_as_text),
+		mos.is_valid(adjacent_mosses[4]) and string.format("[[%s|&#x2190;&nbsp;%s]]", mos.as_long_string(adjacent_mosses[4], false), mos.as_string(adjacent_mosses[4]), true) or "",
-		string.format("[[%dL %ds%s | %dL %ds%s→]]", input_mos.nL+1, input_mos.ns  , long_equave_as_text, input_mos.nL+1, input_mos.ns  , equave_as_text),
+		mos.is_valid(adjacent_mosses[5]) and string.format("[[%s|%s&nbsp;&#x2192;]]", mos.as_long_string(adjacent_mosses[5], false), mos.as_string(adjacent_mosses[5]), true) or "",
-		string.format("[[%dL %ds%s | ↙%dL %ds%s]]", input_mos.nL-1, input_mos.ns+1, long_equave_as_text, input_mos.nL-1, input_mos.ns+1, equave_as_text),
+		mos.is_valid(adjacent_mosses[6]) and string.format("[[%s|&#x2199;&nbsp;%s]]", mos.as_long_string(adjacent_mosses[6], false), mos.as_string(adjacent_mosses[6]), true) or "",
-		string.format("[[%dL %ds%s | ↓%dL %ds%s]]", input_mos.nL  , input_mos.ns+1, long_equave_as_text, input_mos.nL  , input_mos.ns+1, equave_as_text),
+		mos.is_valid(adjacent_mosses[7]) and string.format("[[%s|&#x2193;&nbsp;%s]]", mos.as_long_string(adjacent_mosses[7], false), mos.as_string(adjacent_mosses[7]), true) or "",
-		string.format("[[%dL %ds%s | %dL %ds%s↘]]", input_mos.nL+1, input_mos.ns+1, long_equave_as_text, input_mos.nL+1, input_mos.ns+1, equave_as_text),
+		mos.is_valid(adjacent_mosses[8]) and string.format("[[%s|%s&nbsp;&#x2198;]]", mos.as_long_string(adjacent_mosses[8], false), mos.as_string(adjacent_mosses[8]), true) or ""
 	}
-	for i = 1, #adjacent_links do
-		local gcd = utils._gcd(input_mos.nL, input_mos.ns)
-		local is_null_large = string.find(adjacent_links[i], "0L") and input_mos.nL == gcd
-		local is_null_small = string.find(adjacent_links[i], "0s") and input_mos.ns == gcd
-		if is_null_large or is_null_small then
-			adjacent_links[i] = ""
-		end
-	end
 	return adjacent_links
 end
+-- TODO: Cleanup and adopt mos functions
 -- Helper function
 -- Produces section entries for scale sturcture
+-- Section is returned as a jagged array and return value must be merged into
+-- a larger array.
 function p.scale_structure(input_mos)
-	local input_mos = input_mos or mos.new(5, 5, 3)
+	local input_mos = input_mos or mos.new(5, 2)
-	local equave_as_text = rat.as_ratio(input_mos.equave)
+	local equave_as_string = mos.equave_as_string(input_mos)
-	local equave_in_cents = rat.cents(input_mos.equave)
+	local equave_in_cents  = mos.equave_to_cents(input_mos)
-	local number_of_periods = utils._gcd(input_mos.nL, input_mos.ns)
+	local number_of_periods = mos.period_count(input_mos)
-	local period_as_text = ""
+	local period_as_string = ""
 	if number_of_periods == 1 then
-		period_as_text = equave_as_text
+		period_as_string = equave_as_string
 	else
-		local equave_suffix = common_suffix[equave_as_text] or equave_as_text
+		period_as_string = mos.reduced_period_to_et_string(input_mos, "")
-		period_as_text = string.format("1\\%ded%s", number_of_periods, equave_suffix)
 	end
 	local period_in_cents = equave_in_cents / number_of_periods
-	local scale_structure = {
+	local step_pattern = string.format("...%d steps...", input_mos.nL + input_mos.ns)
