esp-pixelprojektor/pixelprojektor/pixelprojektor.ino

#include <Homie.h>
// homie lib from: https://github.com/marvinroger/homie-esp8266/
#include <Adafruit_NeoPixel.h>
#include <ArduinoOTA.h>
#ifdef __AVR__
#include <avr/power.h>
#endif

#define PIN D1  //data pin for ws2812 (pixelprojektor @ ctdo: PIN 2)

#define NUMPIXELS 64

#define FPS 15

uint8_t effect = 0;
#define EFFECT_NONE 0
#define EFFECT_SMOOTH 1
uint8_t movingPoint_x = 3;
uint8_t movingPoint_y = 3;
uint8_t wheelPos = 0;
uint8_t wheelPosSlow = 0; //for slower wheelPos increment than 1
int wheelSpeed = 16; //16=+1/frame
int smoothing = 80; //0 to 100. 100=no change (ultrasmooth), 0=no smoothing.
int strength = 50; //how much pixels to apply color to
#define EFFECT_SPIRAL 2
#define EFFECT_RANDOMFADE 3
#define EFFECT_CHASE 4
#define EFFECT_RADAR 5
#define EFFECT_LARSON 6
int fadespeedmax = 5; //1 to 255

int iconCountStart = 0; //for percentage calculation
int iconCountdown = 0; //0=off
uint8_t iconchar = 0; //last displayed char
int32_t iconcolor = 0; //last icon color

uint16_t Index;      // current step within the pattern
// int Index = 0; // Step for Effect (e.g. chase)
// int state = 0; // Direction for Larson Scanner (spiral)
enum  direction { FORWARD, REVERSE }; // Direction
direction Direction;         // direction to run the pattern



/* the values in this array are a 8x8 bitmap font for ascii characters */
static uint64_t font[128] = {
  /************************************************************************
    font.c
    Copyright (C) Lisa Milne 2014 <lisa@ltmnet.com>

    This program is free software: you can redistribute it and/or modify
    it under the terms of the GNU General Public License as published by
    the Free Software Foundation, either version 3 of the License, or
    (at your option) any later version.

    This program is distributed in the hope that it will be useful, but
    WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
    See the GNU General Public License for more details.

