Module:Infobox interval: Difference between revisions

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local p = {}
local p = {}
local rat = require('Module:Rational')
local he = require("Module:Harmonic entropy")
local i = require('Module:Interval')
local infobox = require("Module:Infobox")
local infobox = require('Module:Infobox')
local rat = require("Module:Rational")
local utils = require("Module:Utils")
local yesno = require("Module:Yesno")
 
-- check whether the input is a non-empty string
local function value_provided(s)
return type(s) == "string" and #s > 0
end


function p.infobox_interval(frame)
function p.infobox_interval(frame)
local debug_mode = frame.args['debug'] ~= nil
local debug_mode = yesno(frame.args["debug"])
 
-- TODO: better input parsing
local page_name = frame:preprocess("{{PAGENAME}}")
local ratio_arg = frame.args['Ratio'] or '2/1'
 
local ratio = rat.parse(ratio_arg) or rat.new(2)
local rational = false
local small = false -- numerator and denominator can be represented as Lua numbers, or irrational
local regular = false -- finite and greater than zero
 
local ratio = nil
local cents = nil
local ket = nil
local ratio_string = nil
 
local infobox_data = {}
local infobox_data = {}
local cats = '[[Category:Rational intervals]]'
local cats = ""
 
table.insert(infobox_data, {
-- intervals with relatively small powers
'Ratio',
if value_provided(frame.args["Ratio"]) then
rat.as_ratio(ratio)
ratio = rat.parse(frame.args["Ratio"])
})
if ratio ~= nil then
table.insert(infobox_data, {
rational = true
'[[Monzo]]',
small = true
rat.as_ket(ratio, frame)
regular = not ratio.nan and not ratio.inf and not ratio.zero and ratio.sign > 0
})
cents = rat.cents(ratio)
table.insert(infobox_data, {
ket = rat.as_ket(ratio, frame)
'Size in [[cent]]s',
ratio_string = rat.as_ratio(ratio)
i._to_cents(rat.as_float(ratio), 6)
end
})
end
 
-- intervals with large powers
if ratio == nil and value_provided(frame.args["Ket"]) then
ratio = rat.from_ket(frame.args["Ket"])
if ratio ~= nil then
rational = true
small = false
regular = true
cents = rat.cents(ratio)
ket = rat.as_ket(ratio, frame)
-- display Ratio unless it is page name, in which case it is probably a fallback -- what does this mean?
if frame.args["Ratio"] ~= page_name then
ratio_string = frame.args["Ratio"] or ""
end
end
elseif ratio ~= nil and value_provided(frame.args["Ket"]) then
cats = cats .. "[[Category:Todo:remove explicit ket notation]]"
end
 
-- irrational intervals
if ratio == nil and value_provided(frame.args["Cents"]) then
cents = tonumber(frame.args["Cents"])
if cents ~= nil then
rational = false
small = true
regular = true
if value_provided(frame.args["Ket"]) then
ket = frame.args["Ket"]
end
-- Ratio is LaTeX unless it is page name, in which case it is probably a fallback -- what does this mean?
if frame.args["Ratio"] ~= page_name then
ratio_string = frame.args["Ratio"] or ""
else
cats = cats .. "[[Category:Todo:add interval ratio]]"
end
end
elseif ratio ~= nil and value_provided(frame.args["Cents"]) then
cats = cats .. "[[Category:Todo:remove explicit cents]]"
end
 
if not (regular or rational) then
cats = cats .. "[[Category:Todo:initialise interval]]"
end
 
-- categorize by rationality and prime limit
if regular then
if rational then
local prime_limit = 2
if not rat.eq(ratio, 1) then
prime_limit = rat.max_prime(ratio)
end
cats = cats .. "[[Category:Rational intervals]]" .. "[[Category:" .. prime_limit .. "-limit intervals]]"
else
cats = cats .. "[[Category:Irrational intervals]]"
end
end
 
