💑 ✌🏼 😆 Criando menus usando FLProg 👨‍🚒 🤚 🚘

Boa tarde No programa FLProg desde a versão 2.1. apareceram blocos de designers de menu. Nesta lição, a criação de um menu usando esses blocos será discutida.

Para ser mais interessante, considere o problema real. Montamos uma unidade de controle de temperatura, que inclui um sensor de temperatura, aquecedor e ventilador. Além disso, a inclusão de um ventilador ou aquecedor será acompanhada por um sinal sonoro. Usando o menu, definiremos os limites para ligar e desligar os dispositivos e a necessidade de um sinal de áudio. Para simplificar a depuração, primeiro simulamos o sensor de temperatura usando um resistor variável.

A primeira versão do dispositivo consistirá em:

Arduino Uno:

Protetor do teclado do LCD:

Dois blocos de relé:

E uma campainha ativa:

Aqui está um diagrama esquemático de um dispositivo

Para iniciantes, todo o projeto.

Considere cada quadro individualmente.

Tudo é simples aqui, obtemos o valor da entrada analógica e escalamos para o intervalo necessário. O valor da temperatura será alterado de -20 para 80. Configurações do bloco de escala.

Nesta placa, o sinal dos botões do LCD Keypad Shield é analisado e os sinais correspondentes são gerados. A análise é realizada usando o bloco 5Bin1 personalizado. A criação deste bloco é discutida nesta lição , onde você pode fazer o download deste bloco.

Como não há botões suficientes no escudo, expandiremos os recursos do botão "Selecionar".

Este esquema funciona da seguinte maneira. Uma pressão breve no botão gera um impulso "Entrar no menu", um impulso longo (com duração superior à configuração do temporizador TON) gera um impulso "Sair do menu".

Um sinal de ativação de menu é gerado nesta placa. O temporizador TON é necessário para proteger contra geração acidental deste sinal quando o controlador é iniciado. Bem, diretamente no quadro com o bloco do menu principal.

Na descrição do bloco de menus (guia "Informações" do editor de blocos), tentei descrever a operação do bloco da maneira mais completa possível. Considere a tintura do bloco neste caso específico.

Guia - "Árvore de menus":

A árvore de menus consiste em dois grupos de menus para definir temperaturas para ligar e desligar o aquecedor e a ventilação, além de um único item para controlar a atividade sonora. Em geral, esse bloco permite criar um menu de qualquer complexidade e aninhamento. O principal é que haveria memória suficiente no controlador.

Definir um item de menu do grupo.

Configurações para configurações de temperatura.

Vou esclarecer um pouco sobre o valor inicial na EEPROM. Este valor é gravado na EEPROM no início do primeiro ciclo após o carregamento do programa no controlador. Isso acontecerá apenas uma vez após o download de cada novo programa no controlador. Outros itens de menu relacionados à temperatura são semelhantes a este.

Configurações do item de menu de controle de som:

Textos para Verdadeiro e Falso serão enviados para ValStr com os valores correspondentes dos itens de menu.

Marcador - "Controle de Menu":

Tudo parece ser intuitivo aqui.

Indicador - “Gerenciamento de Valor”

No modo de alteração selecionado, quando você pressiona brevemente o botão de alteração de valor, ele muda de acordo com o valor da etapa especificada. Se você pressionar este botão por mais de 2 segundos, o valor será alterado pelo valor da etapa especificada a cada meio segundo. Se você continuar pressionando o botão por mais 2 segundos, o período da alteração do valor diminuirá para 200 ms.

Guia Sair

A saída "Menu principal ativo" é necessária para gerar um sinal "Ativar o menu". As próximas duas placas são quase idênticas e não precisam de explicações especiais.

Prestarei atenção apenas às entradas CanValUp dos blocos MenuValue. Em um nível alto nessa entrada, o valor na saída Q corresponde ao valor do item de menu selecionado. Em uma borda posterior nesta entrada, o valor na saída é "congelado" até que um nível alto apareça nessa entrada. Isso é necessário para que o valor não seja alterado até o final de sua edição (fechando o menu).

As demais placas são igualmente simples e não precisam de explicação.

