Adalight-FastLED_rgbwMod/Arduino/LEDstream_WS2812B/LEDstream_WS2812B.ino

// Slightly modified Adalight protocol implementation that uses FastLED
// library (http://fastled.io) for driving WS2811/WS2812 led strip

#include <FastLED.h>

#define NUM_LEDS    80     // strip length
#define LED_PIN     6      // Arduino data output pin
#define BRIGHTNESS  255    // maximum brightness
#define SPEED       115200 // serial port speed, max available

//#define GROUND_PIN  10     // additional grounding pin (optional)
//#define CALIBRATE          // uncomment to set calibration mode

// If no serial data is received for a while, the LEDs are shut off
// automatically. Value in milliseconds.
static const unsigned long serialTimeout = 150000; // 150 seconds

CRGB leds[NUM_LEDS];
uint8_t * ledsRaw = (uint8_t *)leds;

// A 'magic word' (along with LED count & checksum) precedes each block
// of LED data; this assists the microcontroller in syncing up with the
// host-side software and properly issuing the latch (host I/O is
// likely buffered, making usleep() unreliable for latch).  You may see
// an initial glitchy frame or two until the two come into alignment.
// The magic word can be whatever sequence you like, but each character
// should be unique, and frequent pixel values like 0 and 255 are
// avoided -- fewer false positives.  The host software will need to
// generate a compatible header: immediately following the magic word
// are three bytes: a 16-bit count of the number of LEDs (high byte
// first) followed by a simple checksum value (high byte XOR low byte
// XOR 0x55).  LED data follows, 3 bytes per LED, in order R, G, B,
// where 0 = off and 255 = max brightness.

static const uint8_t magic[] = {
  'A','d','a'};
#define MAGICSIZE  sizeof(magic)
#define HEADERSIZE (MAGICSIZE + 3)

#define MODE_HEADER 0
#define MODE_DATA   2

void setup()
{
  #ifdef GROUND_PIN
    pinMode(GROUND_PIN, OUTPUT);
    digitalWrite(GROUND_PIN, LOW);
  #endif

  FastLED.addLeds<WS2812B, LED_PIN, GRB>(leds, NUM_LEDS);

  // Dirty trick: the circular buffer for serial data is 256 bytes,
  // and the "in" and "out" indices are unsigned 8-bit types -- this
  // much simplifies the cases where in/out need to "wrap around" the
  // beginning/end of the buffer.  Otherwise there'd be a ton of bit-
  // masking and/or conditional code every time one of these indices
  // needs to change, slowing things down tremendously.
  uint8_t
    buffer[256],
    indexIn       = 0,
    indexOut      = 0,
    mode          = MODE_HEADER,
    hi, lo, chk, i;
  int16_t
    bytesBuffered = 0,
    c;
  int32_t
    bytesRemaining;
  unsigned long
    lastByteTime,
    lastAckTime,
    t;
  int32_t
    outPos = 0;

  Serial.begin(SPEED); // Teensy/32u4 disregards baud rate; is OK!

  Serial.print("Ada\n"); // Send ACK string to host

  lastByteTime = lastAckTime = millis();

  // loop() is avoided as even that small bit of function overhead
  // has a measurable impact on this code's overall throughput.

  for(;;) {

    // Implementation is a simple finite-state machine.
    // Regardless of mode, check for serial input each time:
    t = millis();
    if((bytesBuffered < 256) && ((c = Serial.read()) >= 0)) {
      buffer[indexIn++] = c;
      bytesBuffered++;
      lastByteTime = lastAckTime = t; // Reset timeout counters
    } 
    else {
      // No data received.  If this persists, send an ACK packet
      // to host once every second to alert it to our presence.
      if((t - lastAckTime) > 1000) {
        Serial.print("Ada\n"); // Send ACK string to host
        lastAckTime = t; // Reset counter
      }
      // If no data received for an extended time, turn off all LEDs.
      if((t - lastByteTime) > serialTimeout) {
        memset(leds, 0,  NUM_LEDS * sizeof(struct CRGB)); //filling Led array by zeroes
        FastLED.show();
        lastByteTime = t; // Reset counter
      }
    }

    switch(mode) {

    case MODE_HEADER:

