Module:TAMNAMS

-- Module for TAMNAMS-related things as it pertains to mosses
-- This module is meant to be used with other modules, not as part of a template
-- Work in progress
local mos = require('Module:MOS')
local rat = require('Module:Rational')
local utils = require('Module:Utils')
local p = {}

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------------------------------- LOOKUP TABLES ----------------------------------
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-- Lookup table for tamnams step ratios
p.tamnams_ratios = {
	['1:1'] = 'equalized',
	['4:3'] = 'supersoft',
	['3:2'] = 'soft',
	['5:3'] = 'semisoft',
	['2:1'] = 'basic',
	['5:2'] = 'semihard',
	['3:1'] = 'hard',
	['4:1'] = 'superhard',
	['1:0'] = 'collapsed'
}

-- And step ratio ranges
p.tamnams_ranges = {
	['1:1 to 2:1'] = 'soft-of-basic',
	['1:1 to 4:3'] = 'ultrasoft',
	['4:3 to 3:2'] = 'parasoft',
	['3:2 to 2:1'] = 'hyposoft',
	['3:2 to 5:3'] = 'quasisoft',
	['5:3 to 2:1'] = 'minisoft',
	['2:1 to 5:2'] = 'minihard',
	['5:2 to 3:1'] = 'quasihard',
	['2:1 to 3:1'] = 'hypohard',
	['3:1 to 4:1'] = 'parahard',
	['4:1 to 1:0'] = 'ultrahard',
	['2:1 to 1:0'] = 'hard-of-basic'
}

-- Lookup table for tamnams extended step ratios
p.tamnams_ratios_ext = {
	['1:1'] = 'equalized',
	['6:5'] = 'semiequalized',
	['4:3'] = 'supersoft',
	['3:2'] = 'soft',
	['5:3'] = 'semisoft',
	['2:1'] = 'basic',
	['5:2'] = 'semihard',
	['3:1'] = 'hard',
	['4:1'] = 'superhard',
	['6:1'] = 'extrahard',
	['10:1'] = 'semicollapsed',
	['1:0'] = 'collapsed'
}

-- And extended step ratio ranges
p.tamnams_ranges_ext = {
	['1:1 to 2:1'] = 'soft-of-basic',
	['1:1 to 6:5'] = 'pseudocollapsed',
	['6:5 to 4:3'] = 'ultrasoft',
	['4:3 to 3:2'] = 'parasoft',
	['3:2 to 2:1'] = 'hyposoft',
	['3:2 to 5:3'] = 'quasisoft',
	['5:3 to 2:1'] = 'minisoft',
	['2:1 to 5:2'] = 'minihard',
	['5:2 to 3:1'] = 'quasihard',
	['2:1 to 3:1'] = 'hypohard',
	['3:1 to 4:1'] = 'parahard',
	['4:1 to 6:1'] = 'hyperhard',
	['6:1 to 10:1'] = 'clustered',
	['4:1 to 10:1'] = 'ultrahard',
	['10:1 to 1:0'] = 'pseudocollapsed',
	['2:1 to 1:0'] = 'hard-of-basic'
}