Resultado da compilação do projeto

#include <LiquidCrystal.h>
#include <EEPROMex.h>
LiquidCrystal _lcd1(8, 9, 4, 5, 6, 7);
int _dispTempLength1 = 0;
boolean _isNeedClearDisp1;


struct UB_142171746
{
  bool ubo_101667604 = 0;
  bool ubo_51674151 = 0;
  bool ubo_137412502 = 0;
  bool ubo_174461762 = 0;
  bool ubo_157422683 = 0;
  int _gtv1 = 0;
  int _gtv2 = 0;
  int _gtv3 = 0;
  int _gtv4 = 0;
  int _gtv5 = 0;
  bool _bounse1S = 0;
  bool _bounse1O = 0;
  unsigned long _bounse1P = 0UL;
  bool _bounse2S = 0;
  bool _bounse2O = 0;
  unsigned long _bounse2P = 0UL;
  bool _bounse3S = 0;
  bool _bounse3O = 0;
  unsigned long _bounse3P = 0UL;
  bool _bounse4S = 0;
  bool _bounse4O = 0;
  unsigned long _bounse4P = 0UL;
  bool _bounse5S = 0;
  bool _bounse5O = 0;
  unsigned long _bounse5P = 0UL;
};
UB_142171746 UB_142171746_Instance1;
int UB_142171746_ubi_125089190 = 0;
const byte _menuParametrsArray[]  PROGMEM =  {1, 0, 0, 4, 5, 0, 0, 0, 0, 0, 6, 9, 0, 2, 0, 0, 6, 7, 0, 0, 0, 0, 0, 7, 9, 0, 3, 3, 1, 0, 0, 0, 10, 11, 1, 8, 3, 0, 0, 4, 4, 4, 0, 0, 1, 0, 0, 1, 4, 5, 0, 8, 5, 4, 3, 0, 0, 1, 0, 0, 1, 4, 4, 0, 8, 6, 4, 2, 0, 0, 2, 0, 0, 1, 4, 2, 0, 8, 7, 4, 1, 0, 0, 2, 0, 0, 1, 4, 1, 0, 8};
bool _menuValueArray_bool[1];
const bool _menuConstantValuesArray_bool[]  PROGMEM =  {1};
int _menuValueArray_int[4];
const int _menuConstantValuesArray_int[]  PROGMEM =  {1};
const char _flprogMenuNameString1[] PROGMEM = "Vent-Off";
const char _flprogMenuNameString2[] PROGMEM = "Vent-On";
const char _flprogMenuNameString3[] PROGMEM = "Sound";
const char _flprogMenuNameString4[] PROGMEM = "Heater-Off";
const char _flprogMenuNameString5[] PROGMEM = "Heater-On";
const char _flprogMenuNameString6[] PROGMEM = "HeaterSetting";
const char _flprogMenuNameString7[] PROGMEM = "Vent Setting";
const char _flprogMenuNameString8[] PROGMEM = "C";
const char _flprogMenuNameString9[] PROGMEM = "Enter to submenu";
const char _flprogMenuNameString10[] PROGMEM = "On";
const char _flprogMenuNameString11[] PROGMEM = "Off";
const char* const _flprogMenuStringsArray[] PROGMEM = { _flprogMenuNameString1,  _flprogMenuNameString2,  _flprogMenuNameString3,  _flprogMenuNameString4,  _flprogMenuNameString5,  _flprogMenuNameString6,  _flprogMenuNameString7,  _flprogMenuNameString8,  _flprogMenuNameString9,  _flprogMenuNameString10,  _flprogMenuNameString11};
struct _menuItemStricture {
  int startInArrayIndex;
};
struct _menuMainStricture {
  byte startIndex;
  byte stopIndex;
  bool isSwitchMenuAroundRing;
  _menuItemStricture  currentItem;
};
_menuItemStricture _MenuItems[7];
_menuMainStricture _MainMenus[1];
bool _gtv1;
bool _gtv2;
bool _gtv3;
bool _gtv4;
bool _gtv5;
bool _gtv6;
bool _gtv7;
bool _gtv8;
bool _gtv9;
bool _gtv10 = 0;
float _gtv11;
bool _gtv12 = 0;
String _swi2;
String _swi1;
bool _trgrt1 = 0;
bool _trgrt1I = 0;
int _disp1oldLength = 0;
bool _trgrt2 = 0;
bool _trgrt2I = 0;
int _disp3oldLength = 0;
int Menu_Value_4_TVD = 0;
bool _trgrt3 = 0;
bool _trgrt3I = 0;
int Menu_Value_2_TVD = 0;
int _disp4oldLength = 0;
bool _trgr4 = 0;
bool _trgr2 = 0;
bool _trgr1 = 0;
bool _trgr3 = 0;
String _MenuBlock_47814740_ASO_1;
String _MenuBlock_47814740_MNO;
String _MenuBlock_47814740_VNO;
bool _MenuBlock_47814740_OEIS = 0;
bool _MenuBlock_47814740_OMUIS = 0;
bool _MenuBlock_47814740_OMDIS = 0;
bool _MenuBlock_47814740_OEMIS = 0;
bool _MenuBlock_47814740_OExFMIS = 0;
bool _MenuBlock_47814740_OVUIS = 0;
bool _MenuBlock_47814740_OVDIS = 0;
unsigned long _MenuBlock_47814740_VUDST = 0UL;
unsigned long _MenuBlock_47814740_VUDSPT = 0UL;
byte _MenuBlock_47814740_VUDSM = 0;
int _MenuBlock_47814740_VUDPT = 0;
bool _MenuBlock_47814740_AMMO = 0;
bool _tim2I = 0;
bool _tim2O = 0;
unsigned long _tim2P = 0UL;
bool _tim3I = 0;
bool _tim3O = 0;
unsigned long _tim3P = 0UL;
bool _tim1I = 0;
bool _tim1O = 0;
unsigned long _tim1P = 0UL;
int _disp2oldLength = 0;
int Menu_Value_3_TVD = 0;
int Menu_Value_1_TVD = 0;
void setup()
{
  if ((EEPROM.read(0)) != 98) {
    EEPROM.write(0, 98) ;
    EEPROM.updateInt(4, 40);
    EEPROM.updateInt(2, 30);
    EEPROM.updateBit(1, 0, 0);
    EEPROM.updateInt(6, 25);
    EEPROM.updateInt(8, 10);
  }
  pinMode(2, OUTPUT);
  pinMode(3, OUTPUT);
  pinMode(11, OUTPUT);