-		{"Brightest mode", mos.brightest_mode(input_mos)},
+	if input_mos.nL + input_mos.ns <= 40 then
-		{"[[Equave]] (cents)", string.format("%s (%.1f¢)", equave_as_text, equave_in_cents)},
+		local brightest_mode = mos.brightest_mode(input_mos)
-		{"[[Period]] (cents)", string.format("%s (%.1f¢)", period_as_text, period_in_cents)}
+		step_pattern = string.format("<abbr title=\"Brightest mode\">%s</abbr><br /><abbr title=\"Darkest mode\">%s</abbr>", brightest_mode, string.reverse(brightest_mode))
+	end
+	local section_header = "Scale structure"
+	local section_entries = {
+		{ ["Header"] = string.format("<div style=\"margin-top: 0.6em;\"><b>%s</b></div>", section_header)},
+		{ ["Header"] = "[[Step pattern]]", ["Data"] = step_pattern},
+		{ ["Header"] = "[[Equave]]"      , ["Data"] = string.format("%s (%.1f{{c}})", equave_as_string, equave_in_cents) },
+		{ ["Header"] = "[[Period]]"      , ["Data"] = string.format("%s (%.1f{{c}})", period_as_string, period_in_cents) }
 	}
-	return scale_structure
+	return section_entries
 end
 -- Helper function
 -- Produces generator ranges for scale
-function p.generator_ranges(input_mos)
+-- Section is returned as a jagged array and return value must be merged into
-	local input_mos = input_mos or mos.new(5, 2)
+-- a larger array.
+function p.generator_sizes(input_mos)
+	local input_mos = input_mos or mos.new(5, 2,3)
+	local bright_min_in_steps = mos.bright_gen_to_et_string(input_mos, {1, 1}, "")
+	local bright_max_in_steps = mos.bright_gen_to_et_string(input_mos, {1, 0}, "")
+	local dark_min_in_steps   = mos.dark_gen_to_et_string  (input_mos, {1, 0}, "")
+	local dark_max_in_steps   = mos.dark_gen_to_et_string  (input_mos, {1, 1}, "")
-	local number_of_periods = utils._gcd(input_mos.nL, input_mos.ns)
+	local bright_min_in_cents = mos.bright_gen_to_cents(input_mos, {1, 1})
+	local bright_max_in_cents = mos.bright_gen_to_cents(input_mos, {1, 0})
+	local dark_min_in_cents = mos.dark_gen_to_cents(input_mos, {1, 0})
+	local dark_max_in_cents = mos.dark_gen_to_cents(input_mos, {1, 1})
-	local bright_gen = mos.bright_gen(input_mos)
+	local section_header = p.annotate_section_header(input_mos, "Generator size")
-	local dark_gen = {
+	local section_entries = {
-		['L'] = input_mos.nL / number_of_periods - bright_gen['L'],
+		{ ["Header"] = section_header},
-		['s'] = input_mos.ns / number_of_periods - bright_gen['s']
+		{ ["Header"] = "[[Bright]]", ["Data"] = string.format("%s to %s (%.1f{{c}} to %.1f{{c}})", bright_min_in_steps, bright_max_in_steps, bright_min_in_cents, bright_max_in_cents) },
+		{ ["Header"] = "[[Dark]]"  , ["Data"] = string.format("%s to %s (%.1f{{c}} to %.1f{{c}})", dark_min_in_steps, dark_max_in_steps, dark_min_in_cents, dark_max_in_cents) },
 	}
-	local equalized_ed = et.new(input_mos.nL + input_mos.ns, input_mos.equave)
+	return section_entries
-	local collapsed_ed = et.new(input_mos.nL, input_mos.equave)
+end
+-- Helper function
+-- Produces section entries for tamnams info
+-- Conditions for tamnams info inclusion:
+-- - Scale is octave-equivalent.
+-- - Scales within the "named range" (6-10 notes, or is 1L 1s or 2L 2s) have
+--   a tamnams name.
