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Module:ED intro: Difference between revisions

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Ganaram inukshuk (talk | contribs)
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Bugfix for ed-constant and invalid input
Address Template talk: ED intro #Square/cube root of 2. Now square/cube root are displayed instead of 2nd/3rd root
 
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local ord = require('Module:Ordinal')
local ord = require("Module:Ordinal")
local utils = require('Module:Utils')
local rat = require("Module:Rational")
local rat = require('Module:Rational')
local utils = require("Module:Utils")
local yesno = require("Module:Yesno")
local p = {}
local p = {}


-- TODO: Add support for the following
-- TODO: Add support for the following
-- - edc - equal divisions of a non-integer constant or cent value
-- - Make it clear what text is being swapped in string.gsub


-- Notes:
-- Notes:
-- - Edo and edt are technically edh's, and edf an edr; these are their own
-- - Edo and edt are technically equal divisions of a harmonic, and edf an equal
--  types because their intros have specific wording.
--  division of a ratio; these are their own types because their intros have
-- - Edh is a special case of edr, where the ratio is h/1.
--  specific wording.
-- - Under harmonotonic tuning, edc and edr are also called ASp and APSp
-- - An equal division of a harmonic is a special case of an equal division of a
--  (ambitonal sequence and arithmetic pitch sequence, respectively). These
--  ratio, where the ratio is h/1.
--   were formerly called equal-step tunings but were reclassified as 1ed.
-- - An equal division of a ratio and an equal division of a non-integer
--  constant or cent value are also called AS (ambitonal sequence) and APS
--  (arithmetic pitch sequence), respectively.  
-- - All of these are equal-step tunings. We've adopted the 1ed-p notation where
--  possible.  
-- - Equal divisions of irrational constants (such as pi and e) are not very
-- - Equal divisions of irrational constants (such as pi and e) are not very
--  common, but count as equal divisions of arbitrary cent values.
--  common, but count as equal divisions of arbitrary cent values.
local ED_TYPE_EDO = "EDO"
local ED_TYPE_EDT = "EDT"
local ED_TYPE_EDF = "EDF"
local ED_TYPE_EDH = "EDH" -- "equal division of a harmonic"
local ED_TYPE_EDR = "EDR" -- "equal division of a ratio"
local ED_TYPE_EDC = "EDC" -- "equal division of a cent value"
local ED_TYPE_DEFAULT = "UNKNOWN_TYPE"


-- Separate function for edo intro
-- Separate function for edo intro
Line 21: Line 34:
local ed = ed or 12
local ed = ed or 12
-- Exactly or about? Round to 3 DPs
-- Exactly or about? Check up to three significant figures
local edstep_size = 1200 / ed
local edstep_size = 1200 / ed
local edstep_size_rounded = utils._round(edstep_size, 3)
local edstep_size_rounded = utils._round(edstep_size, 3)
local is_exact = edstep_size - edstep_size_rounded == 0
local is_exact = edstep_size - edstep_size_rounded == 0
local ordinal = ord._ordinal(ed)
local intro_text = ""
local intro_text = ""
if ed == 1 then
if ed == 1 then
intro_text = "'''''k'' equal divisions of the octave''' (abbreviated '''''k''edo''' or '''''k''ed2'''), also called '''''k''-tone equal temperament''' ('''''k''tet''') or '''''k'' equal temperament''' ('''''k''et''') when viewed under a [[regular temperament]] perspective, is the [[tuning system]] where adjacent pitches are one interval of 2/1 (one [[octave]]) apart, or exactly/about ''s'' [[¢]]."
intro_text = "'''1 equal division of the octave''' (abbreviated '''1edo''' or '''1ed2'''), also called '''1-tone equal temperament''' ('''1tet''') or '''1 equal temperament''' ('''1et''') when viewed under a [[regular temperament]] perspective, is the [[tuning system]] that uses [[equal]] steps of 2/1 (one [[octave]]), or exactly/about ''s''{{cent}}."
else
else
intro_text = "'''''k'' equal divisions of the octave''' (abbreviated '''''k''edo''' or '''''k''ed2'''), also called '''''k''-tone equal temperament''' ('''''k''tet''') or '''''k'' equal temperament''' ('''''k''et''') when viewed under a [[regular temperament]] perspective, is the [[tuning system]] that divides the [[octave]] into ''k'' [[equal]] parts of exactly/about ''s'' [[¢]] each. Each step represents a [[frequency ratio]] of 2<sup>1/''k''</sup>, or the ''kth'' root of 2."
intro_text = "'''''k'' equal divisions of the octave''' (abbreviated '''''k''edo''' or '''''k''ed2'''), also called '''''k''-tone equal temperament''' ('''''k''tet''') or '''''k'' equal temperament''' ('''''k''et''') when viewed under a [[regular temperament]] perspective, is the [[tuning system]] that divides the [[octave]] into ''k'' [[equal]] parts of exactly/about ''s''{{cent}} each. Each step represents a [[frequency ratio]] of 2<sup>1/''k''</sup>, or the ''kth'' root of 2."
end
end


