Module:Scale tree: Difference between revisions
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CompactStar (talk | contribs) No edit summary |
Simplified entry of comments so it's based on key-value pairs: step ratio followed by comment text |
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| Line 5: | Line 5: | ||
local rat = require('Module:Rational') | local rat = require('Module:Rational') | ||
local sb = require('Module:SB tree') | local sb = require('Module:SB tree') | ||
-- Helper function that parses entries from a semicolon-delimited string and returns them in an array | |||
-- TODO: Separate this and parse_pairs into its own module of helper functions, as they're included | |||
-- in various modules at this point | |||
function p.parse_entries(unparsed) | |||
local parsed = {} | |||
for entry in string.gmatch(unparsed, '([^;]+)') do | |||
table.insert(parsed, entry) -- Add to array | |||
end | |||
return parsed | |||
end | |||
-- Helper function that parses pairs of elements separated by a colon | |||
-- A pair must be two elements or it will be returned as an empty array | |||
function p.parse_pair(unparsed) | |||
local parsed = {} | |||
for entry in string.gmatch(unparsed, '([^;]+)') do | |||
table.insert(parsed, entry) -- Add to array | |||
end | |||
if #parsed == 2 then | |||
return parsed | |||
else | |||
return {} | |||
end | |||
end | |||
-- Function that takes a list of semicolon-delimited pairs and returns a map | |||
-- (or dictionary or associative array) of key-value pairs | |||
-- Each entry is colon-delimited as key : pair | |||
function p.parse_kv_pairs(unparsed) | |||
-- Tokenize the string of unparsed pairs | |||
local unparsed_pairs = p.parse_entries(unparsed_pairs) | |||
-- Then tokenize the tokens into key-value pairs | |||
local parsed_pairs = {} | |||
for unparsed_pair in unpared_pairs do | |||
local parsed_pair = p.parse_pair(unparsed_pair) | |||
if #parsed_pair == 2 then | |||
parsed_pairs[pair[1]] = pair[2] | |||
end | |||
end | |||
return parsed_pairs | |||
end | |||
function p.scale_tree(frame) | function p.scale_tree(frame) | ||
| Line 20: | Line 62: | ||
local depth = frame.args['depth'] or 5 | local depth = frame.args['depth'] or 5 | ||
local step_ratios = sb.sb_tree_ratios(depth) | local step_ratios = sb.sb_tree_ratios(depth) | ||
-- Get comments | |||
-- Comments are entered as a pair consisting of a JI ratio and comment, separated by a colon | |||
-- p/q: comment text as a string | |||
-- Each entry is then entered as a semicolon-delimtied list | |||
local comments_unparsed = frame.args['Comments'] | |||
local comments = p.parse_kv_pairs(comments_unparsed) | |||
result = '{|class="wikitable"\n' | result = '{|class="wikitable"\n' | ||
| Line 34: | Line 83: | ||
local et = ET.new(step_ratio[1] * L + step_ratio[2] * s, equave) | local et = ET.new(step_ratio[1] * L + step_ratio[2] * s, equave) | ||
local generator_steps = step_ratio[1] * collapsed_bright_steps + step_ratio[2] * (equalized_bright_steps - collapsed_bright_steps) | local generator_steps = step_ratio[1] * collapsed_bright_steps + step_ratio[2] * (equalized_bright_steps - collapsed_bright_steps) | ||
local comments = frame.args[("comment_" .. step_ratio[1] .. "_" .. step_ratio[2])] or "" | |||
-- Entry of comments is done using an associative array, as entries may be sparse | |||
-- Old code commented out | |||
--local comments = frame.args[("comment_" .. step_ratio[1] .. "_" .. step_ratio[2])] or "" | |||
local key = step_ratios[i][1] .. "/" .. step_ratios[i][2] -- The step ratio is (literally and figuratively) the key to add comments! | |||
local l_s = "→ ∞" | local l_s = "→ ∞" | ||
if not (step_ratio[1] == 1 and step_ratio[2] == 0) then | if not (step_ratio[1] == 1 and step_ratio[2] == 0) then | ||
| Line 45: | Line 99: | ||
result = result .. "|" .. step_ratio[2] .. "\n" | result = result .. "|" .. step_ratio[2] .. "\n" | ||
result = result .. "|" .. l_s .. "\n" | result = result .. "|" .. l_s .. "\n" | ||