+-- - Scales with a notecount greater than 10 and no more than 5 periods have
+--   a tamnams-named ancestor.
+-- - Scales with a notecount greater than 10 and more than 5 periods don't have
+--   a tamnams-named ancestor, but will report what nL ns mos they descend from.
+-- Section is returned as a jagged array and return value must be merged into
+-- a larger array.
+function p.tamnams_information(input_mos)
+	local input_mos = input_mos or mos.new(6,6,3)
-	local bright_min_in_steps = et.backslash_display(equalized_ed, bright_gen['L'] + bright_gen['s'])
+	-- If a mos is octave-equivalent and has 10 or fewer steps, then it has a
-	local bright_max_in_steps = et.backslash_display(collapsed_ed, bright_gen['L'])
+	-- tamnams name/prefix/abbrev.
-	local dark_min_in_steps   = et.backslash_display(collapsed_ed, dark_gen['L'])
+	-- If a mos is octave-equivalent, has more than 10 steps, and is not a root
-	local dark_max_in_steps   = et.backslash_display(equalized_ed, dark_gen['L'] + dark_gen['s'])
+	-- mos nL ns, then:
+	-- - If it has 5 periods or less, then its closest ancestor has a tamnams
+	--   name.
+	-- - If it has more than 5 periods, then it relates to a root mos nL ns that
+	--   has more than 10 steps (ancestor therefore has no tamnams name).
+	-- If a mos is not octave-equivalent, then it may have a tamnams name (if
+	-- step count is 5 or less; currently unsupported) or not.
+	local is_octave_equivalent   = mos.is_octave_equivalent(input_mos)
+	local has_tamnams_name       = tamnams.lookup_name(input_mos) ~= nil
+	local is_within_named_range  = mos.step_count(input_mos) <= 10
+	local is_within_period_count = mos.period_count(input_mos) <= 5
+	local is_root_mos = input_mos.nL == input_mos.ns
-	local bright_min_in_cents = et.cents(equalized_ed, bright_gen['L'] + bright_gen['s'])
+	local section_header = "TAMNAMS information"
-	local bright_max_in_cents = et.cents(collapsed_ed, bright_gen['L'])
+	local section_entries = nil
-	local dark_min_in_cents   = et.cents(collapsed_ed, dark_gen['L'])
+	if is_octave_equivalent and has_tamnams_name then
-	local dark_max_in_cents   = et.cents(equalized_ed, dark_gen['L'] + dark_gen['s'])
+		section_entries = {
+			{ ["Header"] = string.format("<div style=\"margin-top: 0.6em;\"><b>%s</b></div>", section_header) },
+			{ ["Header"] = "[[TAMNAMS#Mos_pattern_names | Name]]"    , ["Data"] = tamnams.lookup_name  (input_mos) },
+			{ ["Header"] = "[[TAMNAMS#Mos_pattern_names | Prefix]]"  , ["Data"] = tamnams.lookup_prefix(input_mos) .. "-" },
+			{ ["Header"] = "[[TAMNAMS#Mos_pattern_names | Abbrev.]]" , ["Data"] = tamnams.lookup_abbrev(input_mos) }
+		}
+	elseif is_octave_equivalent and not has_tamnams_name and not is_root_mos and not is_within_named_range then
+		-- Lookup closest named ancestor mos
+		local ancestor_mos, ratio_1, ratio_2, generations = tamnams.find_ancestor_info(input_mos)
+		-- Link to ancestor mos
+		local ancestor_link = mos.as_link(ancestor_mos)
+		-- Lookup step ratio range
+		local step_ratio_range = string.format("%s:%s to %s:%s", ratio_1[1], ratio_1[2], ratio_2[1], ratio_2[2])
+		local range_name = tamnams.lookup_step_ratio_range(ratio_1, ratio_2)
