Module:Infobox ET
Note: Do not invoke this module directly; use the corresponding template instead: Template:Infobox ET.
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This module depends on the following other modules: |
This module automatically fills in information about a specified equal temperament tuning.
local p = {}
local i = require('Module:Interval')
local u = require('Module:Utils')
local rat = require('Module:Rational')
local l = require('Module:Limits')
local ET = require('Module:ET')
local infobox = require('Module:Infobox')
-- towards is one of: -1 (floor), 0 (nearest), 1 (ceil)
local function approximation(et, interval, towards, precomputed_approx)
local approx = ET.approximate(et, interval, towards or 0)
if precomputed_approx then
approx = precomputed_approx
end
local tuning = et.size
if not rat.eq(et.equave, 2) then
tuning = tuning .. et.suffix
end
local ratio = rat.new(approx, et.size)
if rat.as_table(ratio)[1] ~= approx then
local link = rat.as_table(ratio)[2] .. et.suffix
ratio = ' (→[[' .. link .. '|' .. rat.as_ratio(ratio, '\\')
if not rat.eq(et.equave, 2) then
ratio = ratio .. et.suffix
end
ratio = ratio .. ']])'
else
ratio = ''
end
local cents = u._round(ET.cents(et, approx), 6)
return approx .. '\\' .. tuning .. ' (' .. cents .. '¢)' .. ratio
end
function p.infobox_ET(frame)
-- debug mode
local debug_mode = frame.args['debug'] ~= nil
local tuning = frame.args['tuning']
local et = ET.parse(tuning) or ET.parse('12edo')
local prime = ""
if u.is_prime(et.size) then
prime = " (prime)"
end
local zeta = frame.args['Zeta']
local is_zeta = nil
if type(zeta) == 'string' and #zeta > 0 then
is_zeta = not zeta:match('^[Nn][Oo]$')
end
local prev_one = ''
if et.size > 0 then
prev_one = '[[' .. (et.size - 1) .. et.suffix .. '|← ' .. (et.size - 1) .. et.suffix .. ']]'
end
local next_one = '[[' .. (et.size + 1) .. et.suffix .. '|' .. (et.size + 1) .. et.suffix .. ' →]]'
local step_size = ET.cents(et, 1)
local fifth = ET.approximate(et, 3/2)
local fifth_error = ET.cents(et, fifth) - i._to_cents(3/2)
local dual_fifth = math.abs(fifth_error) > step_size / 3
local note_12edo = ''
if rat.eq(et.equave, 2) and et.size == 12 then
note_12edo = '<sup>by definition</sup>'
end
local octave = ET.approximate(et, 2)
local A1 = 7 * fifth - 4 * octave
local m2 = 3 * octave - 5 * fifth
local A1_cents = u._round(ET.cents(et, A1), 4)
local m2_cents = u._round(ET.cents(et, m2), 4)
local infobox_data = {}
table.insert(infobox_data, {
'Prime factorization',
u._prime_factorization(et.size) .. prime
})
if ET.is_highly_composite(et) or (is_zeta ~= false and ET.is_zeta(et)) then
local text = ''
if ET.is_highly_composite(et) then
text = text .. '[[Highly composite equal division|highly composite]]'
end
if is_zeta ~= false and ET.is_zeta(et) then
if #text > 0 then text = text .. ', ' end
if type(zeta) ~= 'string' or #zeta == 0 then
text = text .. ET.why_zeta(et)
else
text = text .. zeta
end
end
table.insert(infobox_data, {
'Special properties',
'<div style="max-width: 270px;">' .. text .. '</div>'
})
end
table.insert(infobox_data, {
'Step size',
u._round(step_size, 6) .. '¢' .. note_12edo
})
if not rat.eq(et.equave, rat.new(3, 2)) then
table.insert(infobox_data, {
'Fifth',
approximation(et, 3/2)
})
end
if not rat.eq(et.equave, 2) then
table.insert(infobox_data, {
'Octave',
approximation(et, 2)
})
end
table.insert(infobox_data, {
'Semitones (A1:m2)',
A1 .. ':' .. m2 .. ' (' .. A1_cents .. '¢ : ' .. m2_cents .. '¢)'
})
if dual_fifth and et.size > 0 then
table.insert(infobox_data, {
'Sharp fifth',
approximation(et, 3/2, 1)
})
table.insert(infobox_data, {
'Flat fifth',
approximation(et, 3/2, -1)
})
local sharp = ET.approximate(et, 3/2, 1)
local flat = ET.approximate(et, 3/2, -1)
table.insert(infobox_data, {
'Major 2nd',
approximation(et, 9/8, 0, sharp + flat - octave)
})
end
local consistency = tonumber(frame.args['Consistency'])
if consistency == nil then
consistency = l.consistency_limit(et, false, 43)
end
if consistency == nil then
consistency = 'at least 43'
end
if consistency ~= nil then
table.insert(infobox_data, {
'Consistency limit',
consistency
})
end
local distinct_consistency = tonumber(frame.args['Distinct consistency'])
if distinct_consistency == nil then
distinct_consistency = l.consistency_limit(et, consistency or true, 43)
end
if distinct_consistency == nil then
distinct_consistency = 'at least 43'
end
if distinct_consistency ~= nil then
table.insert(infobox_data, {
'Distinct consistency limit',
distinct_consistency
})
end
return infobox.build(
'[[' .. et.suffix .. '|' .. tuning .. ']]',
infobox_data,
prev_one,
next_one
)
end
return p