Line 38: Line 49:
intro_text = string.gsub(intro_text, "''k''", ed)
intro_text = string.gsub(intro_text, "''k''", ed)
intro_text = string.gsub(intro_text, "exactly/about", (is_exact and "exactly" or "about"))
intro_text = string.gsub(intro_text, "exactly/about", (is_exact and "exactly" or "about"))
intro_text = string.gsub(intro_text, "''s''", string.format("%.3f", edstep_size))
intro_text = string.gsub(intro_text, "''s''", utils._round (edstep_size, 3))
intro_text = string.gsub(intro_text, "''kth''", ord._ordinal(ed))
intro_text = string.gsub(intro_text, "''kth''", p.root_ordinal(ed))
return intro_text
return intro_text
Line 48: Line 59:
local ed = ed or 13
local ed = ed or 13
-- Exactly or about? Round to 3 DPs
-- Exactly or about? Check up to three significant figures
local edstep_size = math.log(3) * 1200 / math.log(2) / ed
local equave_in_cents = math.log(3) * 1200
local edstep_size = equave_in_cents / math.log(2) / ed
local edstep_size_rounded = utils._round(edstep_size, 3)
local edstep_size_rounded = utils._round(edstep_size, 3)
local is_exact = edstep_size - edstep_size_rounded == 0
local is_exact = edstep_size - edstep_size_rounded == 0
local ordinal = ord._ordinal(ed)
local intro_text = ""
local intro_text = ""
if ed == 1 then
if ed == 1 then
intro_text = "'''''k'' equal divisions of the tritave''', '''perfect twelfth''', or '''3rd harmonic''' (abbreviated '''''k''edt''' or '''''k''ed3'''), is the [[nonoctave]] [[tuning system]] where adjacent pitches are one interval of 3/1 (one [[tritave]]) apart, or exactly/about ''s'' [[¢]]."
intro_text = "'''1 equal division of the tritave''', '''perfect twelfth''', or '''3rd harmonic''' (abbreviated '''1edt''' or '''1ed3'''), is a [[nonoctave]] [[tuning system]] that uses [[equal]] steps of [[3/1]] (one tritave), or exactly/about ''s''{{cent}}."
else
else
intro_text = "'''''k'' equal divisions of the tritave''', '''perfect twelfth''', or '''3rd harmonic''' (abbreviated '''''k''edt''' or '''''k''ed3'''), is the [[nonoctave]] [[tuning system]] that divides the interval of [[3/1]] into ''k'' [[equal]] parts of exactly/about ''s'' [[¢]] each. Each step represents a [[frequency ratio]] of 3<sup>1/''k''</sup>, or the ''kth'' root of 3."
intro_text = "'''''k'' equal divisions of the tritave''', '''perfect twelfth''', or '''3rd harmonic''' (abbreviated '''''k''edt''' or '''''k''ed3'''), is a [[nonoctave]] [[tuning system]] that divides the interval of [[3/1]] into ''k'' [[equal]] parts of exactly/about ''s''{{cent}} each. Each step represents a [[frequency ratio]] of 3<sup>1/''k''</sup>, or the ''kth'' root of 3."
end
end