+		local step_ratio_range_entry = range_name == nil and step_ratio_range or string.format("%s (%s)", step_ratio_range, range_name)
+		local ancestor_name = tamnams.lookup_name(ancestor_mos)
+		local ancestor_entry = ancestor_name == nil and ancestor_link or string.format("%s (%s)", ancestor_link, ancestor_name)
+		section_entries = {
+			{ ["Header"] = string.format("<div style=\"margin-top: 0.6em;\"><b>%s</b></div>", section_header) },
+			{ ["Header"] = "Related to"  , ["Data"] = ancestor_entry },
+			{ ["Header"] = "With tunings", ["Data"] = step_ratio_range_entry }
+		}
+	end
-	return {
+	return section_entries
-		{"[[Bright]]", string.format("%s (%.1f¢) to %s (%.1f¢)", bright_min_in_steps, bright_min_in_cents, bright_max_in_steps, bright_max_in_cents)},
-		{"[[Dark]]", string.format("%s (%.1f¢) to %s (%.1f¢)", dark_min_in_steps, dark_min_in_cents, dark_max_in_steps, dark_max_in_cents)},
-	}
 end
 -- Helper function
--- Produces section entries for tamnams info
+-- Adds a section for scale names
-function p.tamnams_information(scalesig)
+function p.other_names(other_names)
-	local scalesig = scalesig or "5L 2s"
+	local other_names = other_names or {"p-chromatic", "hard diatonic"}
-	local tamnams_name = mos.tamnams_name[scalesig] or ""
+	local section_header = "Other names"
-	local tamnams_prefix = mos.tamnams_prefix[scalesig] or ""
-	local tamnams_abbrev = mos.tamnams_abbrev[scalesig] or ""
-	if tamnams_name == "" then
+	if #other_names == 0 then
 		return nil
 	else
-		return {
+		local scale_names = ""
-			{"[[TAMNAMS#Mos_pattern_names | Name]]", tamnams_name},
+		for i=1, #other_names do
-			{"[[TAMNAMS#Mos_pattern_names | Prefix]]", tamnams_prefix},
+			scale_names = scale_names .. other_names[i]
-			{"[[TAMNAMS#Mos_pattern_names | Abbrev.]]", tamnams_abbrev}
+			if i ~= #other_names then
-		}
+				scale_names = scale_names .. "<br />"
+			end
+		end
+		local section_entries = {
+			{ ["Header"] = string.format("<div style=\"margin-top: 0.6em;\"><b>%s</b></div>", section_header)},
+			{ ["Header"] = "Name(s)", ["Data"] = scale_names}
+		}
+		return section_entries
 	end
 end
@@ Line 185: / Line 272: @@
 -- Helper function
 -- Produces section for related scales
+-- Section is returned as a jagged array and return value must be merged into
+-- a larger array.
 function p.related_scales(input_mos)
 	local input_mos = input_mos or mos.new(5, 2)
-	local parent_mos = mos.new(math.min(input_mos.nL, input_mos.ns), math.abs(input_mos.nL-input_mos.ns), input_mos.equave)
+	-- Produce the mos's relatives
-	local soft_child_mos = mos.new(input_mos.nL+input_mos.ns, input_mos.nL, input_mos.equave)
+	local parent_mos, sister_mos, soft_child_mos, hard_child_mos, neutral_mos, soft_flought_mos, hard_flought_mos
-	local hard_child_mos = mos.new(input_mos.nL, input_mos.nL+input_mos.ns, input_mos.equave)
+	parent_mos = mos.parent(input_mos)
-	local sister_mos = mos.new(input_mos.ns, input_mos.nL, input_mos.equave)
+	sister_mos = mos.sister(input_mos)
+	soft_child_mos, hard_child_mos = mos.children(input_mos)
+	neutral_mos = mos.neutralized(input_mos)
+	soft_flought_mos, hard_flought_mos = mos.interleaved(input_mos)
-	local parent_scalesig = string.format("[[%s]]", mos.as_string(parent_mos    ))
