Andrew Tridgell
5 years ago
committed by
Randy Mackay
1 changed files with 85 additions and 0 deletions
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--[[ |
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Script to control LED strips based on the roll of the aircraft. This is an example to demonstrate |
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the LED interface for WS2812 LEDs |
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--]] |
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--[[ |
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for this demo we will use a single strip with 30 LEDs |
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--]] |
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local num_leds = 30 |
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--[[ |
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use SERVOn_FUNCTION 94 for LED. We can control up to 16 separate strips of LEDs |
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by putting them on different channels |
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--]] |
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local chan = SRV_Channels:find_channel(94) |
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if not chan then |
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gcs:send_text(6, string.format("LEDs: channel not set")) |
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return |
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end |
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-- find_channel returns 0 to 15, convert to 1 to 16 |
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chan = chan + 1 |
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gcs:send_text(6, string.format("LEDs: chan=" .. tostring(chan))) |
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-- initialisation code |
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serialLED:set_num_LEDs(chan, num_leds) |
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-- constrain a value between limits |
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function constrain(v, vmin, vmax) |
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if v < vmin then |
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v = vmin |
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end |
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if v > vmax then |
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v = vmax |
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end |
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return v |
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end |
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--[[ |
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Table of colors on a rainbow, red first |
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--]] |
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local rainbow = { |
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{ 255, 0, 0 }, |
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{ 255, 127, 0 }, |
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{ 255, 255, 0 }, |
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{ 0, 255, 0 }, |
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{ 0, 0, 255 }, |
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{ 75, 0, 130 }, |
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{ 143, 0, 255 }, |
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} |
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--[[ |
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Function to set a LED to a color on a classic rainbow spectrum, with v=0 giving red |
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--]] |
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function set_Rainbow(chan, led, v) |
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local num_rows = #rainbow |
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local row = math.floor(constrain(v * (num_rows-1)+1, 1, num_rows-1)) |
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local v0 = (row-1) / (num_rows-1) |
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local v1 = row / (num_rows-1) |
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local p = (v - v0) / (v1 - v0) |
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r = math.floor(rainbow[row][1] + p * (rainbow[row+1][1] - rainbow[row][1])) |
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g = math.floor(rainbow[row][2] + p * (rainbow[row+1][2] - rainbow[row][2])) |
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b = math.floor(rainbow[row][3] + p * (rainbow[row+1][3] - rainbow[row][3])) |
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serialLED:set_RGB(chan, uint32_t(1 << led), r, g, b) |
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end |
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--[[ |
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We will set the colour of the LEDs based on roll of the aircraft |
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--]] |
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function update_LEDs() |
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local roll = constrain(ahrs:get_roll(), math.rad(-60), math.rad(60)) |
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for led = 0, num_leds-1 do |
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local v = constrain(0.5 + 0.5 * math.sin(roll * (led - num_leds/2) / (num_leds/2)), 0, 1) |
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set_Rainbow(chan, led, v) |
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end |
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serialLED:send() |
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return update_LEDs, 20 -- run at 50Hz |
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end |
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return update_LEDs, 1000 |
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