    You should have received a copy of the GNU General Public License
    along with this program.  If not, see <http://www.gnu.org/licenses/>
  ************************************************************************/
  0x7E7E7E7E7E7E0000, /* NUL */
  0x7E7E7E7E7E7E0000, /* SOH */
  0x7E7E7E7E7E7E0000, /* STX */
  0x7E7E7E7E7E7E0000, /* ETX */
  0x7E7E7E7E7E7E0000, /* EOT */
  0x7E7E7E7E7E7E0000, /* ENQ */
  0x7E7E7E7E7E7E0000, /* ACK */
  0x7E7E7E7E7E7E0000, /* BEL */
  0x7E7E7E7E7E7E0000, /* BS */
  0x0,      /* TAB */
  0x7E7E7E7E7E7E0000, /* LF */
  0x7E7E7E7E7E7E0000, /* VT */
  0x7E7E7E7E7E7E0000, /* FF */
  0x7E7E7E7E7E7E0000, /* CR */
  0x7E7E7E7E7E7E0000, /* SO */
  0x7E7E7E7E7E7E0000, /* SI */
  0x7E7E7E7E7E7E0000, /* DLE */
  0x7E7E7E7E7E7E0000, /* DC1 */
  0x7E7E7E7E7E7E0000, /* DC2 */
  0x7E7E7E7E7E7E0000, /* DC3 */
  0x7E7E7E7E7E7E0000, /* DC4 */
  0x7E7E7E7E7E7E0000, /* NAK */
  0x7E7E7E7E7E7E0000, /* SYN */
  0x7E7E7E7E7E7E0000, /* ETB */
  0x7E7E7E7E7E7E0000, /* CAN */
  0x7E7E7E7E7E7E0000, /* EM */
  0x7E7E7E7E7E7E0000, /* SUB */
  0x7E7E7E7E7E7E0000, /* ESC */
  0x7E7E7E7E7E7E0000, /* FS */
  0x7E7E7E7E7E7E0000, /* GS */
  0x7E7E7E7E7E7E0000, /* RS */
  0x7E7E7E7E7E7E0000, /* US */
  0x0,      /* (space) */
  0x808080800080000,  /* ! */
  0x2828000000000000, /* " */
  0x287C287C280000, /* # */
  0x81E281C0A3C0800,  /* $ */
  0x6094681629060000, /* % */
  0x1C20201926190000, /* & */
  0x808000000000000,  /* ' */
  0x810202010080000,  /* ( */
  0x1008040408100000, /* ) */
  0x2A1C3E1C2A000000, /* * */
  0x8083E08080000,  /* + */
  0x81000,    /* , */
  0x3C00000000,   /* - */
  0x80000,    /* . */
  0x204081020400000,  /* / */
  0x1824424224180000, /* 0 */
  0x8180808081C0000,  /* 1 */
  0x3C420418207E0000, /* 2 */
  0x3C420418423C0000, /* 3 */
  0x81828487C080000,  /* 4 */
  0x7E407C02423C0000, /* 5 */
  0x3C407C42423C0000, /* 6 */
  0x7E04081020400000, /* 7 */
  0x3C423C42423C0000, /* 8 */
  0x3C42423E023C0000, /* 9 */
  0x80000080000,    /* : */
  0x80000081000,    /* ; */
  0x6186018060000,  /* < */
  0x7E007E000000,   /* = */
  0x60180618600000, /* > */
  0x3844041800100000, /* ? */
  0x3C449C945C201C, /* @ */
  0x1818243C42420000, /* A */
  0x7844784444780000, /* B */
  0x3844808044380000, /* C */
  0x7844444444780000, /* D */
  0x7C407840407C0000, /* E */
  0x7C40784040400000, /* F */
  0x3844809C44380000, /* G */
  0x42427E4242420000, /* H */
  0x3E080808083E0000, /* I */
  0x1C04040444380000, /* J */
  0x4448507048440000, /* K */
  0x40404040407E0000, /* L */
  0x4163554941410000, /* M */
  0x4262524A46420000, /* N */
  0x1C222222221C0000, /* O */
  0x7844784040400000, /* P */
  0x1C222222221C0200, /* Q */
  0x7844785048440000, /* R */
  0x1C22100C221C0000, /* S */
  0x7F08080808080000, /* T */
  0x42424242423C0000, /* U */
  0x8142422424180000, /* V */
  0x4141495563410000, /* W */
  0x4224181824420000, /* X */
  0x4122140808080000, /* Y */
  0x7E040810207E0000, /* Z */
  0x3820202020380000, /* [ */
  0x4020100804020000, /*  */
  0x3808080808380000, /* ] */
  0x1028000000000000, /* ^ */
  0x7E0000,   /* _ */
  0x1008000000000000, /* ` */
  0x3C023E463A0000, /* a */
  0x40407C42625C0000, /* b */
  0x1C20201C0000,   /* c */
  0x2023E42463A0000,  /* d */
  0x3C427E403C0000, /* e */
  0x18103810100000, /* f */
  0x344C44340438,   /* g */
  0x2020382424240000, /* h */
  0x800080808080000,  /* i */
  0x800180808080870,  /* j */
  0x20202428302C0000, /* k */
  0x1010101010180000, /* l */
  0x665A42420000,   /* m */
  0x2E3222220000,   /* n */
  0x3C42423C0000,   /* o */
  0x5C62427C4040,   /* p */
  0x3A46423E0202,   /* q */
  0x2C3220200000,   /* r */
  0x1C201804380000, /* s */
  0x103C1010180000, /* t */
  0x2222261A0000,   /* u */
  0x424224180000,   /* v */
  0x81815A660000,   /* w */
  0x422418660000,   /* x */
  0x422214081060,   /* y */
  0x3C08103C0000,   /* z */
  0x1C103030101C0000, /* { */
  0x808080808080800,  /* | */
  0x38080C0C08380000, /* } */
  0x324C000000,   /* ~ */
  0x7E7E7E7E7E7E0000  /* DEL */
};


Adafruit_NeoPixel strip = Adafruit_NeoPixel(NUMPIXELS, PIN, NEO_GRB + NEO_KHZ800);