+	-- Produce links to those relatives; parent and sister links have extra
-	local soft_scalesig   = string.format("[[%s]]", mos.as_string(soft_child_mos))
+	-- checks to make sure they're valid mosses:
-	local hard_scalesig   = string.format("[[%s]]", mos.as_string(hard_child_mos))
+	-- - If the input mos is a root mos (nL ns), then it has no parent
-	local sister_scalesig = string.format("[[%s]]", mos.as_string(sister_mos    ))
+	-- - If the input mos is a root mos, then it's its own sister
+	local is_nL_ns = input_mos.nL == input_mos.ns
+	local parent_scalesig       = is_nL_ns and "none" or mos.as_link(parent_mos)
+	local sister_scalesig       = is_nL_ns and (mos.as_string(input_mos) .. " (self)") or mos.as_link(sister_mos)
+	local soft_scalesig         = mos.as_link(soft_child_mos)
+	local hard_scalesig         = mos.as_link(hard_child_mos)
+	local neutral_scalesig      = mos.as_link(neutral_mos)
+	local soft_flought_scalesig = mos.as_link(soft_flought_mos)
+	local hard_flought_scalesig = mos.as_link(hard_flought_mos)
-	local gcd = utils._gcd(input_mos.nL, input_mos.ns)
+	local section_header = "Related MOS scales"
-	local is_null_large = string.find(parent_scalesig, "0L") and input_mos.nL == gcd
+	local section_entries = {
-	local is_null_small = string.find(parent_scalesig, "0s") and input_mos.ns == gcd
+		{ ["Header"] = string.format("<div style=\"margin-top: 0.6em;\"><b>%s</b></div>", section_header)},
-	if is_null_large or is_null_small then
+		{ ["Header"] = "[[Operations_on_MOSes#Parent_MOS | Parent]]"         , ["Data"] = parent_scalesig },
-		parent_scalesig = "none"
+		{ ["Header"] = "[[Operations_on_MOSes#Sister_MOS | Sister]]"         , ["Data"] = sister_scalesig },
-	end
+		{ ["Header"] = "[[Operations_on_MOSes#Daughter_MOS | Daughters]]"    , ["Data"] = soft_scalesig .. ", " .. hard_scalesig },
+		{ ["Header"] = "[[Operations_on_MOSes#Neutralization | Neutralized]]", ["Data"] = neutral_scalesig},
-	return {
+		{ ["Header"] = "[[Flought_scale | 2-Flought]]"                       , ["Data"] = soft_flought_scalesig .. ", " .. hard_flought_scalesig }
-		{"Parent", parent_scalesig},
-		{"[[Operations_on_MOSes#Sister_MOS | Sister]]", sister_scalesig},
-		{"Daughters", soft_scalesig .. ", " .. hard_scalesig}
 	}
+	return section_entries
 end
 -- Helper function
 -- Produces simple equal tunings
+-- Includes xenpaper links
 function p.equal_tunings(input_mos)
 	local input_mos = input_mos or mos.new(5, 2)
 	local bright_gen = mos.bright_gen(input_mos)
-	local mos_as_vector = {
-		['L'] = input_mos.nL,
-		['s'] = input_mos.ns
-	}
 	local step_ratios = {
 		{ 1, 1 },
@@ Line 236: / Line 329: @@
 	}
-	local step_ratio_names = {
+	local section_header = p.annotate_section_header(input_mos, "Equal tunings")
-		"Equalized",
+	local section_entries = {{ ["Header"] = section_header }}
-		"Supersoft",
-		"Soft",
-		"Semisoft",
-		"Basic",
-		"Semihard",
-		"Hard",
-		"Superhard",
-		"Collapsed"
-	}
-	local equal_tunings = {}
 	for i = 1, #step_ratios do
 		local step_ratio = step_ratios[i]
-		local ed_size = mos_as_vector['L'] * step_ratio[1] + mos_as_vector['s'] * step_ratio[2]
+		local ed_as_string = mos.et_string(input_mos, step_ratio)