  _lcd1.begin(16, 2);
  _MenuItems[0].startInArrayIndex = 0;
  _MenuItems[1].startInArrayIndex = 13;
  _MenuItems[2].startInArrayIndex = 26;
  _MenuItems[3].startInArrayIndex = 39;
  _MenuItems[4].startInArrayIndex = 52;
  _MenuItems[5].startInArrayIndex = 65;
  _MenuItems[6].startInArrayIndex = 78;
  _MainMenus[0].startIndex = 1;
  _MainMenus[0].isSwitchMenuAroundRing = 1;
  _MainMenus[0].stopIndex = 3;
  _MainMenus[0].currentItem = _MenuItems[0];
  _menuValueArray_int[0] = (EEPROM.readInt(2));
  _menuValueArray_int[1] = (EEPROM.readInt(4));
  _menuValueArray_bool[0] = (EEPROM.readBit(1, 0));
  _menuValueArray_int[2] = (EEPROM.readInt(6));
  _menuValueArray_int[3] = (EEPROM.readInt(8));
}
void loop()
{ bool _tempVariable_bool;
  byte _tempVariable_byte;
  if (_isNeedClearDisp1) {
    _lcd1.clear();
    _isNeedClearDisp1 = 0;
  }




  _gtv11 = (map(( (analogRead (1))), (0), (1023), (-20), (80)));
  UB_142171746_ubi_125089190 =  (analogRead (0));
  UB_142171746_Instance1 = _func_UB_142171746(UB_142171746_Instance1, UB_142171746_ubi_125089190, 96, 250, 402, 635);
  _gtv3 = UB_142171746_Instance1.ubo_101667604;
  _gtv4 = UB_142171746_Instance1.ubo_51674151;
  _gtv5 = UB_142171746_Instance1.ubo_137412502;
  _gtv2 = UB_142171746_Instance1.ubo_174461762;
  _gtv1 = UB_142171746_Instance1.ubo_157422683;
  if (_gtv1)
  {
    if (_tim1I) {
      if (_isTimer(_tim1P, 2000)) {
        _tim1O = 1;
      }
    } else {
      _tim1I = 1;
      _tim1P = millis();
    }
  } else {
    _tim1O = 0;
    _tim1I = 0;
  }
  if (_tim2O) _trgr2 = 0;
  if (_tim1O) _trgr2 = 1;
  if (_trgr2) {
    if (_trgrt3I) {
      _trgrt3 = 0;
    } else {
      _trgrt3 = 1;
      _trgrt3I = 1;
    }
  } else {
    _trgrt3 = 0;
    _trgrt3I = 0;
  };
  if (_trgrt1) {
    _tim2O = 1;
    _tim2I = 1;
  } else {
    if (_tim2I) {
      _tim2I = 0;
      _tim2P = millis();
    } else {
      if (_tim2O) {
        if ( _isTimer(_tim2P, 200)) _tim2O = 0;
      }
    }
  }
  if (!(_gtv1)) {
    if (_trgrt1I) {
      _trgrt1 = 0;
    } else {
      _trgrt1 = 1;
      _trgrt1I = 1;
    }
  } else {
    _trgrt1 = 0;
    _trgrt1I = 0;
  };
  _gtv8 = _trgrt3;
  _gtv7 = ( (!(_trgr2)) && (_trgrt1) );
  if (1)
  {
    if (_tim3I) {
      if (_isTimer(_tim3P, 200)) {
        _tim3O = 1;
      }
    } else {
      _tim3I = 1;
      _tim3P = millis();
    }
  } else {
    _tim3O = 0;
    _tim3I = 0;
  }
  if (!(_gtv7)) {
    if (_trgrt2I) {
      _trgrt2 = 0;
    } else {
      _trgrt2 = 1;
      _trgrt2I = 1;
    }
  } else {
    _trgrt2 = 0;
    _trgrt2I = 0;
  };
  if (( (_gtv9) && (_gtv8) )) _trgr1 = 0;
  if (( (_tim3O) && (_trgrt2) )) _trgr1 = 1;
  _gtv6 = _trgr1;
  if (_gtv6) {
    _tempVariable_bool  =  1;
    if ( ! _MenuBlock_47814740_OEIS ) {
      _MenuBlock_47814740_OEIS = 1;
      _MainMenus[0].currentItem = _MenuItems[0];
    }
    _tempVariable_byte = pgm_read_byte(&_menuParametrsArray[((_MainMenus[0].currentItem ).startInArrayIndex) + 10]);
    _MenuBlock_47814740_MNO = _readStringFromProgmem ((char*)pgm_read_word(&(_flprogMenuStringsArray[_tempVariable_byte - 1])));
    _MenuBlock_47814740_VNO = _menuOutputValueString (0);
    _MenuBlock_47814740_AMMO = (pgm_read_byte(&_menuParametrsArray[((_MainMenus[0].currentItem ).startInArrayIndex) + 5]) ) == 0;