Line 65: Line 75:
intro_text = string.gsub(intro_text, "''k''", ed)
intro_text = string.gsub(intro_text, "''k''", ed)
intro_text = string.gsub(intro_text, "exactly/about", (is_exact and "exactly" or "about"))
intro_text = string.gsub(intro_text, "exactly/about", (is_exact and "exactly" or "about"))
intro_text = string.gsub(intro_text, "''s''", string.format("%.3f", edstep_size))
intro_text = string.gsub(intro_text, "''s''", utils._round (edstep_size, 3))
intro_text = string.gsub(intro_text, "''kth''", ord._ordinal(ed))
intro_text = string.gsub(intro_text, "''kth''", p.root_ordinal(ed))
return intro_text
return intro_text
Line 75: Line 85:
local ed = ed or 7
local ed = ed or 7
-- Exactly or about? Round to 3 DPs
-- Exactly or about? Check up to three significant figures
local edstep_size = math.log(3/2) * 1200 / math.log(2) / ed
local equave_in_cents = math.log(3/2) * 1200
local edstep_size = equave_in_cents / math.log(2) / ed
local edstep_size_rounded = utils._round(edstep_size, 3)
local edstep_size_rounded = utils._round(edstep_size, 3)
local is_exact = edstep_size - edstep_size_rounded == 0
local is_exact = edstep_size - edstep_size_rounded == 0
local ordinal = ord._ordinal(ed)
local intro_text = ""
local intro_text = ""
if ed == 1 then
if ed == 1 then
intro_text = "'''''k'' equal divisions of the perfect fifth''' (abbreviated '''''k''edf''' or '''''k''ed3/2'''), is the [[nonoctave]] [[tuning system]] where adjacent pitches are one interval of 3/2 (one [[tritave]]) apart, or exactly/about ''s'' [[¢]]."
intro_text = "'''1 equal division of the perfect fifth''' (abbreviated '''1edf''' or '''1ed3/2''') is a [[nonoctave]] [[tuning system]] that uses [[equal]] steps of [[3/2]] (one perfect fifth), or exactly/about ''s''{{cent}}."
else
else
intro_text = "'''''k'' equal divisions of the perfect fifth''' (abbreviated '''''k''edf''' or '''''k''ed3/2'''), is the [[nonoctave]] [[tuning system]] that divides the interval of [[3/2]] into ''k'' [[equal]] parts of exactly/about ''s'' [[¢]] each. Each step represents a [[frequency ratio]] of (3/2)<sup>1/''k''</sup>, or the ''kth'' root of 3/2."
intro_text = "'''''k'' equal divisions of the perfect fifth''' (abbreviated '''''k''edf''' or '''''k''ed3/2''') is a [[nonoctave]] [[tuning system]] that divides the interval of [[3/2]] into ''k'' [[equal]] parts of exactly/about ''s''{{cent}} each. Each step represents a [[frequency ratio]] of (3/2)<sup>1/''k''</sup>, or the ''kth'' root of 3/2."
end
end