-		local gen_size = bright_gen['L'] * step_ratio[1] + bright_gen['s'] * step_ratio[2]
-		local ed = et.new(ed_size, input_mos.equave)
+		local gen_in_steps = mos.bright_gen_to_et_string(input_mos, step_ratio, "")
-		local ed_as_text = et.as_string(ed)
+		local gen_in_cents = mos.bright_gen_to_cents(input_mos, step_ratio)
-		local gen_in_steps = et.backslash_display(ed, gen_size)
+		local step_ratio_name = tamnams.lookup_step_ratio(step_ratio)
-		local gen_in_cents = et.cents(ed, gen_size)
+		step_ratio_name = step_ratio_name:gsub("^%l", string.upper)
-		local caption = string.format("[[%s]] (L:s = %d:%d)", step_ratio_names[i], step_ratio[1], step_ratio[2])
+		local xenpaper_link = xp.mosstep_pattern_to_xenpaper_link(mos.brightest_mode(input_mos), step_ratios[i], input_mos.equave)
-		local text = string.format("[[%s | %s]] (%.1f¢)", ed_as_text, gen_in_steps, gen_in_cents)
+		local caption = string.format("[[%s]] [%s (<span style=\"white-space: nowrap;\">L:s = %d:%d</span>)]", step_ratio_name, xenpaper_link, step_ratio[1], step_ratio[2])
+		local text = string.format("[[%s|%s]] (%.1f{{c}})", ed_as_string, gen_in_steps, gen_in_cents)
-		table.insert(equal_tunings, { caption, text })
+		table.insert(section_entries, { ["Header"] = caption, ["Data"] = text })
 	end
-	return equal_tunings
+	return section_entries
 end
 -- New "main" function
-function p._infobox_mos(tuning)
+function p._infobox_mos(input_mos)
-	local tuning = tuning or "5L 2s"
+	local input_mos = input_mos or mos.new(4, 5, 3)
-	local tuning_parsed = mos.parse(tuning)
+	local other_names_unparsed = ""
+	local other_names_parsed = tip.parse_entries(other_names_unparsed) or tip.parse_entries(other_names_unparsed, ",")
 	local sections = {}
-	local tamnams_info_header = ""
+	-- Keyboard visualization
-	local tamnams_info_section = p.tamnams_information(tuning)
+	local kb_vis = p.kb_vis(input_mos)
-	if tamnams_info_section ~= nil then
+	p.concatenate_tables(sections, kb_vis)
-		table.insert(sections, {tamnams_info_header, tamnams_info_section})
-	end
+	-- Scale structure section
+	local scale_structure = p.scale_structure(input_mos)
+	p.concatenate_tables(sections, scale_structure)
+	-- Interval range section
+	--local step_sizes = p.step_sizes(tuning_parsed)
+	--p.concatenate_tables(sections, step_sizes)
+	-- Generator sizes section
+	local gen_sizes = p.generator_sizes(input_mos)
+	p.concatenate_tables(sections, gen_sizes)
-	local scale_structure_header = "Scale structure"
+	-- Tamnams info section, if applicable
-	local scale_structure_section = p.scale_structure(tuning_parsed)
+	local tamnams_info = p.tamnams_information(input_mos)
-	table.insert(sections, {scale_structure_header, scale_structure_section})
+	if tamnams_info ~= nil then
+		p.concatenate_tables(sections, tamnams_info)
+	end
-	local gen_ranges_headher = "Generator ranges"
+	-- Other names section, if applicable
-	local gen_ranges_section = p.generator_ranges(tuning_parsed)
+	local other_names_section = p.other_names(other_names_parsed)
-	table.insert(sections, {gen_ranges_headher, gen_ranges_section})
+	if other_names_section ~= nil then
+		p.concatenate_tables(sections, other_names_section)
+	end
