2012-08-08 22:59:43 +02:00
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COOLDOWN_FACTOR = 0.9998
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2018-06-19 22:13:22 +02:00
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FADE_FACTOR = 1
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OVERDRIVE = 1.30
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EXPONENT = 1.8
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2012-08-08 22:59:43 +02:00
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2018-06-19 22:13:22 +02:00
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num_modules = 160
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center_module = 80
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2012-08-08 22:59:43 +02:00
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-- maximum energy values for each band
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maxRedEnergy = 1
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maxGreenEnergy = 1
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maxBlueEnergy = 1
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-- output color buffers
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red = {}
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green = {}
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blue = {}
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tmpRed = {}
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tmpGreen = {}
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tmpBlue = {}
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2018-06-19 22:13:22 +02:00
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function limit(val)
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if val > 1 then
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return 1
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else
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return val
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end
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end
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2012-08-08 22:59:43 +02:00
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function periodic()
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local redEnergy = get_energy_in_band(0, 400);
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local greenEnergy = get_energy_in_band(400, 4000);
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local blueEnergy = get_energy_in_band(4000, 22000);
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local centerIndex = 2 * center_module + 1;
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maxRedEnergy = maxRedEnergy * COOLDOWN_FACTOR
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if redEnergy > maxRedEnergy then
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maxRedEnergy = redEnergy
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end
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maxGreenEnergy = maxGreenEnergy * COOLDOWN_FACTOR
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if greenEnergy > maxGreenEnergy then
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maxGreenEnergy = greenEnergy
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end
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maxBlueEnergy = maxBlueEnergy * COOLDOWN_FACTOR
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if blueEnergy > maxBlueEnergy then
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maxBlueEnergy = blueEnergy
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end
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-- move the color buffers on by one
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for i = num_modules-1,1,-1 do
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tmpRed[i+1] = FADE_FACTOR * tmpRed[i]
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tmpGreen[i+1] = FADE_FACTOR * tmpGreen[i]
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tmpBlue[i+1] = FADE_FACTOR * tmpBlue[i]
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end
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-- set the new value for the center module
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newRed = redEnergy / maxRedEnergy
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2018-06-19 22:13:22 +02:00
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tmpRed[1] = newRed
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--if newRed > tmpRed[num_modules] then
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-- tmpRed[1] = newRed
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--else
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-- tmpRed[1] = tmpRed[num_modules]
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--end
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2012-08-08 22:59:43 +02:00
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newGreen = greenEnergy / maxGreenEnergy
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2018-06-19 22:13:22 +02:00
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tmpGreen[1] = newGreen
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--if newGreen > tmpGreen[num_modules] then
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-- tmpGreen[1] = newGreen
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--else
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-- tmpGreen[1] = tmpGreen[num_modules]
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--end
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2012-08-08 22:59:43 +02:00
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newBlue = blueEnergy / maxBlueEnergy
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2018-06-19 22:13:22 +02:00
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tmpBlue[1] = newBlue
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--if newBlue > tmpBlue[num_modules] then
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-- tmpBlue[1] = newBlue
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--else
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-- tmpBlue[1] = tmpBlue[num_modules]
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--end
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2012-08-08 22:59:43 +02:00
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for i = 1,num_modules do
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2018-06-19 22:13:22 +02:00
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red[i] = limit(OVERDRIVE * math.pow(tmpRed[i], EXPONENT))
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green[i] = limit(OVERDRIVE * math.pow(tmpGreen[i], EXPONENT))
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blue[i] = limit(OVERDRIVE * math.pow(tmpBlue[i], EXPONENT))
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2012-08-08 22:59:43 +02:00
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end
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-- return the 3 color arrays
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return red, green, blue
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end
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function init(nmod, cmod)
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num_modules = nmod
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center_module = cmod
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for i = 1,nmod do
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red[i] = 0
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green[i] = 0
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blue[i] = 0
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end
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for i = 1,nmod do
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tmpRed[i] = 0
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tmpGreen[i] = 0
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tmpBlue[i] = 0
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end
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-- don't use fading
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return 0
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end
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