Line 92: Line 101:
intro_text = string.gsub(intro_text, "''k''", ed)
intro_text = string.gsub(intro_text, "''k''", ed)
intro_text = string.gsub(intro_text, "exactly/about", (is_exact and "exactly" or "about"))
intro_text = string.gsub(intro_text, "exactly/about", (is_exact and "exactly" or "about"))
intro_text = string.gsub(intro_text, "''s''", string.format("%.3f", edstep_size))
intro_text = string.gsub(intro_text, "''s''", utils._round (edstep_size, 3))
intro_text = string.gsub(intro_text, "''kth''", ord._ordinal(ed))
intro_text = string.gsub(intro_text, "''kth''", p.root_ordinal(ed))
return intro_text
return intro_text
Line 103: Line 112:
local harmonic = harmonic or 4
local harmonic = harmonic or 4
-- Exactly or about? Round to 3 DPs
-- Exactly or about? Check up to three significant figures
local edstep_size = math.log(harmonic) * 1200 / math.log(2) / ed
local equave_in_cents = math.log(harmonic) * 1200  
local edstep_size = equave_in_cents / math.log(2) / ed
local edstep_size_rounded = utils._round(edstep_size, 3)
local edstep_size_rounded = utils._round(edstep_size, 3)
local is_exact = edstep_size - edstep_size_rounded == 0
local is_exact = edstep_size - edstep_size_rounded == 0
local ordinal = ord._ordinal(ed)
local intro_text = ""
local intro_text = ""
if ed == 1 then
if ed == 1 then
intro_text = "'''''k'' equal divisions of the hth harmonic''' (abbreviated '''''k''ed''h'''''), is the [[nonoctave]] [[tuning system]] where adjacent pitches are one interval of [[''h''/1]] apart, or exactly/about ''s'' [[¢]]."
intro_text = "'''1 equal division of the hth harmonic''' (abbreviated '''1ed''h''''') is a [[nonoctave]] [[tuning system]] that uses [[equal]] steps of [[''h''/1]], or exactly/about ''s''{{cent}}."
else
else
intro_text = "'''''k'' equal divisions of the hth harmonic''' (abbreviated '''''k''ed''h'''''), is the [[nonoctave]] [[tuning system]] that divides the interval of [[''h''/1]] into ''k'' [[equal]] parts of exactly/about ''s'' [[¢]] each. Each step represents a [[frequency ratio]] of ''h''<sup>1/''k''</sup>, or the ''kth'' root of ''h''."
intro_text = "'''''k'' equal divisions of the hth harmonic''' (abbreviated '''''k''ed''h''''') is a [[nonoctave]] [[tuning system]] that divides the interval of [[''h''/1]] into ''k'' [[equal]] parts of exactly/about ''s''{{cent}} each. Each step represents a [[frequency ratio]] of ''h''<sup>1/''k''</sup>, or the ''kth'' root of ''h''."
end
end


Line 120: Line 128:
intro_text = string.gsub(intro_text, "''k''", ed)
intro_text = string.gsub(intro_text, "''k''", ed)
intro_text = string.gsub(intro_text, "exactly/about", (is_exact and "exactly" or "about"))
intro_text = string.gsub(intro_text, "exactly/about", (is_exact and "exactly" or "about"))
intro_text = string.gsub(intro_text, "''s''", string.format("%.3f", edstep_size))
intro_text = string.gsub(intro_text, "''s''", utils._round (edstep_size, 3))
intro_text = string.gsub(intro_text, "''kth''", ord._ordinal(ed))
intro_text = string.gsub(intro_text, "''kth''", p.root_ordinal(ed))
intro_text = string.gsub(intro_text, "hth", ord._ordinal(harmonic))
intro_text = string.gsub(intro_text, "hth", ord._ordinal(harmonic))
intro_text = string.gsub(intro_text, "''h''", harmonic)
intro_text = string.gsub(intro_text, "''h''", harmonic)
Line 133: Line 141:
local ratio = ratio or rat.new(9,4)
local ratio = ratio or rat.new(9,4)
-- Exactly or about? Round to 3 DPs
-- Exactly or about? Check up to three significant figures
local edstep_size = rat.cents(ratio) / ed
local equave_in_cents = rat.cents(ratio)
local edstep_size = equave_in_cents / ed
local edstep_size_rounded = utils._round(edstep_size, 3)
local edstep_size_rounded = utils._round(edstep_size, 3)
local is_exact = edstep_size - edstep_size_rounded == 0
local is_exact = edstep_size - edstep_size_rounded == 0
local ordinal = ord._ordinal(ed)
local intro_text = ""
if ed == 1 then
intro_text = "'''1 equal division of ''p/q''''' (abbreviated '''1ed''p/q''''') is a [[nonoctave]] [[tuning system]] that uses [[equal]] steps of [[''p/q'']], or exactly/about ''s''{{cent}}."
else
intro_text = "'''''k'' equal divisions of ''p/q''''' (abbreviated '''''k''ed''p/q''''') is a [[nonoctave]] [[tuning system]] that divides the interval of [[''p/q'']] into ''k'' [[equal]] parts of exactly/about ''s''{{cent}} each. Each step represents a [[frequency ratio]] of (''p/q'')<sup>1/''k''</sup>, or the ''kth'' root of ''p/q''."
end
 