HomieNode homieNode("pixel", "commands");

uint8_t pixelR[NUMPIXELS];
uint8_t pixelG[NUMPIXELS];
uint8_t pixelB[NUMPIXELS];
//write to buffer, flip with showBuffer()
uint8_t pixelR_buffer[NUMPIXELS];
uint8_t pixelG_buffer[NUMPIXELS];
uint8_t pixelB_buffer[NUMPIXELS];

long lastMillis = 0;
long fpsdelay = 1000 / FPS;

int xyToPos(int x, int y) { //convert x y pixel position to matrix position
  if (y % 2 == 0) {
    return (y * 8 + x);
  } else {
    return (y * 8 + (7 - x));
  }
}

int numToPos(int num) { //convert pixel number to actual 8x8 matrix position
  int x = num % 8;
  int y = num / 8;
  return xyToPos(x, y);
}

int numToSpiralPos(int num) { // convert pixel number to actual 8x8 matrix position in a spiral
  int findx = 7;
  int findy = 0;
  int stepsize = 7; // initial value (0..7)
  int stepnumber = 0; // each "step" should be used twice
  int count = -1;
  int dir = 1; // direction: 0 = incX, 1=incY, 2=decX, 3=decY
  if (num < 8) {
    return num;  // trivial
  }
  for (int i = 8; i <= num; i++)
  {
    count++;
    if (count == stepsize) {
      count = 0;
      // Change direction
      dir++;
      stepnumber++;
      if (stepnumber == 2) {
        stepsize -= 1;
        stepnumber = 0;
      }
      if (dir == 4) {
        dir = 0;
      }
    }
    switch (dir) {
      case 0:
        findx++;
        break;
      case 1:
        findy++;
        break;
      case 2:
        findx--;
        break;
      case 3:
        findy--;
        break;
    }
  }
  return xyToPos(findx, findy);
}

uint32_t wheel(byte WheelPos) {
  WheelPos = 255 - WheelPos;
  if (WheelPos < 85) {
    return strip.Color(255 - WheelPos * 3, 0, WheelPos * 3);
  }
  if (WheelPos < 170) {
    WheelPos -= 85;
    return strip.Color(0, WheelPos * 3, 255 - WheelPos * 3);
  }
  WheelPos -= 170;
  return strip.Color(WheelPos * 3, 255 - WheelPos * 3, 0);
}


void led_fill(uint32_t c)
{
  for (int i = 0; i < strip.numPixels(); i++) {
    strip.setPixelColor(i, c);
  }
  strip.show();
}

void led_random()
{
  for (int i = 0; i < strip.numPixels(); i++) {
    strip.setPixelColor(i, wheel(random(0, 255)));
  }
  strip.show();
}


void showBuffer()
{
  for (int i = 0; i < strip.numPixels(); i++) {
    pixelR[i] = pixelR_buffer[i];
    pixelG[i] = pixelG_buffer[i];
    pixelB[i] = pixelB_buffer[i];
    strip.setPixelColor(i, pixelR[i], pixelG[i], pixelB[i]);
  }
  strip.show();
}

uint8_t getAverage(uint8_t array[NUMPIXELS], uint8_t i, int x, int y)
{
  uint16_t sum = 0;
  uint8_t count = 0;
  if (i >= 8) { //up
    sum += array[i - 8];
    count++;
  }
  if (i < (64 - 8)) { //down
    sum += array[i + 8];
    count++;
  }
  if (i >= 1) { //left
    sum += array[i - 1];
    count++;
  }
  if (i < (64 - 1)) { //right
    sum += array[i + 1];
    count++;
  }

  /*
    if (i>=(8+1)){ //up left
    sum+=array[i-8-1];
    count++;
    }
    if (i<(64-8-1)){ //down left
    sum+=array[i+8-1];
    count++;
    }
    if (i>=(8-1)){ //up right
    sum+=array[i-8+1];
    count++;
    }
    if (i<(64-8+1)){ //down right
    sum+=array[i+8+1];
    count++;
    }*/
  return sum / count;
}


void led_smooth()
{
  for (int i = 0; i < strip.numPixels(); i++) {
    //uint8_t avgbrightness=pixelR_buffer[i]/3+pixelG_buffer[i]/3+pixelB_buffer[i]/3;
    pixelR_buffer[i] = (smoothing / 100.0) * pixelR[i] + (1.0 - (smoothing / 100.0)) * getAverage(pixelR, i, 0, 0);
    pixelG_buffer[i] = (smoothing / 100.0) * pixelG[i] + (1.0 - (smoothing / 100.0)) * getAverage(pixelG, i, 0, 0);
    pixelB_buffer[i] = (smoothing / 100.0) * pixelB[i] + (1.0 - (smoothing / 100.0)) * getAverage(pixelB, i, 0, 0);