local special_properties = {}
if rational then
if small and rat.is_superparticular(ratio) then
if rat.is_square_superparticular(ratio) then
table.insert(special_properties, "[[Square superparticular|square superparticular]]")
else
table.insert(special_properties, "[[Superparticular interval|superparticular]]")
end
cats = cats .. "[[Category:Superparticular ratios]]"
end
if rat.is_reduced(ratio, 2, not small) then
table.insert(special_properties, "[[Octave reduction|reduced]]")
end
if rat.is_harmonic(ratio) then
num, den = rat.as_pair (ratio)
table.insert(special_properties, "[[harmonic]]")
cats = cats .. "[[Category:Harmonics|" .. string.rep("#", string.len(num)) .. "]]"
if rat.is_prime(ratio) then
table.insert(special_properties, "[[prime harmonic]]")
cats = cats .. "[[Category:Prime harmonics|" .. string.rep("#", string.len(num)) .. "]]"
end
if rat.is_highly_composite(ratio) then
table.insert(special_properties, "[[highly composite harmonic]]")
cats = cats .. "[[Category:Highly composite harmonics|" .. string.rep("#", string.len(num)) .. "]]"
end
elseif rat.is_harmonic(ratio, true, not small) then
table.insert(special_properties, "[[Harmonic|reduced harmonic]]")
cats = cats .. "[[Category:Octave-reduced harmonics]]"
elseif rat.is_subharmonic(ratio, true, not small) then
table.insert(special_properties, "[[Subharmonic|reduced subharmonic]]")
cats = cats .. "[[Category:Octave-reduced subharmonics]]"
end
elseif regular then
if cents >= 0 and cents < 1200 then
table.insert(special_properties, "[[Octave reduction|reduced]]")
end
end
 
if value_provided(ratio_string) then
if rational then
table.insert(infobox_data, {
"Ratio",
ratio_string,
})
else
table.insert(infobox_data, {
"Expression",
"<math>" .. ratio_string .. "</math>",
})
end
end
if regular and rational then
if ket:match("<sup>") then
-- there was a subsequence of 4+ zeros
table.insert(infobox_data, {
"[[Subgroup monzos and vals|Subgroup monzo]]",
rat.as_subgroup_ket(ratio, frame),
})
else
table.insert(infobox_data, {
"Factorization",
rat.factorisation(ratio),
})
table.insert(infobox_data, {
"[[Monzo]]",
ket,
})
end
elseif rational then
table.insert(infobox_data, {
"Factorization",
rat.factorisation(ratio),
})
elseif value_provided(ket) then
-- irrational ket is provided:
table.insert(infobox_data, {
"[[Monzo]]",
frame:expandTemplate({
title = "Monzo",
args = { ket },
}),
})
end
if regular then
table.insert(infobox_data, {
"Size in [[cent]]s",
utils._round(cents, 7) .. "¢",
})
end


local name = frame.args['Name']
local name = frame.args["Name"]
if name and #name > 0 then
if value_provided(name) then
local caption = 'Name'
local caption = "Name"
if name:match(',') then caption = 'Names' end
if name:match(",") then
caption = "Names"
-- removing manual line breaks
local matches
name, matches = name:gsub("<br%s*/?>", "")
if matches > 0 then
cats = cats .. "[[Category:Todo:remove manual line breaks]]"
end
-- removing whitespaces after commas
name = name:gsub(",%s+", ",")
-- placing line breaks after commas
name = name:gsub(",", ",<br>")
end
table.insert(infobox_data, {
table.insert(infobox_data, {
caption,
caption,
name
name,
})
})
else
else
cats = cats .. '[[Category:Todo:add interval name]]'
cats = cats .. "[[Category:Todo:add interval name]]"
table.insert(infobox_data, {
"Name(s)",
"<abbr title=\"missing value for parameter 'Name'\">''missing''</abbr><sup>[[Template:Infobox Interval| ?&nbsp;]]</sup>",
})
end
 
local colour_name = frame.args["Color name"]
if value_provided(colour_name) then
table.insert(infobox_data, {
"[[Kite's color notation|Color name]]",
colour_name,
})
elseif regular and rational then
cats = cats .. "[[Category:Todo:add color name]]"
end
 
