local p = {}
local u = require('Module:Utils')
local iv = require('Module:Interval')
local rat = require('Module:Rational')
local ud = require('Module:Ups and downs notation')
local ET = require('Module:ET')
-- Gets mapping of a monzo in a val
local function mapping(monzo, val)
local result = 0
for k,v in pairs(val) do
result = val[k] * (monzo[k] or 0)
end
return result
end
local function gcd(a, b)
return b==0 and a or gcd(b,a%b)
end
-- Generates list of ratios up to a max numerator & denominator, and max ratio size
local function get_ratios_list(max_nd, max_size)
local ratios = {}
local ratio_strings = {}
for i=1,max_nd do
for j=1,max_nd do
t = i/gcd(i,j) .. "/" .. j/gcd(i,j)
if (i/j) >= 1 and (i/j) <= max_size and not u._table_contains(ratio_strings, t) then
ratios[#ratios + 1] = {i/gcd(i,j),j/gcd(i,j)}
ratio_strings[#ratio_strings + 1] = t
end
end
end
return ratios
end
-- Utility fuunction to get specific note name with ud.get_note_names_table
-- (this is essentially what "Template:Ups and downs note name" does)
local function ud_note(et, fifth, step)
return table.concat(ud.get_note_names_table(et, fifth)[step], ", "):sub(0, -1)
end
function p.interval_table(frame)
local tuning = frame.args['tuning']
local et = ET.parse(tuning) or ET.parse('12edo')
local patent_val = {
ET.approximate(et, 2),
ET.approximate(et, 3),
ET.approximate(et, 5),
ET.approximate(et, 7),
ET.approximate(et, 11),
ET.approximate(et, 13),
ET.approximate(et, 17),
ET.approximate(et, 19),
ET.approximate(et, 23),
ET.approximate(et, 29),
ET.approximate(et, 31),
ET.approximate(et, 37),
ET.approximate(et, 41),
ET.approximate(et, 47),
ET.approximate(et, 53),
ET.approximate(et, 59),
ET.approximate(et, 61)
}
local wikitext = '{|class="wikitable"\n'
local octave = patent_val[1]
local fifth = patent_val[2] - patent_val[1]
local fifth_error = ET.cents(et, fifth) - iv._to_cents(3/2)
local dual_fifth = math.abs(fifth_error) > (400 / et.size)
local dual_flat_fifth = ET.approximate(et, 3/2, -1)
local dual_sharp_fifth = ET.approximate(et, 3/2, 1)
-- List of all ratios with numerator and denominator <= 60 and in the range 1/1 - 5/1
local ratios_list = get_ratios_list(60, 5)
wikitext = wikitext .. '!Steps\n'
wikitext = wikitext .. '!Cents\n'
if rat.eq(et.equave, 2) then
if dual_fifth then
wikitext = wikitext .. '![[Ups and downs notation]]<br>(dual flat fifth ' .. dual_flat_fifth .. '\\' .. et.size .. ')\n'
wikitext = wikitext .. '![[Ups and downs notation]]<br>(dual sharp fifth ' .. dual_sharp_fifth .. '\\' .. et.size .. ')\n'
else
wikitext = wikitext .. '![[Ups and downs notation]]\n'
end
end
wikitext = wikitext .. '!Approximate ratios\n'
for i=0,et.size do
wikitext = wikitext .. '|-\n'
wikitext = wikitext .. '|' .. i .. '\n'
wikitext = wikitext .. '|' .. u._round(ET.cents(et, i), 6) .. '\n'
if rat.eq(et.equave, 2) then
if dual_fifth then
wikitext = wikitext .. '|' .. ud_note(et, dual_flat_fifth, i) .. '\n'
wikitext = wikitext .. '|' .. ud_note(et, dual_sharp_fifth, i) .. '\n'
else
wikitext = wikitext .. '|' .. ud_note(et, fifth, i) .. '\n'
end
end
wikitext = wikitext .. '|'
for j=1,#ratios_list do
-- Go through all ratios, if they are mapped to the current step in the ET's patent val, add to approximate ratios column
t = mapping(u._get_monzo(ratios_list[j]), upatent_val)
if t == i then
wikitext = wikitext .. ratios_list[j][1] .. '/' .. ratios_list[j][2] .. ', '
end
end
wikitext = wikitext:sub(0, -2) .. '\n'
end
wikitext = wikitext .. '|}'
return wikitext
end
return p
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