  }
  showBuffer();
}

void led_movingPoint()
{
  uint32_t c = wheel(wheelPos);
  wheelPosSlow += wheelSpeed;
  wheelPos = (wheelPos + (wheelPosSlow / 10) ) % 255;
  wheelPosSlow = wheelPosSlow % 16;

  uint8_t r = (uint8_t)(c >> 16);
  uint8_t g = (uint8_t)(c >>  8);
  uint8_t b = (uint8_t)c;

  movingPoint_x = movingPoint_x + 8 + random(-random(0, 1 + 1), random(0, 1 + 1) + 1);
  movingPoint_y = movingPoint_y + 8 + random(-random(0, 1 + 1), random(0, 1 + 1) + 1);
  if (movingPoint_x < 8) {
    movingPoint_x = 8 - movingPoint_x;
  } else if (movingPoint_x >= 16) {
    movingPoint_x = 22 - movingPoint_x;
  } else {
    movingPoint_x -= 8;
  }

  if (movingPoint_y < 8) {
    movingPoint_y = 8 - movingPoint_y;
  } else if (movingPoint_y >= 16) {
    movingPoint_y = 22 - movingPoint_y;
  } else {
    movingPoint_y -= 8;
  }
  uint8_t startx = movingPoint_x;
  uint8_t starty = movingPoint_y;

  for (int i = 0; i < strength; i++) {

    movingPoint_x = startx + 8 + random(-random(0, 2 + 1), random(0, 2 + 1) + 1);
    movingPoint_y = starty + 8 + random(-random(0, 2 + 1), random(0, 2 + 1) + 1);

    if (movingPoint_x < 8) {
      movingPoint_x = 8 - movingPoint_x;
    } else if (movingPoint_x >= 16) {
      movingPoint_x = 22 - movingPoint_x;
    } else {
      movingPoint_x -= 8;
    }

    if (movingPoint_y < 8) {
      movingPoint_y = 8 - movingPoint_y;
    } else if (movingPoint_y >= 16) {
      movingPoint_y = 22 - movingPoint_y;
    } else {
      movingPoint_y -= 8;
    }



    if (pixelR[xyToPos(movingPoint_x, movingPoint_y)] < r) {
      pixelR[xyToPos(movingPoint_x, movingPoint_y)]++;
    } else if (pixelR[xyToPos(movingPoint_x, movingPoint_y)] > r) {
      pixelR[xyToPos(movingPoint_x, movingPoint_y)]--;
    }
    if (pixelG[xyToPos(movingPoint_x, movingPoint_y)] < g) {
      pixelG[xyToPos(movingPoint_x, movingPoint_y)]++;
    } else if (pixelG[xyToPos(movingPoint_x, movingPoint_y)] > g) {
      pixelG[xyToPos(movingPoint_x, movingPoint_y)]--;
    }
    if (pixelB[xyToPos(movingPoint_x, movingPoint_y)] < b) {
      pixelB[xyToPos(movingPoint_x, movingPoint_y)]++;
    } else if (pixelB[xyToPos(movingPoint_x, movingPoint_y)] > b) {
      pixelB[xyToPos(movingPoint_x, movingPoint_y)]--;
    }
  }


  //pixelR[xyToPos(movingPoint_x,movingPoint_y)]=0.5*pixelR[xyToPos(movingPoint_x,movingPoint_y)]+0.5*r;
  //pixelG[xyToPos(movingPoint_x,movingPoint_y)]=0.5*pixelG[xyToPos(movingPoint_x,movingPoint_y)]+0.5*g;
  //pixelB[xyToPos(movingPoint_x,movingPoint_y)]=0.5*pixelB[xyToPos(movingPoint_x,movingPoint_y)]+0.5*b;

  movingPoint_x = startx;
  movingPoint_y = starty;