local FJS_name = frame.args["FJS name"]
if not value_provided(FJS_name) and rational and regular then
FJS_name = rat.as_FJS(ratio)
elseif value_provided(FJS_name) then
local matches
FJS_name = FJS_name:gsub("%s", "")
FJS_name, matches = FJS_name:gsub("<br%s*/?>", "")
if matches > 0 then
cats = cats .. "[[Category:Todo:remove manual line breaks]]"
end
FJS_name, matches = FJS_name:gsub("<sup>(.*)</sup>", "^{%1}")
if matches > 0 then
cats = cats .. "[[Category:Todo:replace sup and sub with LaTeX]]"
end
FJS_name, matches = FJS_name:gsub("<sub>(.*)</sub>", "_{%1}")
if matches > 0 then
cats = cats .. "[[Category:Todo:replace sup and sub with LaTeX]]"
end
end
if value_provided(FJS_name) then
FJS_name = FJS_name:gsub("^(%w+)", "\\text{%1}")
FJS_name = FJS_name:gsub("(%-%d+)", "{%1}")
if #FJS_name <= 200 then
table.insert(infobox_data, {
"[[Functional Just System|FJS name]]",
"<math>" .. FJS_name .. "</math>",
})
end
end
 
if #special_properties > 0 then
table.insert(infobox_data, {
table.insert(infobox_data, {
'Name(s)',
"Special properties",
'<abbr title="missing value for parameter \'Name\'">\'\'missing\'\'</abbr></span><sup>[[Template:Infobox Interval| ?&nbsp;]]</sup>'
table.concat(special_properties, ",<br>"),
})
})
end
end
 
-- TODO: compute?
-- interval complexity
local colour_name = frame.args['Color name']
if rational and regular then
if colour_name and #colour_name > 0 then
table.insert(infobox_data, {
"[[Tenney norm]] (log<sub>2</sub> ''nd'')",
utils._round(rat.tenney_height(ratio), 6),
})
table.insert(infobox_data, {
"[[Weil norm]] (log<sub>2</sub> max(''n'', ''d''))",
utils._round(rat.weil_height(ratio), 6),
})
table.insert(infobox_data, {
"[[Wilson norm]] (sopfr(''nd''))",
utils._round(rat.wilson_height(ratio), 6),
})
end
 
local harmonic_entropy = frame.args["Harmonic entropy"]
if regular and value_provided(harmonic_entropy) then
harmonic_entropy_switch = harmonic_entropy:match("^[Yy][Ee][Ss]$")
if harmonic_entropy_switch then
table.insert(infobox_data, {
"[[Harmonic entropy]]<br>(Shannon, <math>\\sqrt{nd}</math>)",
"~" .. utils._round(he.harmonic_entropy(cents), 6) .. " bits",
})
end
end
 
local is_comma = value_provided(frame.args["Comma"])
local comma = nil
if is_comma and regular and cents > 0 then
-- rational powers are not considered commas
if not (rational and rat.is_power(ratio)) then
if cents <= 3.5 then
comma = "[[Unnoticeable comma|unnoticeable]]"
cats = cats .. "[[Category:Unnoticeable commas]]"
elseif cents <= 30 then
comma = "[[Small comma|small]]"
cats = cats .. "[[Category:Small commas]]"
elseif cents <= 100 then
comma = "[[Medium comma|medium]]"
cats = cats .. "[[Category:Medium commas]]"
else
comma = "[[Large comma|large]]"
cats = cats .. "[[Category:Large commas]]"
end
end
end
if comma then
table.insert(infobox_data, {
table.insert(infobox_data, {
'[[Color notation|Color name]]',
"[[Comma|Comma size]]",
colour_name
comma,
})
})
end
end
if comma and rational then
-- TODO: compute
local S_expressions = rat.find_S_expression(ratio)
local FJS_name = frame.args['FJS name']
if #S_expressions > 0 then
if FJS_name and #FJS_name > 0 then
local caption = "[[S-expression]]"
if #S_expressions > 1 then
caption = caption .. "s"
end
table.insert(infobox_data, {
caption,
table.concat(S_expressions, ",<br>"),
})
end
end
 