    _tempVariable_byte  =  pgm_read_byte(&_menuParametrsArray[(((_MainMenus[0]).currentItem).startInArrayIndex) + 12]);
    if (_tempVariable_byte == 0 ) {
      _MenuBlock_47814740_ASO_1 =  "";
    } else {
      _MenuBlock_47814740_ASO_1 =  _readStringFromProgmem ((char*)pgm_read_word(&(_flprogMenuStringsArray[_tempVariable_byte - 1])));
    }
  } else {
    _tempVariable_bool  =  0;
    if (_MenuBlock_47814740_OEIS) {
      _MenuBlock_47814740_OEIS = 0;
      _menuUpdateToEEpromItems();
    }
    _MenuBlock_47814740_AMMO = 0;
    _MenuBlock_47814740_ASO_1 =  "";
    _MenuBlock_47814740_MNO = "";
    _MenuBlock_47814740_VNO = "";
  }
  if (_gtv4) {
    if ( ! _MenuBlock_47814740_OMUIS) {
      _MenuBlock_47814740_OMUIS = 1; if (_tempVariable_bool) {
        _menuUpEvents(0);
        _menuUpdateToEEpromItems();
      }
    }
  } else {
    _MenuBlock_47814740_OMUIS = 0;
  }
  if (_gtv5) {
    if ( ! _MenuBlock_47814740_OMDIS) {
      _MenuBlock_47814740_OMDIS = 1; if (_tempVariable_bool) {
        _menuDownEvents(0);
        _menuUpdateToEEpromItems();
      }
    }
  } else {
    _MenuBlock_47814740_OMDIS = 0;
  }
  if (( (_gtv7) && (_gtv6) )) {
    if ( ! _MenuBlock_47814740_OEMIS) {
      _MenuBlock_47814740_OEMIS = 1; if (_tempVariable_bool) {
        _menuEnterTheMenuEvents (0);
        _menuUpdateToEEpromItems();
      }
    }
  } else {
    _MenuBlock_47814740_OEMIS = 0;
  }
  if (_gtv8) {
    if ( ! _MenuBlock_47814740_OExFMIS) {
      _MenuBlock_47814740_OExFMIS = 1; if (_tempVariable_bool) {
        _menuExitFromMenuEvents (0);
        _menuUpdateToEEpromItems();
      }
    }
  } else {
    _MenuBlock_47814740_OExFMIS = 0;
  }
  if (_gtv3) {
    if ( ! _MenuBlock_47814740_OVUIS) {
      _MenuBlock_47814740_OVUIS = 1;
      if (_tempVariable_bool) {
        _valueUpEvents(0);
        _MenuBlock_47814740_VUDST = millis();
      }
    } if (_tempVariable_bool) {
      if (_MenuBlock_47814740_VUDSM == 0) {
        if (_isTimer(_MenuBlock_47814740_VUDST , 2000 )) {
          _MenuBlock_47814740_VUDSM = 1;
          _MenuBlock_47814740_VUDSPT = millis();
          _MenuBlock_47814740_VUDPT  = 500;
        }
      }  else {
        if (_MenuBlock_47814740_VUDSM == 1) {
          if (_isTimer(_MenuBlock_47814740_VUDST , 4000 )) {
            _MenuBlock_47814740_VUDSM = 2;
            _MenuBlock_47814740_VUDPT  = 200;
          }
        } if (_isTimer(_MenuBlock_47814740_VUDSPT , _MenuBlock_47814740_VUDPT )) {
          _valueUpEvents(0);
          _MenuBlock_47814740_VUDSPT = millis();
        }
      }
    }
  } else {
    _MenuBlock_47814740_OVUIS = 0;
    if ( ! ( _gtv2)) {
      _MenuBlock_47814740_VUDSM = 0;
    }
  }
  if (_gtv2) {
    if ( ! _MenuBlock_47814740_OVDIS) {
      _MenuBlock_47814740_OVDIS = 1;
      if (_tempVariable_bool) {
        _valueDownEvents(0);
        _MenuBlock_47814740_VUDST = millis();
      }
    } if (_tempVariable_bool) {
      if (_MenuBlock_47814740_VUDSM == 0) {
        if (_isTimer(_MenuBlock_47814740_VUDST , 2000 )) {
          _MenuBlock_47814740_VUDSM = 1;
          _MenuBlock_47814740_VUDSPT = millis();
          _MenuBlock_47814740_VUDPT  = 500;
        }
      }  else {
        if (_MenuBlock_47814740_VUDSM == 1) {