-	local related_scales_header = "Related scales"
+	-- Related scales section
-	local related_scales_section = p.related_scales(tuning_parsed)
+	local related_scales = p.related_scales(input_mos)
-	table.insert(sections, {related_scales_header, related_scales_section})
+	p.concatenate_tables(sections, related_scales)
-	local equal_tunings_header = "Equal tunings"
+	-- Equal tunings section
-	local equal_tunings_section = p.equal_tunings(tuning_parsed)
+	local equal_tunings = p.equal_tunings(input_mos)
-	table.insert(sections, {equal_tunings_header, equal_tunings_section})
+	p.concatenate_tables(sections, equal_tunings)
-	local adjacent_links = p.adjacent_links(tuning_parsed)
+	-- Adjacent links
+	local adjacent_links = p.adjacent_links(input_mos)
+	local args = {
+		["Adjacent Links"] = adjacent_links,
+		["Title"] = mos.as_long_string(input_mos),
+		["Rows"] = sections,
+		["name"] = "Infobox MOS"
+	}
-	return infobox.build_multisection(tuning, sections, adjacent_links)
+	return ib._infobox(args)
+	--return sections
 end
 -- Wrapper function
 function p.infobox_MOS(frame)
+	local args = getArgs(frame)
-	local tuning = frame.args['Tuning']
+	-- "Scale Signature" is preferred; "Tuning" is supported for legacy purposes
-	local other_names = frame.args['Other names'] or nil
+	local unparsed = args["Tuning"] or args["Scale Signature"]
-	local debug_mode = tonumber(frame.args['debug']) == 1
+	local input_mos = mos.parse(unparsed)
+	local other_names = args["othernames"] or nil
+	local debug_mode = yesno(args["debug"], false)
+	local wtext = yesno(frame.args["wtext"] or args["wtext"])
-	local result = p._infobox_mos(tuning)
+	local result = p._infobox_mos(input_mos)
 	if not debug_mode then
-		result = result .. p.categorize(tuning)
+		result = result .. p.categorize(input_mos)
 	end
-	return result
+	if wtext then
+		result = "<syntaxhighlight lang=\"wikitext\">" .. result .. "</syntaxhighlight>"
-end
+	end
-function p.tester()
-	local adjacent_links = { "4L 1s", "5L 1s", "6L 1s", "4L 2s", "6L 2s", "4L 3s", "5L 3s", "" }
-	local section_1_entries = {
-		{"Brightest mode", "LLLsLLs"},
-		{"Period (cents)", "2\1 (1200¢)"},
-		{"Bright generator range", "4\7 (685.7¢) to 3\5 (720¢)"},
-		{"Dark generator range", "2\5 (480¢) to 3\7 (514.3¢)"}
-	}
-	local section_2_entries = {
-		{"Name", "diatonic"},
-		{"Prefix", "dia-"},
-		{"Abbrev.", "dia."}
-	}
-	local section_3_entries = {
-		{"Parent MOS", "2L 3s"},
-		{"Sister MOS", "2L 5s"},
-		{"Daughter MOSes", "7L 5s, 5L 7s"}
-	}
-	local section_4_entries = {
-		{"Supersoft (L:s = 4:3)", "15\\26 (692.3¢)"},
-		{"Soft (L:s = 3:2)", "11\\19 (694.7¢)"},
-		{"Semisoft (L:s = 5:3)", "18\\31 (696.8¢)"},
-		{"Basic (L:s = 2:1)", "7\\12 (700¢)"},
-		{"Semihard (L:s = 5:2)", "17\\29 (703.4¢)"},
-		{"Hard (L:s = 3:1)", "10\\17 (705.9¢)"},
-		{"Superhard (L:s = 4:1)", "13\\22 (709.1¢)"},
-	}
-	local sections = {
-		{"Scale structure", section_1_entries},
-		{"TAMNAMS information", section_2_entries},
-		{"Related scales", section_3_entries},
-		{"Simple equal tunings", section_4_entries},
-	}
-	return infobox.build_multisection("5L 2s (2/1-equivalent)", sections, adjacent_links)
+	return frame:preprocess(result)
 end
 return p