local sound = frame.args["Sound"]
if value_provided(sound) then
cats = cats .. "[[Category:Pages with internal sound examples]]"
table.insert(infobox_data, {
table.insert(infobox_data, {
'[[Functional Just System|FJS name]]',
"[[File:" .. sound .. "|270px]]<br><span style=\"font-size: 75%;\">[[:File:" .. sound .. "|<nowiki>[sound info]</nowiki>]]</span>",
FJS_name
})
})
elseif debug_mode and debug_mode ~= "hide" and regular then
local hz = 2 ^ (math.log(440) / math.log(2) + cents / 1200)
-- is it within hearing range?
if hz >= 20 and hz <= 20000 then
local html_id = "interval_" .. tostring(math.floor(cents))
table.insert(infobox_data, {
"<div style=\"display: flex; justify-content: space-around;\"><div style=\"width: 270px; text-align: center;\">"
.. frame:expandTemplate({
title = "User:Plumtree/Interval Sound",
args = {
Frequency = tostring(hz),
Center = "true",
Label = "Audio demonstration",
Attributes = "id=\"" .. html_id .. "\"",
},
})
.. "<div class=\"sequence-audio-timbre-selector\" data-target=\""
.. html_id
.. "\" data-key=\"interval-audio\" data-default=\"semisine\"></div>"
.. "</div></div>",
})
end
end
end
 
-- TODO: xen-calc (colspan 2)
if value_provided(frame.args["Calc"]) or (regular and rational) then
local sound = frame.args['Sound']
local query = frame.args["Calc"] or ""
if sound and #sound > 0 then
if not value_provided(query) then
if small then
query = ratio_string
else
query = "|" .. rat.as_ket(ratio, nil, false, true) .. ">"
end
end
query = mw.uri.encode(query)
table.insert(infobox_data, {
table.insert(infobox_data, {
'[[File:' .. sound .. '|270px]]<br/><small>[[:File:' .. sound .. '|[sound info]]]</small>'
"<span style=\"font-size: 75%;\">[https://www.yacavone.net/xen-calc/?q=" .. query .. " Open this interval in ''xen-calc'']</span>",
})
})
end
end
local result = infobox.build("<u>Interval&nbsp;information</u>", infobox_data)
table.insert(infobox_data, {
'<small>[https://www.yacavone.net/xen-calc/?q=' .. rat.as_ratio(ratio) .. ' open this interval in \'\'xen-calc\'\']</small>'
})
local s = infobox.build(
'<u>Interval information</u>',
infobox_data
)
if not debug_mode then
if not debug_mode then
s = s .. cats
result = result .. cats
end
end
return s
return frame:preprocess(result)
end
end


return p
return p

Latest revision as of 17:49, 14 September 2025

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

This module generates an infobox providing information about a given interval.

Introspection summary for Module:Infobox interval 
Functions provided (1)
Line Function Params
13 infobox_interval (invokable) (frame)
Lua modules required (5)
Variable Module Functions used
he Module:Harmonic entropy harmonic_entropy
infobox Module:Infobox build
rat Module:Rational parse
cents
as_ket
as_ratio
from_ket
eq
max_prime
is_superparticular
is_square_superparticular
is_reduced
is_harmonic
as_pair
is_prime
is_highly_composite
is_subharmonic
as_subgroup_ket
factorisation
as_FJS
tenney_height
weil_height
wilson_height
is_power
find_S_expression
utils Module:Utils _round
yesno Module:Yesno yesno

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

local p = {}
local he = require("Module:Harmonic entropy")
local infobox = require("Module:Infobox")
local rat = require("Module:Rational")
local utils = require("Module:Utils")
local yesno = require("Module:Yesno")

-- check whether the input is a non-empty string
local function value_provided(s)
	return type(s) == "string" and #s > 0
end

function p.infobox_interval(frame)
	local debug_mode = yesno(frame.args["debug"])

	local page_name = frame:preprocess("{{PAGENAME}}")

	local rational = false
	local small = false -- numerator and denominator can be represented as Lua numbers, or irrational
	local regular = false -- finite and greater than zero

	local ratio = nil
	local cents = nil
	local ket = nil
	local ratio_string = nil

	local infobox_data = {}
	local cats = ""

