local Colorhime = {} local getArgs = require('Module:Arguments').getArgs local Color = require('Module:color') function Colorhime.main(frame) local args = getArgs(frame) local colors = {} local a = { args['LtMAG'] or 1 , args['ChrMAG'] or 3 , args['LtMAX'] or 225 , args['LtMIN'] or 0 , args['ChrMAX'] or 200 } local col_o = Color.create(args[1]):rgb().value local l2 = math.min( math.max( a[1]*(0.2126*col_o[1]^2+0.7152*col_o[2]^2+0.0722*col_o[3]^2) , a[4]^2 ) , a[3]^2 , 65025 ) local col_t = Colorhime.convert(l2, col_o, a[2], a[5]) colors['o'] = toString(col_o, args['alpha-o'] or 1) colors['t'] = toString(col_t, args['alpha-t'] or 1) frame:callParserFunction( '#vardefine' , 'color-t' , colors['t'] ) for k, v in pairs(args) do if mw.ustring.sub(k, 1, 6) == 'color-' then local col_k = {} k = mw.ustring.sub(k, 7) if v:find('^%+') then v = l2 + (65025 - l2) * v / 100 elseif v:find('^%-') then v = l2 * (1 + v / 100) else v = v ^ 2 end v = math.min( math.max( v , 0 ) , 65025 ) if v == 65025 then col_k = {255, 255, 255} elseif v >= l2 then col_k = Colorhime.kCalc(col_t, v) else col_k = Colorhime.convert(v, col_t, 1, 500) end colors[k] = toString(col_k, args['alpha-'..k] or 1) frame:callParserFunction( '#vardefine' , 'color-'..k , colors[k] ) end end return colors[args['output'] or 't'] end function Colorhime.convert(l2, rgb, m, c) local h local r, g, b = rgb[1], rgb[2], rgb[3] if r > g then if g > b then --rgb 0~60 h = (g - b)/(r - b) return Colorhime.tCalc( h , 0.2126 , 0.7152 , 0.0722 , l2 , math.min(m*(r-b), c*(-1286.9*h^4+1328.7*h^3-142.29*h^2+134.23*h+165.74)/200, 255) ) elseif b > r then --brg 240~300 h = (r - g)/(b - g) rgb = Colorhime.tCalc( h , 0.0722 , 0.2126 , 0.7152 , l2 , math.min(m*(b-g), c*(-53.74*h^2+37.053*h+129.88)/200, 255) ) return {rgb[2], rgb[3], rgb[1]} else --rbg 300~360 h = (r - b)/(r - g) rgb = Colorhime.tCalc( 1-h , 0.2126 , 0.0722 , 0.7152 , l2 , math.min(m*(r-g), c*(-49.395*h^2+101.94*h+113.19)/200, 255) ) return {rgb[1], rgb[3], rgb[2]} end else if r > b then --grb 60~120 h = (g - r)/(g - b) rgb = Colorhime.tCalc( 1-h , 0.7152 , 0.2126 , 0.0722 , l2 , math.min(m*(g-b), c*(29.76*h^2-104.35*h+199.48)/200, 255) ) return {rgb[2], rgb[1], rgb[3]} elseif b > g then --bgr 180~240 h = (b - g)/(b - r) rgb = Colorhime.tCalc( 1-h , 0.0722 , 0.7152 , 0.2126 , l2 , math.min(m*(b-r), c*(-1436.6*h^4+3559.6*h^3-2760.2*h^2+379.84*h+387.24)/200, 255) ) return {rgb[3], rgb[2], rgb[1]} elseif g > r then --gbr 120~180 h = (b - r)/(g - r) rgb = Colorhime.tCalc( h , 0.7152 , 0.0722 , 0.2126 , l2 , math.min(m*(g-r), c*(-1404.8*h^4+2509.9*h^3-1063.4*h^2+220.65*h+124.89)/200, 255) ) return {rgb[3], rgb[1], rgb[2]} else --r=g=b c=0 return Colorhime.tCalc( 0 , 1 , 0 , 0 , l2 , 0 ) end end end function Colorhime.tCalc(h, k1, k2, k3, l2, c) local c1, c2, c3 if l2 < (k1 + k2 * h ^ 2) * c ^ 2 then c1 = (l2 / (k1 + k2 * h ^ 2)) ^ (1/2) c2 = c1 * h c3 = 0 elseif l2 > k1 * 65025 + k2 * (255 - c + h * c) ^ 2 + k3 * (255 - c) ^ 2 then local A = k2 * (1 - h) ^ 2+ k3 c3 = ((A * l2 / 65025 - k1 * A - k2 * k3 * h ^ 2) ^ (1/2) - k2 * h * (1 - h)) * 255 / A c2 = (255 - c3) * h + c3 c1 = 255 else local B = k1 + k2 * h c3 = ((B ^ 2 - k1 - k2 * h ^ 2) * c ^ 2 + l2) ^ (1/2) - B * c c2 = c * h + c3 c1 = c + c3 end return {c1, c2, c3} end function Colorhime.kCalc(rgb, l2) local h1 = (255 - rgb[1]) / (765 - rgb[1] - rgb[2] - rgb[3]) local h2 = (255 - rgb[2]) / (765 - rgb[1] - rgb[2] - rgb[3]) local h3 = (255 - rgb[3]) / (765 - rgb[1] - rgb[2] - rgb[3]) local A = 0.2126 * h1 ^ 2 + 0.7152 * h2 ^ 2 + 0.0722 * h3 ^ 2 local B = 0.2126 * h1 + 0.7152 * h2 + 0.0722 * h3 local X = (B - (B ^ 2 - A * (1 - l2 / 65025)) ^ (1/2)) * 255 / A return { 255-h1*X , 255-h2*X , 255-h3*X } end function toString(rgb, alpha) function toHex(int) local zero = '' if int < 16 then zero = '0' end return zero..string.format('%X', int) end local r, g, b = math.floor(rgb[1] + 0.5), math.floor(rgb[2] + 0.5), math.floor(rgb[3] + 0.5) if alpha == 1 then return toHex(r)..toHex(g)..toHex(b) else return 'rgba('..r..','..g..','..b..','..alpha..')' end end return Colorhime