}
void bufferClear()
{
  for (int i = 0; i < strip.numPixels(); i++) {
    pixelR_buffer[i] = 0;
    pixelG_buffer[i] = 0;
    pixelB_buffer[i] = 0;
  }
}

void led_chase()
{
  Index += 1;
  if (Index > 255) {
    Index = 1;
  }
  // for (int j=0; j < 256; j++) {     // cycle all 256 colors in the wheel
  for (int q = 0; q < 3; q++) {
    for (uint16_t i = 0; i < strip.numPixels(); i = i + 3) {
      strip.setPixelColor(i + q, wheel( (i + Index) % 255)); //turn every third pixel on
    }
    strip.show();

    delay(49);

    for (uint16_t i = 0; i < strip.numPixels(); i = i + 3) {
      strip.setPixelColor(i + q, 0);      //turn every third pixel off
    }
  }
}



void led_radar()
{
  // "Sweep" in cirles...
  // line(0,0,950*cos(radians(iAngle)),-950*sin(radians(iAngle)));
}

// Calculate 50% dimmed version of a color (used by led_larson())
uint32_t DimColor(uint32_t color)
{
  // Shift R, G and B components one bit to the right
  uint32_t Dimcolor = strip.Color(Red(color) >> 1, Green(color) >> 1, Blue(color) >> 1);
  return Dimcolor;
}

// Returns the Red component of a 32-bit color
uint8_t Red(uint32_t color)
{
  return (color >> 16) & 0xFF;
}

// Returns the Green component of a 32-bit color
uint8_t Green(uint32_t color)
{
  return (color >> 8) & 0xFF;
}

// Returns the Blue component of a 32-bit color
uint8_t Blue(uint32_t color)
{
  return color & 0xFF;
}

void Increment()
{
  if (Direction == FORWARD)
  {
    Index++;
    if (Index >= (strip.numPixels() - 1) * 2)
    {
      Index = 0;
    }
  }
  else // Direction == REVERSE
  {
    --Index;
    if (Index <= 0)
    {
      Index = (strip.numPixels() - 1) * 2 - 1;
    }
  }
}


void led_larson()
{
  int EyeSize = 5;
  uint32_t rgb[3] = {0};
  wheelPos++;
  if (wheelPos >= 256) {
    wheelPos = 0;
  }
  int Color1 = wheel(wheelPos);

  for (int i = 0; i < strip.numPixels(); i++)
  {
    int realpos = numToSpiralPos(i);
    if (i == Index) // Scan Pixel to the right
    {
      strip.setPixelColor(realpos, Color1);
    }
    else if (i == ((strip.numPixels() - 1) * 2) - Index) // Scan Pixel to the left
    {
      strip.setPixelColor(realpos, Color1);
    }
    else // Fading tail
    {
      strip.setPixelColor(realpos, DimColor(strip.getPixelColor(realpos)));
    }
  }

  strip.show();
  Increment();
}


void led_spiral()
{
  int every = 4;
  wheelPos++;
  int qp = Index % every;
  Index++;
  if (Index >= strip.numPixels()-1) {
    Index = 0;
  }
  int q = Index % every;
  for (uint16_t i = 0; i < strip.numPixels(); i = i + every) {
    strip.setPixelColor(numToSpiralPos(i + q), wheel( (i + Index * 4) % 255)); //turn every "every" pixel on
  }
  for (uint16_t i = 0; i < strip.numPixels(); i = i + every) {
    strip.setPixelColor(numToSpiralPos(i + qp), 0);      //turn every "every" pixel off
  }
  strip.show();

}

void led_randomfade()
{
  for (int i = 0; i < strip.numPixels(); i++) {
    pixelR_buffer[i] += random(0, random(0, fadespeedmax + 1) + 1); //use buffer red channel for color wheel
    strip.setPixelColor(i, wheel(pixelR_buffer[i]));
  }
  strip.show();
}

void led_icon(uint8_t fontchar, uint32_t iconcolor)
{
  for (int i = 0; i < strip.numPixels(); i++) {
    uint64_t mask = 1LL << (uint64_t)i;

    if ( (font[fontchar]&mask) == 0) {
      strip.setPixelColor(numToPos(i), strip.Color(0, 0, 0)); //bit is 0 at pos i
    } else {

      float _brightness = 1.0 - ( (iconCountStart - iconCountdown) * 1.0 / iconCountStart );
      uint8_t _r = (uint8_t)(iconcolor >> 16);
      uint8_t _g = (uint8_t)(iconcolor >>  8);
      uint8_t _b = (uint8_t)iconcolor;
      strip.setPixelColor(numToPos(i), strip.Color(_r * _brightness, _g * _brightness, _b * _brightness)); //bit is 1 at pos i
    }