	-- intervals with relatively small powers
	if value_provided(frame.args["Ratio"]) then
		ratio = rat.parse(frame.args["Ratio"])
		if ratio ~= nil then
			rational = true
			small = true
			regular = not ratio.nan and not ratio.inf and not ratio.zero and ratio.sign > 0
			cents = rat.cents(ratio)
			ket = rat.as_ket(ratio, frame)
			ratio_string = rat.as_ratio(ratio)
		end
	end

	-- intervals with large powers
	if ratio == nil and value_provided(frame.args["Ket"]) then
		ratio = rat.from_ket(frame.args["Ket"])
		if ratio ~= nil then
			rational = true
			small = false
			regular = true
			cents = rat.cents(ratio)
			ket = rat.as_ket(ratio, frame)
			-- display Ratio unless it is page name, in which case it is probably a fallback -- what does this mean?
			if frame.args["Ratio"] ~= page_name then
				ratio_string = frame.args["Ratio"] or ""
			end
		end
	elseif ratio ~= nil and value_provided(frame.args["Ket"]) then
		cats = cats .. "[[Category:Todo:remove explicit ket notation]]"
	end

	-- irrational intervals
	if ratio == nil and value_provided(frame.args["Cents"]) then
		cents = tonumber(frame.args["Cents"])
		if cents ~= nil then
			rational = false
			small = true
			regular = true
			if value_provided(frame.args["Ket"]) then
				ket = frame.args["Ket"]
			end
			-- Ratio is LaTeX unless it is page name, in which case it is probably a fallback -- what does this mean?
			if frame.args["Ratio"] ~= page_name then
				ratio_string = frame.args["Ratio"] or ""
			else
				cats = cats .. "[[Category:Todo:add interval ratio]]"
			end
		end
	elseif ratio ~= nil and value_provided(frame.args["Cents"]) then
		cats = cats .. "[[Category:Todo:remove explicit cents]]"
	end

	if not (regular or rational) then
		cats = cats .. "[[Category:Todo:initialise interval]]"
	end

	-- categorize by rationality and prime limit
	if regular then
		if rational then
			local prime_limit = 2
			if not rat.eq(ratio, 1) then
				prime_limit = rat.max_prime(ratio)
			end
			cats = cats .. "[[Category:Rational intervals]]" .. "[[Category:" .. prime_limit .. "-limit intervals]]"
		else
			cats = cats .. "[[Category:Irrational intervals]]"
		end
	end

	local special_properties = {}
	if rational then
		if small and rat.is_superparticular(ratio) then
			if rat.is_square_superparticular(ratio) then
				table.insert(special_properties, "[[Square superparticular|square superparticular]]")
			else
				table.insert(special_properties, "[[Superparticular interval|superparticular]]")
			end
			cats = cats .. "[[Category:Superparticular ratios]]"
		end
		if rat.is_reduced(ratio, 2, not small) then
			table.insert(special_properties, "[[Octave reduction|reduced]]")
		end
		if rat.is_harmonic(ratio) then
			num, den = rat.as_pair (ratio)
			table.insert(special_properties, "[[harmonic]]")
			cats = cats .. "[[Category:Harmonics|" .. string.rep("#", string.len(num)) .. "]]"
			if rat.is_prime(ratio) then
				table.insert(special_properties, "[[prime harmonic]]")
				cats = cats .. "[[Category:Prime harmonics|" .. string.rep("#", string.len(num)) .. "]]"
			end
			if rat.is_highly_composite(ratio) then
				table.insert(special_properties, "[[highly composite harmonic]]")
				cats = cats .. "[[Category:Highly composite harmonics|" .. string.rep("#", string.len(num)) .. "]]"
			end
		elseif rat.is_harmonic(ratio, true, not small) then
			table.insert(special_properties, "[[Harmonic|reduced harmonic]]")
			cats = cats .. "[[Category:Octave-reduced harmonics]]"
		elseif rat.is_subharmonic(ratio, true, not small) then
			table.insert(special_properties, "[[Subharmonic|reduced subharmonic]]")
			cats = cats .. "[[Category:Octave-reduced subharmonics]]"
		end
	elseif regular then
		if cents >= 0 and cents < 1200 then
			table.insert(special_properties, "[[Octave reduction|reduced]]")
		end
	end