          if (_isTimer(_MenuBlock_47814740_VUDST , 4000 )) {
            _MenuBlock_47814740_VUDSM = 2;
            _MenuBlock_47814740_VUDPT  = 200;
          }
        } if (_isTimer(_MenuBlock_47814740_VUDSPT , _MenuBlock_47814740_VUDPT )) {
          _valueDownEvents(0);
          _MenuBlock_47814740_VUDSPT = millis();
        }
      }
    }
  } else {
    _MenuBlock_47814740_OVDIS = 0;
    if ( ! ( _gtv3)) {
      _MenuBlock_47814740_VUDSM = 0;
    }
  }
  if (_gtv6) {
    _dispTempLength1 = ((_MenuBlock_47814740_MNO)).length();
    if (_disp2oldLength > _dispTempLength1) {
      _isNeedClearDisp1 = 1;
    }
    _disp2oldLength = _dispTempLength1;
    _lcd1.setCursor(int((16 - _dispTempLength1) / 2), 0);
    _lcd1.print((_MenuBlock_47814740_MNO));
  } else {
    if (_disp2oldLength > 0) {
      _isNeedClearDisp1 = 1;
      _disp2oldLength = 0;
    }
  }
  if (_gtv6) {
    _dispTempLength1 = ((((_MenuBlock_47814740_VNO) + (String(" ")) + (_MenuBlock_47814740_ASO_1)))).length();
    if (_disp1oldLength > _dispTempLength1) {
      _isNeedClearDisp1 = 1;
    }
    _disp1oldLength = _dispTempLength1;
    _lcd1.setCursor(int((16 - _dispTempLength1) / 2), 1);
    _lcd1.print((((_MenuBlock_47814740_VNO) + (String(" ")) + (_MenuBlock_47814740_ASO_1))));
  } else {
    if (_disp1oldLength > 0) {
      _isNeedClearDisp1 = 1;
      _disp1oldLength = 0;
    }
  }
  _gtv9 = _MenuBlock_47814740_AMMO;
  if ((_gtv11) > (Menu_Value_2_TVD)) _trgr3 = 0;
  if ((_gtv11) < (Menu_Value_1_TVD)) _trgr3 = 1;
  digitalWrite(2, !(_trgr3));
  if (!(_gtv6)) {
    Menu_Value_1_TVD = _menuValueArray_int[3];
  }
  _gtv10 = _trgr3;
  if (!(_gtv6)) {
    Menu_Value_2_TVD = _menuValueArray_int[2];
  }
  if ((_gtv11) < (Menu_Value_4_TVD)) _trgr4 = 0;
  if ((_gtv11) > (Menu_Value_3_TVD)) _trgr4 = 1;
  if (!(_gtv6)) {
    Menu_Value_3_TVD = _menuValueArray_int[1];
  }
  digitalWrite(3, !(_trgr4));
  _gtv12 = _trgr4;
  if (!(_gtv6)) {
    Menu_Value_4_TVD = _menuValueArray_int[0];
  }
  digitalWrite(11, ( (( (_gtv12) || (_gtv10) )) && ((_menuValueArray_bool[0])) ));
  if (_gtv10)
  {
    _swi1 = String("H - ON");
  }
  else
  {
    _swi1 = String("H - OFF");
  }
  if (_gtv12)
  {
    _swi2 = String("V - ON");
  }
  else
  {
    _swi2 = String("V - OFF");
  }
  if (!(_gtv6)) {
    _dispTempLength1 = ((((String("Temp - ")) + (( _floatToStringWitRaz(_gtv11, 2))) + (String(" C"))))).length();
    if (_disp3oldLength > _dispTempLength1) {
      _isNeedClearDisp1 = 1;
    }
    _disp3oldLength = _dispTempLength1;
    _lcd1.setCursor(int((16 - _dispTempLength1) / 2), 0);
    _lcd1.print((((String("Temp - ")) + (( _floatToStringWitRaz(_gtv11, 2))) + (String(" C")))));
  } else {
    if (_disp3oldLength > 0) {
      _isNeedClearDisp1 = 1;
      _disp3oldLength = 0;
    }
  }
  if (!(_gtv6)) {
    _dispTempLength1 = ((((_swi1) + (String("  ")) + (_swi2)))).length();
    if (_disp4oldLength > _dispTempLength1) {
      _isNeedClearDisp1 = 1;
    }
    _disp4oldLength = _dispTempLength1;
    _lcd1.setCursor(int((16 - _dispTempLength1) / 2), 1);
    _lcd1.print((((_swi1) + (String("  ")) + (_swi2))));
  } else {
    if (_disp4oldLength > 0) {
      _isNeedClearDisp1 = 1;
      _disp4oldLength = 0;
    }
  }




