#include <IRremote.hpp>

const int IR_PIN = 28;



void translateIR() {
  // Takes command based on IR code received
  switch (IrReceiver.decodedIRData.command) {
    case 162:
      irPrint("POWER");
      break;
    case 226:
      irPrint("MENU");
      break;
    case 34:
      irPrint("TEST");
      break;
    case 2:
      irPrint("PLUS");
      break;
    case 194:
      irPrint("BACK");
      break;
    case 224:
      irPrint("PREV.");
      break;
    case 168:
      irPrint("PLAY");
      break;
    case 144:
      irPrint("NEXT");
      break;
    case 104:
      irPrint("num: 0");
      break;
    case 152:
      irPrint("MINUS");
      break;
    case 176:
      irPrint("key: C");
      break;
    case 48:
      irPrint("num: 1");
      break;
    case 24:
      irPrint("num: 2");
      break;
    case 122:
      irPrint("num: 3");
      break;
    case 16:
      irPrint("num: 4");
      break;
    case 56:
      irPrint("num: 5");
      break;
    case 90:
      irPrint("num: 6");
      break;
    case 66:
      irPrint("num: 7");
      break;
    case 74:
      irPrint("num: 8");
      break;
    case 82:
      irPrint("num: 9");
      break;
    default:
      Serial1.println("\n");
      Serial1.println(IrReceiver.decodedIRData.command);
      Serial1.print(" other button");
  }
}

void irPrint(char* text) {
  Serial1.println("\nbutton pressed: ");
  Serial1.println(text);
  Serial1.println("\ncode: ");
  Serial1.println(IrReceiver.decodedIRData.command);
}


void setup() {
  Serial1.begin(115200);
  Serial1.println("Hello, Raspberry Pi Pico!");
  IrReceiver.begin(IR_PIN);
}

void loop() {
  if (IrReceiver.decode()) {
    translateIR();
    IrReceiver.resume();
  }
  delay(1);
}