	if value_provided(ratio_string) then
		if rational then
			table.insert(infobox_data, {
				"Ratio",
				ratio_string,
			})
		else
			table.insert(infobox_data, {
				"Expression",
				"<math>" .. ratio_string .. "</math>",
			})
		end
	end
	if regular and rational then
		if ket:match("<sup>") then
			-- there was a subsequence of 4+ zeros
			table.insert(infobox_data, {
				"[[Subgroup monzos and vals|Subgroup monzo]]",
				rat.as_subgroup_ket(ratio, frame),
			})
		else
			table.insert(infobox_data, {
				"Factorization",
				rat.factorisation(ratio),
			})
			table.insert(infobox_data, {
				"[[Monzo]]",
				ket,
			})
		end
	elseif rational then
		table.insert(infobox_data, {
			"Factorization",
			rat.factorisation(ratio),
		})
	elseif value_provided(ket) then
		-- irrational ket is provided:
		table.insert(infobox_data, {
			"[[Monzo]]",
			frame:expandTemplate({
				title = "Monzo",
				args = { ket },
			}),
		})
	end
	if regular then
		table.insert(infobox_data, {
			"Size in [[cent]]s",
			utils._round(cents, 7) .. "¢",
		})
	end

	local name = frame.args["Name"]
	if value_provided(name) then
		local caption = "Name"
		if name:match(",") then
			caption = "Names"
			-- removing manual line breaks
			local matches
			name, matches = name:gsub("<br%s*/?>", "")
			if matches > 0 then
				cats = cats .. "[[Category:Todo:remove manual line breaks]]"
			end
			-- removing whitespaces after commas
			name = name:gsub(",%s+", ",")
			-- placing line breaks after commas
			name = name:gsub(",", ",<br>")
		end
		table.insert(infobox_data, {
			caption,
			name,
		})
	else
		cats = cats .. "[[Category:Todo:add interval name]]"
		table.insert(infobox_data, {
			"Name(s)",
			"<abbr title=\"missing value for parameter 'Name'\">''missing''</abbr><sup>[[Template:Infobox Interval| ?&nbsp;]]</sup>",
		})
	end

	local colour_name = frame.args["Color name"]
	if value_provided(colour_name) then
		table.insert(infobox_data, {
			"[[Kite's color notation|Color name]]",
			colour_name,
		})
	elseif regular and rational then
		cats = cats .. "[[Category:Todo:add color name]]"
	end

	local FJS_name = frame.args["FJS name"]
	if not value_provided(FJS_name) and rational and regular then
		FJS_name = rat.as_FJS(ratio)
	elseif value_provided(FJS_name) then
		local matches
		FJS_name = FJS_name:gsub("%s", "")
		FJS_name, matches = FJS_name:gsub("<br%s*/?>", "")
		if matches > 0 then
			cats = cats .. "[[Category:Todo:remove manual line breaks]]"
		end
		FJS_name, matches = FJS_name:gsub("<sup>(.*)</sup>", "^{%1}")
		if matches > 0 then
			cats = cats .. "[[Category:Todo:replace sup and sub with LaTeX]]"
		end
		FJS_name, matches = FJS_name:gsub("<sub>(.*)</sub>", "_{%1}")
		if matches > 0 then
			cats = cats .. "[[Category:Todo:replace sup and sub with LaTeX]]"
		end
	end
	if value_provided(FJS_name) then
		FJS_name = FJS_name:gsub("^(%w+)", "\\text{%1}")
		FJS_name = FJS_name:gsub("(%-%d+)", "{%1}")
		if #FJS_name <= 200 then
			table.insert(infobox_data, {
				"[[Functional Just System|FJS name]]",
				"<math>" .. FJS_name .. "</math>",
			})
		end
	end

	if #special_properties > 0 then
		table.insert(infobox_data, {
			"Special properties",
			table.concat(special_properties, ",<br>"),
		})
	end