  }
  strip.show();
}

void set_randomBuffer()
{
  for (int i = 0; i < strip.numPixels(); i++) {
    uint32_t c = wheel(random(0, 256));
    pixelR_buffer[i] = (uint8_t)(c >> 16);
    pixelG_buffer[i] = (uint8_t)(c >>  8);
    pixelB_buffer[i] = (uint8_t)c;
  }
}


uint32_t parseColor(String value) {
  if (value.charAt(0) == '#') { //solid fill
    String color = value.substring(1);
    int number = (int) strtol( &color[0], NULL, 16);


    // Split them up into r, g, b values
    int r = number >> 16;
    int g = number >> 8 & 0xFF;
    int b = number & 0xFF;
    Homie.getLogger() << "r=" << r << " g=" << g << " b=" << b << endl;
    //Serial.print("r=");Serial.print(r);
    //Serial.print(" g=");Serial.print(g);
    //Serial.print(" b=");Serial.println(b);
    return strip.Color(r, g, b);

  }
  return 0;
}


bool effectHandler(const HomieRange& range, const String& value) {
  Homie.getLogger() << "-> " << value << endl;
  int sep = value.indexOf("|");

  String command = value.substring(0, sep);
  String parameters = value.substring(sep + 1);
  Homie.getLogger() << "command=" << command << " parameters=" << parameters << endl;

  if (command.equals("fill")) {
    effect = EFFECT_NONE;
    led_fill(parseColor(parameters));
  } else if (command.equals("off")) {
    effect = EFFECT_NONE;
    led_fill(strip.Color(0, 0, 0));
  } else if (command.equals("random")) {
    effect = EFFECT_NONE;
    led_random();
  } else if (command.equals("set")) { //example: set|37#ff003a
    effect = EFFECT_NONE;
    int x = parameters.substring(0, 1).toInt();
    int y = parameters.substring(1, 2).toInt();
    String cstr = parameters.substring(2, 9);
    strip.setPixelColor(xyToPos(x, y), parseColor(cstr));
    strip.show();
  } else if (command.equals("smooth")) { //example: smooth|[wheelspeed]|[smoothing]|[strength]     wheelspeed=1-255, smoothing=0-100, strength=1-255
    int sepparam = parameters.indexOf("|");
    int p1 = parameters.substring(0, sepparam).toInt();
    String parameters_part2 = parameters.substring(sepparam + 1);
    sepparam = parameters_part2.indexOf("|");
    int p2 = parameters_part2.substring(0, sepparam).toInt();
    int p3 = parameters_part2.substring(sepparam + 1).toInt();
    wheelSpeed = 16; //default, speed=+1 /frame
    if (p1 > 0) {
      wheelSpeed = p1;
    }
    smoothing = 80;
    if (p2 > 0) {
      smoothing = p2;
    }
    strength = 50;
    if (p3 > 0) {
      strength = p3;
    }
    Homie.getLogger() << "-- p1=" << p1 << " p2=" << p2 << " p3=" << p3 << endl;
    effect = EFFECT_SMOOTH;
    bufferClear();
    showBuffer();
    strip.show();
  } else if (command.equals("spiral")) {
    effect = EFFECT_SPIRAL;
    Index = 0;
    bufferClear();
    showBuffer();
    strip.show();
  } else if (command.equals("clearbuffer")) {
    bufferClear();
    showBuffer();
    strip.show();
  } else if (command.equals("randomfade")) { //example: randomfade|5
    int sepparam = parameters.indexOf("|");
    int p1 = parameters.substring(0, sepparam).toInt();
    fadespeedmax = 5;
    if (p1 > 0) {
      fadespeedmax = p1;
    }
    effect = EFFECT_RANDOMFADE;
    set_randomBuffer(); //initialize random
  } else if (command.equals("randombuffer")) {
    set_randomBuffer(); //set random
    showBuffer();
  } else if (command.equals("chase")) {
    effect = EFFECT_CHASE;
    bufferClear();
    showBuffer();
    strip.show();
  } else if (command.equals("radar")) {
    effect = EFFECT_RADAR;
    Index = 0;
    bufferClear();
    showBuffer();
    strip.show();
  } else if (command.equals("larson")) {
    effect = EFFECT_LARSON;
    Index = 0;
    bufferClear();
    showBuffer();
    strip.show();
  }
  return true;
}

bool pixelsHandler(const HomieRange& range, const String& value) {

  String remaining = value;
  int i = 0;
  effect = EFFECT_NONE;
  do {
    String current = remaining.substring(0, 7);
    Homie.getLogger() << i << ":" << current << endl;
    uint32_t currentcolor = parseColor(current);

    strip.setPixelColor(i, currentcolor);
    i++;

    remaining = remaining.substring(7);