}
String  _floatToStringWitRaz(float value, int raz)
{

  return String(value, raz);
}
bool _isTimer(unsigned long startTime, unsigned long period )
{
  unsigned long currentTime;
  currentTime = millis();
  if (currentTime >= startTime) {
    return (currentTime >= (startTime + period));
  } else {
    return (currentTime >= (4294967295 - startTime + period));
  }
}
void _menuUpEvents (byte menuIndex)
{
  byte tempIndex = pgm_read_byte(&_menuParametrsArray[((_MainMenus[menuIndex]).currentItem).startInArrayIndex]);
  byte parIndex = pgm_read_byte(&_menuParametrsArray[ (((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 5]);
  byte parentStartIndex;
  byte parentStopIndex;
  if (parIndex == 0) {
    parentStartIndex = (_MainMenus[menuIndex]).startIndex;
    parentStopIndex = (_MainMenus[menuIndex]).stopIndex;
  }
  else {
    parentStartIndex = pgm_read_byte(&_menuParametrsArray[( (_MenuItems[parIndex - 1]).startInArrayIndex) + 3]);
    parentStopIndex = pgm_read_byte(&_menuParametrsArray[( (_MenuItems[parIndex - 1]).startInArrayIndex) + 4]);
  }
  if (tempIndex == parentStartIndex) {
    if ((_MainMenus[menuIndex]).isSwitchMenuAroundRing) {
      (_MainMenus[menuIndex]).currentItem = _MenuItems[parentStopIndex - 1];
      return;
    } else {
      return;
    }
  }
  (_MainMenus[menuIndex]).currentItem = _MenuItems[tempIndex - 2];
  return;
}
void _menuDownEvents (byte menuIndex)
{
  byte tempIndex = pgm_read_byte(&_menuParametrsArray[((_MainMenus[menuIndex]).currentItem).startInArrayIndex]);
  byte parIndex = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 5]);
  byte parentStartIndex;
  byte parentStopIndex;
  if (parIndex == 0) {
    parentStartIndex = (_MainMenus[menuIndex]).startIndex;
    parentStopIndex = (_MainMenus[menuIndex]).stopIndex;
  }
  else {
    parentStartIndex = pgm_read_byte(&_menuParametrsArray[( (_MenuItems[parIndex - 1]).startInArrayIndex) + 3]);
    parentStopIndex = pgm_read_byte(&_menuParametrsArray[((_MenuItems[parIndex - 1]).startInArrayIndex) + 4]);
  }
  if (tempIndex == parentStopIndex) {
    if ((_MainMenus[menuIndex]).isSwitchMenuAroundRing) {
      (_MainMenus[menuIndex]).currentItem = _MenuItems[parentStartIndex - 1];
      return;
    } else {
      return;
    }
  }
  (_MainMenus[menuIndex]).currentItem = _MenuItems[tempIndex];
  return;
}
void _valueUpEvents (byte menuIndex)
{
  byte valIndex = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 2]);
  byte itemType = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 1]);
  byte indexMax = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 6]);
  byte indexStep = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 8]);
  if (itemType == 3) {
    _menuValueArray_bool[valIndex - 1 ] = 1;
    return;
  }
  if (itemType == 4) {
    _menuValueArray_int[valIndex - 1] = _menuValueArray_int[valIndex - 1] + (pgm_read_word(&_menuConstantValuesArray_int[indexStep - 1]));
  }
}
void _valueDownEvents (byte menuIndex)
{