      // In header-seeking mode.  Is there enough data to check?
      if(bytesBuffered >= HEADERSIZE) {
        // Indeed.  Check for a 'magic word' match.
        for(i=0; (i<MAGICSIZE) && (buffer[indexOut++] == magic[i++]););
        if(i == MAGICSIZE) {
          // Magic word matches.  Now how about the checksum?
          hi  = buffer[indexOut++];
          lo  = buffer[indexOut++];
          chk = buffer[indexOut++];
          if(chk == (hi ^ lo ^ 0x55)) {
            // Checksum looks valid.  Get 16-bit LED count, add 1
            // (# LEDs is always > 0) and multiply by 3 for R,G,B.
            bytesRemaining = 3L * (256L * (long)hi + (long)lo + 1L);
            bytesBuffered -= 3;
            outPos = 0;
            memset(leds, 0,  NUM_LEDS * sizeof(struct CRGB));
            mode           = MODE_DATA; // Proceed to latch wait mode
          } 
          else {
            // Checksum didn't match; search resumes after magic word.
            indexOut  -= 3; // Rewind
          }
        } // else no header match.  Resume at first mismatched byte.
        bytesBuffered -= i;
      }
      break;

    case MODE_DATA:

      if(bytesRemaining > 0) {
        if(bytesBuffered > 0) {
          if (outPos < sizeof(leds)){
              #ifdef CALIBRATE
                if(outPos < 3)
                  ledsRaw[outPos++] = buffer[indexOut++];
                else{
                  ledsRaw[outPos] = ledsRaw[outPos%3]; // Sets RGB data to first LED color
                  outPos++;
                  indexOut++;
                }
              #else
                  ledsRaw[outPos++] = buffer[indexOut++];  // Issue next byte
              #endif    
          }    
          bytesBuffered--;
          bytesRemaining--;
        }
      } 
      else {
        // End of data -- issue latch:
        mode       = MODE_HEADER; // Begin next header search
        FastLED.show();
      }
    } // end switch
  } // end for(;;)
}

void loop()
{
  // Not used.  See note in setup() function.
}
Added WS2812B Arduino code The initial modifications to the Adalight code to incorporate the FastLED library and work with WS2812B LEDs were done by James Bruce (@jamesabruce). I can't find a way to do a pull request on a Gist, so I'm copying his code in full here. Original Gist: https://gist.github.com/jamesabruce/09d79a56d270ed37870c 2016-12-20 09:30:27 +00:00			`// Slightly modified Adalight protocol implementation that uses FastLED`
Updated definition comments and whitespace 2016-12-20 09:38:52 +00:00			`// library (http://fastled.io) for driving WS2811/WS2812 led strip`
Added WS2812B Arduino code The initial modifications to the Adalight code to incorporate the FastLED library and work with WS2812B LEDs were done by James Bruce (@jamesabruce). I can't find a way to do a pull request on a Gist, so I'm copying his code in full here. Original Gist: https://gist.github.com/jamesabruce/09d79a56d270ed37870c 2016-12-20 09:30:27 +00:00
FastLED library include to use system library 2016-12-21 16:02:54 +00:00			`#include <FastLED.h>`
Added WS2812B Arduino code The initial modifications to the Adalight code to incorporate the FastLED library and work with WS2812B LEDs were done by James Bruce (@jamesabruce). I can't find a way to do a pull request on a Gist, so I'm copying his code in full here. Original Gist: https://gist.github.com/jamesabruce/09d79a56d270ed37870c 2016-12-20 09:30:27 +00:00
Updated definition comments and whitespace 2016-12-20 09:38:52 +00:00			`#define NUM_LEDS 80 // strip length`
			`#define LED_PIN 6 // Arduino data output pin`
			`#define BRIGHTNESS 255 // maximum brightness`
			`#define SPEED 115200 // serial port speed, max available`
Made ground pin explicitly optional 2016-12-21 16:01:46 +00:00
			`//#define GROUND_PIN 10 // additional grounding pin (optional)`
Added calibration mode 2016-12-20 15:07:35 +00:00			`//#define CALIBRATE // uncomment to set calibration mode`
Added WS2812B Arduino code The initial modifications to the Adalight code to incorporate the FastLED library and work with WS2812B LEDs were done by James Bruce (@jamesabruce). I can't find a way to do a pull request on a Gist, so I'm copying his code in full here. Original Gist: https://gist.github.com/jamesabruce/09d79a56d270ed37870c 2016-12-20 09:30:27 +00:00
Moved serial timeout variable below definitions 2016-12-20 09:47:22 +00:00			`// If no serial data is received for a while, the LEDs are shut off`
			`// automatically. Value in milliseconds.`
			`static const unsigned long serialTimeout = 150000; // 150 seconds`