-- Lookup table for official tamnams names
p.tamnams_name = {
	['1L 1s'] = 'monowood',
	['2L 2s'] = 'biwood',
	['1L 5s'] = 'antimachinoid',
	['2L 4s'] = 'malic',
	['3L 3s'] = 'triwood',
	['4L 2s'] = 'citric',
	['5L 1s'] = 'machinoid',
	['1L 6s'] = 'onyx',
	['2L 5s'] = 'antidiatonic',
	['3L 4s'] = 'mosh',
	['4L 3s'] = 'smitonic',
	['5L 2s'] = 'diatonic',
	['6L 1s'] = 'archaeotonic',
	['1L 7s'] = 'antipine',
	['2L 6s'] = 'subaric',
	['3L 5s'] = 'checkertonic',
	['4L 4s'] = 'tetrawood',
	['5L 3s'] = 'oneirotonic',
	['6L 2s'] = 'ekic',
	['7L 1s'] = 'pine',
	['1L 8s'] = 'antisubneutralic',
	['2L 7s'] = 'balzano',
	['3L 6s'] = 'tcherepnin',
	['4L 5s'] = 'gramitonic',
	['5L 4s'] = 'semiquartal',
	['6L 3s'] = 'hyrulic',
	['7L 2s'] = 'armotonic',
	['8L 1s'] = 'subneutralic',
	['1L 9s'] = 'antisinatonic',
	['2L 8s'] = 'jaric',
	['3L 7s'] = 'sephiroid',
	['4L 6s'] = 'lime',
	['5L 5s'] = 'pentawood',
	['6L 4s'] = 'lemon',
	['7L 3s'] = 'dicoid',
	['8L 2s'] = 'taric',
	['9L 1s'] = 'sinatonic'
}

-- And prefixes
p.tamnams_prefix = {
	['1L 1s'] = 'monwd',
	['2L 2s'] = 'biwd',
	['1L 5s'] = 'amech',
	['2L 4s'] = 'mal',
	['3L 3s'] = 'triwd',
	['4L 2s'] = 'citro',
	['5L 1s'] = 'mech',
	['1L 6s'] = 'on',
	['2L 5s'] = 'pel',
	['3L 4s'] = 'mosh',
	['4L 3s'] = 'smi',
	['5L 2s'] = 'dia',
	['6L 1s'] = 'arch',
	['1L 7s'] = 'apine',
	['2L 6s'] = 'subar',
	['3L 5s'] = 'check',
	['4L 4s'] = 'tetrawd',
	['5L 3s'] = 'oneiro',
	['6L 2s'] = 'ek',
	['7L 1s'] = 'pine',
	['1L 8s'] = 'ablu',
	['2L 7s'] = 'bal',
	['3L 6s'] = 'cher',
	['4L 5s'] = 'gram',
	['5L 4s'] = 'cthon',
	['6L 3s'] = 'hyru',
	['7L 2s'] = 'arm',
	['8L 1s'] = 'blu',
	['1L 9s'] = 'asina',
	['2L 8s'] = 'jara',
	['3L 7s'] = 'seph',
	['4L 6s'] = 'lime',
	['5L 5s'] = 'pentawd',
	['6L 4s'] = 'lem',
	['7L 3s'] = 'dico',
	['8L 2s'] = 'tara',
	['9L 1s'] = 'sina'
}

-- And abbrevs
p.tamnams_abbrev = {
	['1L 1s'] = 'wood',
	['2L 2s'] = 'bw',
	['1L 5s'] = 'amech',
	['2L 4s'] = 'mal',
	['3L 3s'] = 'trw',
	['4L 2s'] = 'cit',
	['5L 1s'] = 'mech',
	['1L 6s'] = 'on',
	['2L 5s'] = 'pel',
	['3L 4s'] = 'mosh',
	['4L 3s'] = 'smi',
	['5L 2s'] = 'dia',
	['6L 1s'] = 'arch',
	['1L 7s'] = 'apine',
	['2L 6s'] = 'subar',
	['3L 5s'] = 'chk',
	['4L 4s'] = 'ttw',
	['5L 3s'] = 'onei',
	['6L 2s'] = 'ek',
	['7L 1s'] = 'pine',
	['1L 8s'] = 'ablu',
	['2L 7s'] = 'bal',
	['3L 6s'] = 'ch',
	['4L 5s'] = 'gram',
	['5L 4s'] = 'cth',
	['6L 3s'] = 'hyru',
	['7L 2s'] = 'arm',
	['8L 1s'] = 'blu',
	['1L 9s'] = 'asi',
	['2L 8s'] = 'jar',
	['3L 7s'] = 'seph',
	['4L 6s'] = 'lime',
	['5L 5s'] = 'pw',
	['6L 4s'] = 'lem',
	['7L 3s'] = 'dico',
	['8L 2s'] = 'tar',
	['9L 1s'] = 'si'
}