-- Replace certain strings with the intended final versions
intro_text = string.gsub(intro_text, "''k''", ed)
intro_text = string.gsub(intro_text, "exactly/about", (is_exact and "exactly" or "about"))
intro_text = string.gsub(intro_text, "''s''", utils._round (edstep_size, 3))
intro_text = string.gsub(intro_text, "''kth''", p.root_ordinal(ed))
intro_text = string.gsub(intro_text, "''p/q''", rat.as_ratio(ratio))
return intro_text
end
 
-- Separate function for edc (arbitrary cent value)
function p.edc_intro(ed, cents)
local ed = ed or 1
local cents = cents or 97.5
-- Exactly or about? Check up to three significant figures
local edstep_size = cents / ed
local edstep_size_rounded = utils._round(edstep_size, 3)
local is_exact = edstep_size - edstep_size_rounded == 0
local intro_text = ""
local intro_text = ""
if ed == 1 then
if ed == 1 then
intro_text = "'''''k'' equal divisions of ''p/q''''' (abbreviated '''''k''ed''p/q''''') is the [[nonoctave]] [[tuning system]] where adjacent pitches are one interval of [[p/q]] apart, or exactly/about ''s'' [[¢]]."
intro_text = "'''1 equal division of ''c''{{c}}''' (abbreviated '''1ed''c''{{c}}''') is a [[nonoctave]] [[tuning system]] that uses [[equal]] steps of ''c''{{cent}}."
else
else
intro_text = "'''''k'' equal divisions of ''p/q''''' (abbreviated '''''k''ed''p/q''''') is the [[nonoctave]] [[tuning system]] that divides the interval of [[''p/q'']] into ''k'' [[equal]] parts of exactly/about ''s'' [[¢]] each. Each step represents a [[frequency ratio]] of ''p/q''<sup>1/''k''</sup>, or the ''kth'' root of ''p/q''."
intro_text = "'''''k'' equal divisions of ''c''{{c}}''' (abbreviated '''''k''ed''c''{{c}}''') is a [[nonoctave]] [[tuning system]] that divides the interval of ''c''{{c}} into ''k'' [[equal]] parts of exactly/about ''s''{{cent}} each."
end
end


Line 150: Line 184:
intro_text = string.gsub(intro_text, "''k''", ed)
intro_text = string.gsub(intro_text, "''k''", ed)
intro_text = string.gsub(intro_text, "exactly/about", (is_exact and "exactly" or "about"))
intro_text = string.gsub(intro_text, "exactly/about", (is_exact and "exactly" or "about"))
intro_text = string.gsub(intro_text, "''s''", string.format("%.3f", edstep_size))
intro_text = string.gsub(intro_text, "''s''", utils._round (edstep_size, 3))
intro_text = string.gsub(intro_text, "''kth''", ord._ordinal(ed))
intro_text = string.gsub(intro_text, "''c''", cents)
intro_text = string.gsub(intro_text, "''p/q''", rat.as_ratio(ratio))
return intro_text
return intro_text
end
end


function p.edc_intro(ed, cents, constant_symbol)
-- ord._ordinal but for roots
return "Equal divisions of an arbitrary cent value currently not supported."
function p.root_ordinal(n)
local result = ord._ordinal(n)
if n == 2 then
result = "square"
elseif n == 3 then
result = "cube"
end
return result
end
end