Added WS2812B Arduino code The initial modifications to the Adalight code to incorporate the FastLED library and work with WS2812B LEDs were done by James Bruce (@jamesabruce). I can't find a way to do a pull request on a Gist, so I'm copying his code in full here. Original Gist: https://gist.github.com/jamesabruce/09d79a56d270ed37870c 2016-12-20 09:30:27 +00:00			`CRGB leds[NUM_LEDS];`
			`uint8_t * ledsRaw = (uint8_t *)leds;`

			`// A 'magic word' (along with LED count & checksum) precedes each block`
			`// of LED data; this assists the microcontroller in syncing up with the`
			`// host-side software and properly issuing the latch (host I/O is`
			`// likely buffered, making usleep() unreliable for latch). You may see`
			`// an initial glitchy frame or two until the two come into alignment.`
			`// The magic word can be whatever sequence you like, but each character`
			`// should be unique, and frequent pixel values like 0 and 255 are`
			`// avoided -- fewer false positives. The host software will need to`
			`// generate a compatible header: immediately following the magic word`
			`// are three bytes: a 16-bit count of the number of LEDs (high byte`
			`// first) followed by a simple checksum value (high byte XOR low byte`
			`// XOR 0x55). LED data follows, 3 bytes per LED, in order R, G, B,`
			`// where 0 = off and 255 = max brightness.`

			`static const uint8_t magic[] = {`
			`'A','d','a'};`
			`#define MAGICSIZE sizeof(magic)`
			`#define HEADERSIZE (MAGICSIZE + 3)`

			`#define MODE_HEADER 0`
			`#define MODE_DATA 2`

			`void setup()`
			`{`
Made ground pin explicitly optional 2016-12-21 16:01:46 +00:00			`#ifdef GROUND_PIN`
			`pinMode(GROUND_PIN, OUTPUT);`
			`digitalWrite(GROUND_PIN, LOW);`
			`#endif`

Added WS2812B Arduino code The initial modifications to the Adalight code to incorporate the FastLED library and work with WS2812B LEDs were done by James Bruce (@jamesabruce). I can't find a way to do a pull request on a Gist, so I'm copying his code in full here. Original Gist: https://gist.github.com/jamesabruce/09d79a56d270ed37870c 2016-12-20 09:30:27 +00:00			`FastLED.addLeds<WS2812B, LED_PIN, GRB>(leds, NUM_LEDS);`

			`// Dirty trick: the circular buffer for serial data is 256 bytes,`
			`// and the "in" and "out" indices are unsigned 8-bit types -- this`
			`// much simplifies the cases where in/out need to "wrap around" the`
			`// beginning/end of the buffer. Otherwise there'd be a ton of bit-`
			`// masking and/or conditional code every time one of these indices`
			`// needs to change, slowing things down tremendously.`
			`uint8_t`
			`buffer[256],`
Fixed variable declaration whitespace 2016-12-20 17:13:09 +00:00			`indexIn = 0,`
			`indexOut = 0,`
			`mode = MODE_HEADER,`
Removed obsolete variables 2016-12-20 17:39:54 +00:00			`hi, lo, chk, i;`
Added WS2812B Arduino code The initial modifications to the Adalight code to incorporate the FastLED library and work with WS2812B LEDs were done by James Bruce (@jamesabruce). I can't find a way to do a pull request on a Gist, so I'm copying his code in full here. Original Gist: https://gist.github.com/jamesabruce/09d79a56d270ed37870c 2016-12-20 09:30:27 +00:00			`int16_t`
			`bytesBuffered = 0,`
Fixed variable declaration whitespace 2016-12-20 17:13:09 +00:00			`c;`
Added WS2812B Arduino code The initial modifications to the Adalight code to incorporate the FastLED library and work with WS2812B LEDs were done by James Bruce (@jamesabruce). I can't find a way to do a pull request on a Gist, so I'm copying his code in full here. Original Gist: https://gist.github.com/jamesabruce/09d79a56d270ed37870c 2016-12-20 09:30:27 +00:00			`int32_t`
			`bytesRemaining;`
			`unsigned long`
Fixed variable declaration whitespace 2016-12-20 17:13:09 +00:00			`lastByteTime,`
			`lastAckTime,`
			`t;`
			`int32_t`
			`outPos = 0;`
Added WS2812B Arduino code The initial modifications to the Adalight code to incorporate the FastLED library and work with WS2812B LEDs were done by James Bruce (@jamesabruce). I can't find a way to do a pull request on a Gist, so I'm copying his code in full here. Original Gist: https://gist.github.com/jamesabruce/09d79a56d270ed37870c 2016-12-20 09:30:27 +00:00
			`Serial.begin(SPEED); // Teensy/32u4 disregards baud rate; is OK!`