  byte valIndex = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 2]);
  byte itemType = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 1]);
  byte indexMin = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 7]);
  byte indexStep = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 8]);
  if (itemType == 3) {
    _menuValueArray_bool[valIndex - 1] = 0;
    return;
  }
  if (itemType == 4) {
    _menuValueArray_int[valIndex - 1] = _menuValueArray_int[valIndex - 1] - (pgm_read_word(&_menuConstantValuesArray_int[indexStep - 1]));
  }
}
void _menuEnterTheMenuEvents (byte menuIndex)
{
  byte itemType =  pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 1]);
  if (!(itemType == 0)) {
    return;
  }
  byte tempIndex = pgm_read_byte(&_menuParametrsArray[((_MainMenus[menuIndex]).currentItem).startInArrayIndex]);
  byte newIndex = pgm_read_byte(&_menuParametrsArray[((_MenuItems[tempIndex - 1]).startInArrayIndex) + 3]);
  if (newIndex == 0) {
    return;
  }
  (_MainMenus[menuIndex]).currentItem = _MenuItems[newIndex - 1];
  return;
}
void _menuExitFromMenuEvents (byte menuIndex)
{
  byte parIndex = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 5]);
  if (parIndex == 0) {
    return;
  }
  (_MainMenus[menuIndex]).currentItem = _MenuItems[parIndex - 1];
  return;
}
String _menuOutputValueString (byte menuIndex)
{
  byte itemType = pgm_read_byte(&_menuParametrsArray[ (((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 1]);
  byte valueStrIndex = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 11]);
  if (itemType == 0) {
    if ( valueStrIndex == 0) {
      return "";
    } else {
      return _readStringFromProgmem ((char*)pgm_read_word(&(_flprogMenuStringsArray[valueStrIndex - 1])));
    }
  }
  byte valIndex = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 2]);
  byte indexMin = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 7]);
  byte indexMax = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 6]);
  if ( valIndex == 0) {
    return "";
  }
  byte convFormat = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 9]);
  if (itemType == 3) {
    return _convertBoolean(itemType, convFormat, valIndex, indexMax, indexMin);
  }
  if (itemType == 4) {
    return _convertNamber(itemType, convFormat, valIndex, indexMax, indexMin);
  }
  return "";
}
void _menuUpdateToEEpromItems()
{
  EEPROM.updateInt(2, (_menuValueArray_int[0]));
  EEPROM.updateInt(4, (_menuValueArray_int[1]));
  EEPROM.updateBit(1, 0, (_menuValueArray_bool[0]));
  EEPROM.updateInt(6, (_menuValueArray_int[2]));
  EEPROM.updateInt(8, (_menuValueArray_int[3]));
}
String _readStringFromProgmem (char *string)
{
  String result = String("");
  while (pgm_read_byte(string) != '\0')
  {
    result = result + char(pgm_read_byte(string));
    string++;
  }
  return result;
}
String _convertNamber(byte itemType, byte convFormat, byte valIndex, byte indexMax, byte indexMin)
{
  if (itemType == 4) {
    if (convFormat == 4) {
      return String((_menuValueArray_int[valIndex - 1 ]), DEC);
    }
    if (convFormat == 5) {
      return String((_menuValueArray_int[valIndex - 1]), HEX);
    }
    if (convFormat == 6) {
      return String((_menuValueArray_int[valIndex - 1]), BIN);
    }
  }
}
String _convertBoolean(byte itemType, byte convFormat, byte valIndex, byte indexMax, byte indexMin)
{
  if (convFormat == 1) {
    if (_menuValueArray_bool[valIndex - 1]) {
      return "1";
    } else {
      return "0";
    }
  }
  if (convFormat == 2) {
    if (_menuValueArray_bool[valIndex - 1]) {
      return "True";
    } else {
      return "False";
    }
  }
  if (convFormat == 3) {
    if (_menuValueArray_bool[valIndex - 1 ]) {
      return "";
    } else {
      return "";
    }
  }
  if (_menuValueArray_bool[valIndex - 1]) {
    return _readStringFromProgmem ((char*)pgm_read_word(&(_flprogMenuStringsArray[indexMax - 1])));
  } else {
    return _readStringFromProgmem ((char*)pgm_read_word(&(_flprogMenuStringsArray[indexMin - 1])));
  }
}
struct UB_142171746 _func_UB_142171746(struct UB_142171746 _ubInstans, int ubi_125089190, int ubpar_125440348, int ubpar_79146376, int ubpar_175158211, int ubpar_40719224)
{
  bool ubo_101667604 = _ubInstans.ubo_101667604;
  bool ubo_51674151 = _ubInstans.ubo_51674151;
  bool ubo_137412502 = _ubInstans.ubo_137412502;
  bool ubo_174461762 = _ubInstans.ubo_174461762;
  bool ubo_157422683 = _ubInstans.ubo_157422683;
  int _gtv1 = _ubInstans._gtv1;
  int _gtv2 = _ubInstans._gtv2;
  int _gtv3 = _ubInstans._gtv3;
  int _gtv4 = _ubInstans._gtv4;
  int _gtv5 = _ubInstans._gtv5;
  bool _bounse1S = _ubInstans._bounse1S;
  bool _bounse1O = _ubInstans._bounse1O;
  unsigned long _bounse1P = _ubInstans._bounse1P;
  bool _bounse2S = _ubInstans._bounse2S;
  bool _bounse2O = _ubInstans._bounse2O;
  unsigned long _bounse2P = _ubInstans._bounse2P;
  bool _bounse3S = _ubInstans._bounse3S;
  bool _bounse3O = _ubInstans._bounse3O;
  unsigned long _bounse3P = _ubInstans._bounse3P;
  bool _bounse4S = _ubInstans._bounse4S;
  bool _bounse4O = _ubInstans._bounse4O;
  unsigned long _bounse4P = _ubInstans._bounse4P;
  bool _bounse5S = _ubInstans._bounse5S;
  bool _bounse5O = _ubInstans._bounse5O;
  unsigned long _bounse5P = _ubInstans._bounse5P;
  bool   _bounceTmpD1 = (ubi_125089190) < (_gtv1);