Line 171: Line 211:
-- Parse the step count, the suffix, and the equave
-- Parse the step count, the suffix, and the equave
local steps, equave = unparsed:match('^(%d+)[Ee][Dd](.+)$')
local steps, equave = unparsed:match("^(%d+)[Ee][Dd](.+)$")
-- Determine if the ed is for a cent value
local is_cents = string.match(equave, "%d*%.?%d+[Cc¢]$") ~= nil
-- Parse equave
local parsed_equave
local parsed_equave
local ed_type = ED_TYPE_DEFAULT
if equave == "o" or equave == "O" or equave == "2" or equave == "2/1" then
if equave == "o" or equave == "O" or equave == "2" or equave == "2/1" then
-- Equave is octave
-- Equave is octave
parsed_equave = 2
parsed_equave = 2
ed_type = ED_TYPE_EDO
elseif equave == "t" or equave == "T" or equave == "3" or equave == "3/1" then
elseif equave == "t" or equave == "T" or equave == "3" or equave == "3/1" then
-- Equave is tritave/twelfth
-- Equave is tritave/twelfth
parsed_equave = 3
parsed_equave = 3
ed_type = ED_TYPE_EDT
elseif equave == "f" or equave == "F" or equave == "3/2" then
elseif equave == "f" or equave == "F" or equave == "3/2" then
-- Equave is fifth
-- Equave is fifth
parsed_equave = rat.new(3,2)
parsed_equave = rat.new(3,2)
elseif string.match(equave, '^%d+$') ~= nil then
ed_type = ED_TYPE_EDF
elseif string.match(equave, "^%d+$") ~= nil then
-- Equave is arbitrary harmonic (not 2/1 or 3/1)
-- Equave is arbitrary harmonic (not 2/1 or 3/1)
parsed_equave = tonumber(equave)
parsed_equave = tonumber(equave)
elseif string.match(equave, '^%d+/%d+$') ~= nil then
ed_type = ED_TYPE_EDH
elseif string.match(equave, "^%d+/%d+$") ~= nil then
-- Equave is arbitrary ratio (not 3/2)
-- Equave is arbitrary ratio (not 3/2)
local num, den = equave:match('^(%d+)/(%d+)$')
local num, den = equave:match("^(%d+)/(%d+)$")
parsed_equave = rat.new(tonumber(num), tonumber(den))
parsed_equave = rat.new(tonumber(num), tonumber(den))
ed_type = ED_TYPE_EDR
elseif is_cents then
-- Equave is arbitrary cent value
parsed_equave = tonumber(equave:match("^(%d*%.?%d+)[Cc¢]$"))
ed_type = ED_TYPE_EDC
else
else
-- Equave is unsupported
-- Equave is unsupported
Line 195: Line 249:
end
end
return steps, parsed_equave
return tonumber(steps), parsed_equave, ed_type
end
 