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------------------------------ HELPER FUNCTIONS --------------------------------
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-- Step ratios are entered as an array of two numeric values, or alternatively,
-- as a ratio as defined by the rational module. If of the former, this helper
-- function converts it to the latter.
function p.preprocess_step_ratio(step_ratio)
	return (#step_ratio == 2 and type(step_ratio[1]) == 'number' and type(step_ratio[2]) == 'number') and rat.new(step_ratio[1], step_ratio[2]) or step_ratio
end

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----------------------------- LOOKUP FUNCTIONS ---------------------------------
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-- Function for looking up a mos's name (octave-equivalent mosses only).
-- Can accept either a mos (defined by mos module) or its scalesig.
function p.lookup_name(input_mos) 
	local scalesig = type(input_mos) == "string" and input_mos or mos.as_string(input_mos)
	return p.tamnams_name[scalesig]
end

-- Function for looking up a mos's prefix (octave-equivalent mosses only).
-- Can accept either a mos (defined by mos module) or its scalesig.
function p.lookup_prefix(input_mos) 
	local scalesig = type(input_mos) == "string" and input_mos or mos.as_string(input_mos)
	return p.tamnams_prefix[scalesig]
end

-- Function for looking up a mos's abbrev (octave-equivalent mosses only).
-- Can accept either a mos (defined by mos module) or its scalesig.
function p.lookup_abbrev(input_mos) 
	local scalesig = type(input_mos) == "string" and input_mos or mos.as_string(input_mos)
	return p.tamnams_abbrev[scalesig]
end

-- Function for looking up a step ratio range
-- Module:Rational is used to help simplify ratios
function p.lookup_step_ratio(step_ratio, use_extended)
	local step_ratio = p.preprocess_step_ratio(step_ratio)
	local use_extended = use_extended == true
	
	-- Produce the key needed to lookup the step ratio name
	-- use_extended is used to toggle between central range and extended range
	local key = rat.as_ratio(step_ratio, ':')
	local named_ratio = use_extended and p.tamnams_ratios_ext[key] or p.tamnams_ratios[key]
	
	return named_ratio ~= nil and named_ratio or key
end

-- Function for looking up a step ratio range
-- Module:Rational is used to help simplify ratios
function p.lookup_step_ratio_range(step_ratio_1, step_ratio_2, use_extended)
	local step_ratio_1 = p.preprocess_step_ratio(step_ratio_1)
	local step_ratio_2 = p.preprocess_step_ratio(step_ratio_2)
	local use_extended = use_extended == true
	
	-- Produce the key needed for the lookup table as a/b to c/d
	-- Swap ratios if ratio 1 has a higher hardness than ratio 2
	local key = ""
	local float_1 = rat.as_float(step_ratio_1)
	local float_2 = rat.as_float(step_ratio_2)
	if (float_1 > float_2) then
		key = string.format('%s to %s', rat.as_ratio(step_ratio_2, ':'), rat.as_ratio(step_ratio_1, ':'))
	else
		key = string.format('%s to %s', rat.as_ratio(step_ratio_1, ':'), rat.as_ratio(step_ratio_2, ':'))
	end
	
	-- use_extended is used to toggle between central range and extended range
	local named_ratio_range = use_extended and p.tamnams_ranges_ext[key] or p.tamnams_ranges[key]
	
	return named_ratio_range ~= nil and named_ratio_range or key
end

function p.lookup_named_ancestor(input_mos)
end

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-------------------------- ENCODE/DECODE FUNCTIONS -----------------------------
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----------------------------- TESTER FUNCTION ----------------------------------
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function p.tester()
	--return p.lookup_step_ratio_range(rat.new(10, 1), rat.new(1, 0), true)
	return p.lookup_step_ratio_range(rat.new(6,5), rat.new(1,1), true)
end

return p