result = result .. "|" .. comments .. "\n" | --result = result .. "|" .. comments .. "\n" | ||
result = result .. "|" .. comments[key] .. "\n" | |||
i = i + 1 | i = i + 1 | ||
Revision as of 07:10, 28 May 2023
local p = {}
local MOS = require('Module:MOS')
local ET = require('Module:ET')
local u = require('Module:Utils')
local rat = require('Module:Rational')
local sb = require('Module:SB tree')
-- Helper function that parses entries from a semicolon-delimited string and returns them in an array
-- TODO: Separate this and parse_pairs into its own module of helper functions, as they're included
-- in various modules at this point
function p.parse_entries(unparsed)
local parsed = {}
for entry in string.gmatch(unparsed, '([^;]+)') do
table.insert(parsed, entry) -- Add to array
end
return parsed
end
-- Helper function that parses pairs of elements separated by a colon
-- A pair must be two elements or it will be returned as an empty array
function p.parse_pair(unparsed)
local parsed = {}
for entry in string.gmatch(unparsed, '([^;]+)') do
table.insert(parsed, entry) -- Add to array
end
if #parsed == 2 then
return parsed
else
return {}
end
end
-- Function that takes a list of semicolon-delimited pairs and returns a map
-- (or dictionary or associative array) of key-value pairs
-- Each entry is colon-delimited as key : pair
function p.parse_kv_pairs(unparsed)
-- Tokenize the string of unparsed pairs
local unparsed_pairs = p.parse_entries(unparsed_pairs)
-- Then tokenize the tokens into key-value pairs
local parsed_pairs = {}
for unparsed_pair in unpared_pairs do
local parsed_pair = p.parse_pair(unparsed_pair)
if #parsed_pair == 2 then
parsed_pairs[pair[1]] = pair[2]
end
end
return parsed_pairs
end
function p.scale_tree(frame)
local mos = MOS.parse(frame.args['tuning'])
local equave = mos.equave
local L = mos.nL
local s = mos.ns
local collapsed_et = ET.new(L, equave)
local abstract_bright_gen = MOS.bright_gen(mos)
local collapsed_bright_steps = abstract_bright_gen['L']
local equalized_et = ET.new(L + s, equave)
local equalized_bright_steps = abstract_bright_gen['L'] + abstract_bright_gen['s']
local result = ""
local depth = frame.args['depth'] or 5
local step_ratios = sb.sb_tree_ratios(depth)
-- Get comments
-- Comments are entered as a pair consisting of a JI ratio and comment, separated by a colon
-- p/q: comment text as a string
-- Each entry is then entered as a semicolon-delimtied list
local comments_unparsed = frame.args['Comments']
local comments = p.parse_kv_pairs(comments_unparsed)
result = '{|class="wikitable"\n'
result = result .. "|-\n"
result = result .. "!Generator (chroma-positive)\n"
result = result .. "!Cents (chroma-positive)\n"
result = result .. "!L\n"
result = result .. "!s\n"
result = result .. "!L/s\n"
result = result .. "!Comments\n"
local i = 1
while i <= #step_ratios do
local step_ratio = step_ratios[i]
local et = ET.new(step_ratio[1] * L + step_ratio[2] * s, equave)
local generator_steps = step_ratio[1] * collapsed_bright_steps + step_ratio[2] * (equalized_bright_steps - collapsed_bright_steps)
-- Entry of comments is done using an associative array, as entries may be sparse
-- Old code commented out
--local comments = frame.args[("comment_" .. step_ratio[1] .. "_" .. step_ratio[2])] or ""
local key = step_ratios[i][1] .. "/" .. step_ratios[i][2] -- The step ratio is (literally and figuratively) the key to add comments!
local l_s = "→ ∞"
if not (step_ratio[1] == 1 and step_ratio[2] == 0) then
l_s = u._round(step_ratio[1] / step_ratio[2], 4)
end
result = result .. "|-\n"
result = result .. "|[[" .. ET.as_string(et) .. "|" .. generator_steps .. ET.backslash_modifier(et) .. "]]\n"
result = result .. "|" .. u._round(math.log(rat.as_float(et.equave)^(generator_steps / et.size))/math.log(2) * 1200, 6) .. "\n"
result = result .. "|" .. step_ratio[1] .. "\n"
result = result .. "|" .. step_ratio[2] .. "\n"
result = result .. "|" .. l_s .. "\n"
--result = result .. "|" .. comments .. "\n"
result = result .. "|" .. comments[key] .. "\n"
i = i + 1
end
result = result .. "|}"
return result
end
return p