			`Serial.print("Ada\n"); // Send ACK string to host`

			`lastByteTime = lastAckTime = millis();`

			`// loop() is avoided as even that small bit of function overhead`
			`// has a measurable impact on this code's overall throughput.`

			`for(;;) {`

			`// Implementation is a simple finite-state machine.`
			`// Regardless of mode, check for serial input each time:`
			`t = millis();`
			`if((bytesBuffered < 256) && ((c = Serial.read()) >= 0)) {`
			`buffer[indexIn++] = c;`
			`bytesBuffered++;`
			`lastByteTime = lastAckTime = t; // Reset timeout counters`
			`}`
			`else {`
			`// No data received. If this persists, send an ACK packet`
			`// to host once every second to alert it to our presence.`
			`if((t - lastAckTime) > 1000) {`
			`Serial.print("Ada\n"); // Send ACK string to host`
			`lastAckTime = t; // Reset counter`
			`}`
			`// If no data received for an extended time, turn off all LEDs.`
			`if((t - lastByteTime) > serialTimeout) {`
			`memset(leds, 0, NUM_LEDS * sizeof(struct CRGB)); //filling Led array by zeroes`
			`FastLED.show();`
			`lastByteTime = t; // Reset counter`
			`}`
			`}`

			`switch(mode) {`

			`case MODE_HEADER:`

			`// In header-seeking mode. Is there enough data to check?`
			`if(bytesBuffered >= HEADERSIZE) {`
			`// Indeed. Check for a 'magic word' match.`
			`for(i=0; (i<MAGICSIZE) && (buffer[indexOut++] == magic[i++]););`
			`if(i == MAGICSIZE) {`
			`// Magic word matches. Now how about the checksum?`
			`hi = buffer[indexOut++];`
			`lo = buffer[indexOut++];`
			`chk = buffer[indexOut++];`
			`if(chk == (hi ^ lo ^ 0x55)) {`
			`// Checksum looks valid. Get 16-bit LED count, add 1`
			`// (# LEDs is always > 0) and multiply by 3 for R,G,B.`
			`bytesRemaining = 3L * (256L * (long)hi + (long)lo + 1L);`
			`bytesBuffered -= 3;`
			`outPos = 0;`
			`memset(leds, 0, NUM_LEDS * sizeof(struct CRGB));`
			`mode = MODE_DATA; // Proceed to latch wait mode`
			`}`
			`else {`
			`// Checksum didn't match; search resumes after magic word.`
			`indexOut -= 3; // Rewind`
			`}`
			`} // else no header match. Resume at first mismatched byte.`
			`bytesBuffered -= i;`
			`}`
			`break;`

			`case MODE_DATA:`

			`if(bytesRemaining > 0) {`
			`if(bytesBuffered > 0) {`
Added calibration mode 2016-12-20 15:07:35 +00:00			`if (outPos < sizeof(leds)){`
			`#ifdef CALIBRATE`
			`if(outPos < 3)`
			`ledsRaw[outPos++] = buffer[indexOut++];`
			`else{`
			`ledsRaw[outPos] = ledsRaw[outPos%3]; // Sets RGB data to first LED color`
			`outPos++;`
			`indexOut++;`
			`}`
			`#else`
			`ledsRaw[outPos++] = buffer[indexOut++]; // Issue next byte`
			`#endif`
			`}`
Added WS2812B Arduino code The initial modifications to the Adalight code to incorporate the FastLED library and work with WS2812B LEDs were done by James Bruce (@jamesabruce). I can't find a way to do a pull request on a Gist, so I'm copying his code in full here. Original Gist: https://gist.github.com/jamesabruce/09d79a56d270ed37870c 2016-12-20 09:30:27 +00:00			`bytesBuffered--;`
			`bytesRemaining--;`
			`}`
			`}`
			`else {`
			`// End of data -- issue latch:`
			`mode = MODE_HEADER; // Begin next header search`
			`FastLED.show();`
			`}`
			`} // end switch`
			`} // end for(;;)`
			`}`

			`void loop()`
			`{`
			`// Not used. See note in setup() function.`
			`}`