-- ED-EDO comparison
-- Meant for finding what edo a nonoctave ed corresponds to
function p.edo_compare(ed)
local ed = ed or "12edf"
local parsed_ed, parsed_equave, ed_type = p.parse(ed)
local edstep_size = 0;
if ed_type == ED_TYPE_EDC then
edstep_size = parsed_equave / parsed_ed
else
edstep_size = rat.cents(parsed_equave) / parsed_ed
end
local ed_compare = 1200 / edstep_size
local ed_compare_text = "''ed1'' roughly corresponds to ''ed2''edo, "
-- Replace certain strings with the intended final versions
ed_compare_text = string.gsub(ed_compare_text, "''ed1''", ed)
ed_compare_text = string.gsub(ed_compare_text, "''ed2''", string.format("%.3f", ed_compare))
local ed_floor = math.floor(ed_compare)
local diff = ed_compare - ed_floor
if diff > 0.5 then
ed_compare_text = ed_compare_text .. string.format("and can be seen as %dedo with stretched octaves", ed_floor+1)
else
ed_compare_text = ed_compare_text .. string.format("and can be seen as %dedo with compressed octaves", ed_floor)
end
if diff > 0.4 and diff < 0.6 then
ed_compare_text = ed_compare_text .. string.format(", or roughly every second step of %dedo.", 2*ed_floor+1)
else
ed_compare_text = ed_compare_text .. "."
end
return ed_compare_text
end
end


-- Primary function
-- Primary function
function p._ed_intro(ed)
function p._ed_intro(ed)
local ed = ed or "12ed4/3"
local ed = ed or "12"
local parsed_ed, parsed_equave = p.parse(ed)
local parsed_ed, parsed_equave, ed_type = p.parse(ed)
if rat.eq(0, parsed_equave) then
if ed_type == ED_TYPE_DEFAULT then
return "Equave not supported."
return "{{error|Error: Equave type not supported or entered incorrectly.}}"
elseif rat.eq(2, parsed_equave) then
elseif ed_type == ED_TYPE_EDO then
return p.edo_intro(parsed_ed)
return p.edo_intro(parsed_ed)
elseif rat.eq(3, parsed_equave) then
elseif ed_type == ED_TYPE_EDT then
return p.edt_intro(parsed_ed)
return p.edt_intro(parsed_ed)
elseif rat.eq(rat.new(3,2), parsed_equave) then
elseif ed_type == ED_TYPE_EDF then
return p.edf_intro(parsed_ed)
return p.edf_intro(parsed_ed)
elseif rat.is_harmonic(parsed_equave) then
elseif ed_type == ED_TYPE_EDH then
return p.edh_intro(parsed_ed, parsed_equave)
return p.edh_intro(parsed_ed, parsed_equave)
elseif not rat.is_harmonic(parsed_equave) then
elseif ed_type == ED_TYPE_EDR then
return p.edr_intro(parsed_ed, parsed_equave)
return p.edr_intro(parsed_ed, parsed_equave)
else
elseif ed_type == ED_TYPE_EDC then
return "Invalid input."
return p.edc_intro(parsed_ed, parsed_equave)
end
end
end
-- Tester function
function p.ed_intro_tester()
return
p._ed_intro("12") .. "\n" ..
p._ed_intro("12edt") .. "\n" ..
p._ed_intro("12edf") .. "\n" ..
p._ed_intro("12ed4") .. "\n" ..
p._ed_intro("12ed9/8") .. "\n" ..
p._ed_intro("12ed666c") .. "\n" .. "\n" ..
p._ed_intro("1") .. "\n" ..
p._ed_intro("1ed3") .. "\n" ..
p._ed_intro("1ed3/2") .. "\n" ..
p._ed_intro("1ed4") .. "\n" ..
p._ed_intro("1ed9/8") .. "\n" ..
p._ed_intro("1ed666c") .. "\n"
end
end


-- Wrapper function; for use with a template
-- Wrapper function; for use with a template
function p.ed_intro(frame)
function p.ed_intro(frame)
local ed = frame.args['ED']
local ed = frame.args["ED"]
 
local edo = frame.args["EDO"] -- For backwards compatibility with edo intro
return p._ed_intro(ed)
local debugg = yesno(frame.args["debug"])
local result = p._ed_intro((edo == nil) and ed or edo)
if debugg == true then
result = "<syntaxhighlight lang=\"wikitext\">" .. result .. "</syntaxhighlight>"
end
return frame:preprocess(result)
end
end


return p
return p
Retrieved from "https://en.xen.wiki/w/Module:ED_intro"