  } while (remaining.length() > 2 && (i < strip.numPixels()));
  Homie.getLogger() << "  filling rest with black" << endl;
  while (i < strip.numPixels()) {
    strip.setPixelColor(numToPos(i), strip.Color(0, 0, 0));
    i++;
  }

  strip.show();

  return true;
}

bool iconHandler(const HomieRange& range, const String& value) {
  String _iconname = value;
  iconcolor = strip.Color(255, 255, 255); //default color
  if (value[0] == '#') { //color given
    iconcolor = parseColor(value.substring(0, 6));
    _iconname = value.substring(7); //  example: #ff00dc|A  (pipe will be ignored)
  }

  iconCountStart = FPS * 2;
  iconCountdown = iconCountStart;
  if (_iconname.length() == 1) { //only one character
    iconchar = value[0];
  } else {

  }

  strip.show();

  return true;
}

void setup() {
  Serial.begin(115200);
  Serial << endl << endl;

  Serial << "Begin strip" << endl;
  strip.begin();
  strip.show(); // Initialize all pixels to 'off'


  led_fill(strip.Color(100, 0, 0));
  //delay(500);



  Serial << "Homie_setFirmware" << endl;
  Homie_setFirmware("pixelprojektor", "1.0.0");

  Serial << "Homie node advertise" << endl;
  homieNode.advertise("effect").settable(effectHandler);
  homieNode.advertise("pixels").settable(pixelsHandler);
  homieNode.advertise("icon").settable(iconHandler);



  led_fill(strip.Color(0, 0, 0));
  strip.setPixelColor(0, strip.Color(100, 0, 0));
  strip.show();

  Serial << "homie setup" << endl;
  Homie.setup();

  // Hostname defaults to esp8266-[ChipID]
  ArduinoOTA.setHostname("pixelprojektor");

  // No authentication by default
  // ArduinoOTA.setPassword((const char *)"ctdo2342");

  ArduinoOTA.onStart([]() {
    Serial.println("Start");
    led_fill(strip.Color(0, 0, 0)); // Clear
  });
  ArduinoOTA.onEnd([]() {
    Serial.println("\nEnd");
  });
  ArduinoOTA.onProgress([](unsigned int progress, unsigned int total) {
    strip.setPixelColor(numToPos((progress / (total / strip.numPixels()))), strip.Color(255, 255, 255));
    strip.show();
    Serial.printf("Progress: %u%%\r", (progress / (total / 100)));
  });
  ArduinoOTA.onError([](ota_error_t error) {
    Serial.printf("Error[%u]: ", error);
    if (error == OTA_AUTH_ERROR) Serial.println("Auth Failed");
    else if (error == OTA_BEGIN_ERROR) Serial.println("Begin Failed");
    else if (error == OTA_CONNECT_ERROR) Serial.println("Connect Failed");
    else if (error == OTA_RECEIVE_ERROR) Serial.println("Receive Failed");
    else if (error == OTA_END_ERROR) Serial.println("End Failed");
  });
  ArduinoOTA.begin();

  // led_fill(strip.Color(0, 0, 0));

  // Initialer Effekt
  //effect = EFFECT_CHASE;
  //effect = EFFECT_SPIRAL;
  effect = EFFECT_LARSON;

  Serial << "Setup finished" << endl;
}

void loop() {
  Homie.loop();
  ArduinoOTA.handle();

  long currentMillis = millis();


  if (lastMillis + fpsdelay < currentMillis) {
    if (iconCountdown > 0) { //icon effect active
      iconCountdown--;
      led_icon(iconchar, iconcolor);
    } else {
      switch (effect) {
        case EFFECT_SMOOTH:
          led_movingPoint();
          led_smooth();
          break;
        case EFFECT_SPIRAL:
          led_spiral();
          break;
        case EFFECT_RANDOMFADE:
          led_randomfade();
          break;
        case EFFECT_CHASE:
          led_chase();
          break;
        case EFFECT_RADAR:
          led_radar();
          break;
        case EFFECT_LARSON:
          led_larson();
          break;
      }
    }
    lastMillis = currentMillis;
  }

}