#include "Truhe.h"
Truhe::Truhe(String name, int relay, uint8_t sensorpin){
  _name = name;
  _relay = relay;
  _sensorpin = sensorpin;
  _oneWire = OneWire(sensorpin);
  _sensors = DallasTemperature(&_oneWire);
  
};

void Truhe::setup(String name, int uT, int oT) {
  _name = name;
  Serial.println("Setup " + _name);
  Serial.println(_sensorpin);
  _uT = uT;
  _oT = oT;
  pinMode(_relay, OUTPUT);
  digitalWrite(_relay, HIGH);
  pinMode(_sensorpin, INPUT);
  _sensors.begin();
}

void Truhe::mess() {
  Serial.println(String(_name) + " mess()");
  _sensors.requestTemperatures();
  _cur_temp = _sensors.getTempCByIndex(0);
  // Check if reading was successful
  if(_cur_temp != DEVICE_DISCONNECTED_C) 
  {
    Serial.println(String(_name) + "\t\t" + String((int)_cur_temp) + " grad gelesen");
  } 
  else
  {
    Serial.println("Error: Could not read temperature data: "+ String(_name));
    _cur_temp = 99; // Liewer warmes bier als garkenn bier
    _stat = 2;
  }
};

void Truhe::schalt() {
  Serial.println(String(_name) + " schalt() stat: " + String(_stat));
  if (_cur_temp >= _oT && _stat != 1 && _stat != 2) {
    digitalWrite(_relay, LOW);
    _stat = 1;
    Serial.println("schalt " + _name + " zu " + String(_stat));
  }
  else if (_cur_temp <= _uT && _stat != 0 && _stat != 2) {
    digitalWrite(_relay, HIGH);
    _stat = 0;
    Serial.println("schalt " + _name + " zu " + String(_stat));
  }
}
int Truhe::getUpdLcd(){ return _updlcd;};
void Truhe::setUpdLcd(int updlcd){ _updlcd = updlcd;};
int Truhe::getRelay(){ return _relay;};
int Truhe::getSensorPin(){return _sensorpin;};
int Truhe::getStat(){return _stat;};
int Truhe::getCurTemp(){return int(_cur_temp);};
String Truhe::getName(){return _name;};
int Truhe::getuT(){return _uT;};
int Truhe::getoT(){return _oT;};