	-- interval complexity
	if rational and regular then
		table.insert(infobox_data, {
			"[[Tenney norm]] (log<sub>2</sub> ''nd'')",
			utils._round(rat.tenney_height(ratio), 6),
		})
		table.insert(infobox_data, {
			"[[Weil norm]] (log<sub>2</sub> max(''n'', ''d''))",
			utils._round(rat.weil_height(ratio), 6),
		})
		table.insert(infobox_data, {
			"[[Wilson norm]] (sopfr(''nd''))",
			utils._round(rat.wilson_height(ratio), 6),
		})
	end

	local harmonic_entropy = frame.args["Harmonic entropy"]
	if regular and value_provided(harmonic_entropy) then
		harmonic_entropy_switch = harmonic_entropy:match("^[Yy][Ee][Ss]$")
		if harmonic_entropy_switch then
			table.insert(infobox_data, {
				"[[Harmonic entropy]]<br>(Shannon, <math>\\sqrt{nd}</math>)",
				"~" .. utils._round(he.harmonic_entropy(cents), 6) .. " bits",
			})
		end
	end

	local is_comma = value_provided(frame.args["Comma"])
	local comma = nil
	if is_comma and regular and cents > 0 then
		-- rational powers are not considered commas
		if not (rational and rat.is_power(ratio)) then
			if cents <= 3.5 then
				comma = "[[Unnoticeable comma|unnoticeable]]"
				cats = cats .. "[[Category:Unnoticeable commas]]"
			elseif cents <= 30 then
				comma = "[[Small comma|small]]"
				cats = cats .. "[[Category:Small commas]]"
			elseif cents <= 100 then
				comma = "[[Medium comma|medium]]"
				cats = cats .. "[[Category:Medium commas]]"
			else
				comma = "[[Large comma|large]]"
				cats = cats .. "[[Category:Large commas]]"
			end
		end
	end
	if comma then
		table.insert(infobox_data, {
			"[[Comma|Comma size]]",
			comma,
		})
	end
	if comma and rational then
		local S_expressions = rat.find_S_expression(ratio)
		if #S_expressions > 0 then
			local caption = "[[S-expression]]"
			if #S_expressions > 1 then
				caption = caption .. "s"
			end
			table.insert(infobox_data, {
				caption,
				table.concat(S_expressions, ",<br>"),
			})
		end
	end

	local sound = frame.args["Sound"]
	if value_provided(sound) then
		cats = cats .. "[[Category:Pages with internal sound examples]]"
		table.insert(infobox_data, {
			"[[File:" .. sound .. "|270px]]<br><span style=\"font-size: 75%;\">[[:File:" .. sound .. "|<nowiki>[sound info]</nowiki>]]</span>",
		})
	elseif debug_mode and debug_mode ~= "hide" and regular then
		local hz = 2 ^ (math.log(440) / math.log(2) + cents / 1200)
		-- is it within hearing range?
		if hz >= 20 and hz <= 20000 then
			local html_id = "interval_" .. tostring(math.floor(cents))
			table.insert(infobox_data, {
				"<div style=\"display: flex; justify-content: space-around;\"><div style=\"width: 270px; text-align: center;\">"
					.. frame:expandTemplate({
						title = "User:Plumtree/Interval Sound",
						args = {
							Frequency = tostring(hz),
							Center = "true",
							Label = "Audio demonstration",
							Attributes = "id=\"" .. html_id .. "\"",
						},
					})
					.. "<div class=\"sequence-audio-timbre-selector\" data-target=\""
					.. html_id
					.. "\" data-key=\"interval-audio\" data-default=\"semisine\"></div>"
					.. "</div></div>",
			})
		end
	end

	if value_provided(frame.args["Calc"]) or (regular and rational) then
		local query = frame.args["Calc"] or ""
		if not value_provided(query) then
			if small then
				query = ratio_string
			else
				query = "|" .. rat.as_ket(ratio, nil, false, true) .. ">"
			end
		end
		query = mw.uri.encode(query)
		table.insert(infobox_data, {
			"<span style=\"font-size: 75%;\">[https://www.yacavone.net/xen-calc/?q=" .. query .. " Open this interval in ''xen-calc'']</span>",
		})
	end

	local result = infobox.build("<u>Interval&nbsp;information</u>", infobox_data)
	
	if not debug_mode then
		result = result .. cats
	end
	
	return frame:preprocess(result)
end

return p
Retrieved from "https://en.xen.wiki/index.php?title=Module:Infobox_interval&oldid=209912"