IRlicht/source/irlicht.ino

#include <IRremote.h>
#include <simtronyx_RGB_LED.h>

#define LED_WHITE  5
#define LED_GREEN  6
#define LED_BLUE  10
#define LED_RED    9

#define IR_PIN         2
#define IR_PROTOCOL    1
#define IR_FILTER      0xF70000
#define IR_MASK        0xFF0000
#define IR_KEY_1       0xF720DF
#define IR_KEY_2       0xF710EF
#define IR_KEY_3       0xF730CF
#define IR_KEY_4       0xF70000   // key is broken :-(
#define IR_KEY_5       0xF728D7
#define IR_KEY_6       0xF7A05F
#define IR_KEY_7       0xF7906F
#define IR_KEY_8       0xF7B04F
#define IR_KEY_9       0xF78877
#define IR_KEY_FLASH   0xF7D02F
#define IR_KEY_STROBE  0xF7F00F
#define IR_KEY_FADE    0xF7C837
#define IR_KEY_SMOOTH  0xF7E817
#define IR_KEY_DIM     0xF7807F
#define IR_KEY_BRIGHT  0xF700FF
#define IR_KEY_ALLON   0xF7C03F
#define IR_KEY_ALLOFF  0xF740BF
#define IR_KEY_LIGHT10 0xF7A857
#define IR_KEY_LIGHT11 0xF7609F
#define IR_KEY_LIGHT12 0xF750AF
#define IR_KEY_LIGHT13 0xF7708F
#define IR_KEY_LIGHT14 0xF748B7
#define IR_KEY_LIGHT15 0xF76897
#define IR_KEY_LIGHT16 0xF7E01F

int leds[] = {LED_WHITE, LED_GREEN, LED_BLUE, LED_RED};
int white = 0x01;

IRrecv irrecv(IR_PIN);
decode_results results;
simtronyx_RGB_LED strip(LED_RED, LED_GREEN, LED_BLUE);

void setup()  {
  for (int i = 0; i < 4; i++) {
    pinMode(leds[i], OUTPUT);
    analogWrite(leds[i], 0x00);
  }
  analogWrite(LED_WHITE, white);
  Serial.begin(9600);
  irrecv.enableIRIn(); // Start the receiver
}

void loop() {
  strip.loop();
  if (irrecv.decode(&results)) {
    if (results.decode_type == IR_PROTOCOL) {
      if (results.value != 0xFFFFFFFF) {
      //if (results.value & IR_MASK == IR_FILTER) {
        Serial.println(results.value); 
        switch (results.value) {
          case IR_KEY_1: strip.animateStop(); analogWrite(LED_RED,   0x00); break;
          case IR_KEY_2: strip.animateStop(); analogWrite(LED_GREEN, 0x00); break;
          case IR_KEY_3: strip.animateStop(); analogWrite(LED_BLUE,  0x00); break;
          case IR_KEY_4: strip.animateStop(); analogWrite(LED_RED,   0x80); break;
          case IR_KEY_5: strip.animateStop(); analogWrite(LED_GREEN, 0x80); break;
          case IR_KEY_6: strip.animateStop(); analogWrite(LED_BLUE,  0x80); break;
          case IR_KEY_7: strip.animateStop(); analogWrite(LED_RED,   0xFF); break;
          case IR_KEY_8: strip.animateStop(); analogWrite(LED_GREEN, 0xFF); break;
          case IR_KEY_9: strip.animateStop(); analogWrite(LED_BLUE,  0xFF); break;
          case IR_KEY_FADE:
            strip.animateColorAdd(255,   0,   0, 100);
            strip.animateColorAdd(255, 255,   0, 100);
            strip.animateColorAdd(  0, 255,   0, 100);
            strip.animateColorAdd(  0, 255, 255, 100);
            strip.animateColorAdd(  0,   0, 255, 100);
            strip.animateColorAdd(255,   0, 255, 100);
            strip.animateStart();
            break;
          case IR_KEY_DIM:
            white -= 0x10;
            if (white < 0x00) {
              white = 0x00;
            }
            analogWrite(LED_WHITE, white);
            break;
          case IR_KEY_BRIGHT:
            white += 0x10;
            if (white > 0xFF) {
              white = 0xFF;
            }
            analogWrite(LED_WHITE, white);
            break;
          default:
            Serial.print("proto: ");
            Serial.print(results.decode_type, DEC);
            Serial.print(" code: ");
            Serial.println(results.value, HEX);
            break;
        }
      }
    }
    irrecv.resume(); // Receive the next value
  }
}

// vim:filetype=c:ts=2