  if (_bounse1S)
  {
    if (millis() >= (_bounse1P + 40))
    {
      _bounse1O =  _bounceTmpD1;
      _bounse1S = 0;
    }
  }
  else
  {
    if ( _bounceTmpD1 != _bounse1O )
    {
      _bounse1S = 1;
      _bounse1P = millis();
    }
  }
  bool   _bounceTmpD2 = ( ((ubi_125089190) > (_gtv1)) && ((ubi_125089190) < (_gtv2)) );

  if (_bounse2S)
  {
    if (millis() >= (_bounse2P + 40))
    {
      _bounse2O =  _bounceTmpD2;
      _bounse2S = 0;
    }
  }
  else
  {
    if ( _bounceTmpD2 != _bounse2O )
    {
      _bounse2S = 1;
      _bounse2P = millis();
    }
  }
  bool   _bounceTmpD3 = ( ((ubi_125089190) > (_gtv2)) && ((ubi_125089190) < (_gtv3)) );

  if (_bounse3S)
  {
    if (millis() >= (_bounse3P + 40))
    {
      _bounse3O =  _bounceTmpD3;
      _bounse3S = 0;
    }
  }
  else
  {
    if ( _bounceTmpD3 != _bounse3O )
    {
      _bounse3S = 1;
      _bounse3P = millis();
    }
  }
  bool   _bounceTmpD4 = ( ((ubi_125089190) > (_gtv3)) && ((ubi_125089190) < (_gtv4)) );

  if (_bounse4S)
  {
    if (millis() >= (_bounse4P + 40))
    {
      _bounse4O =  _bounceTmpD4;
      _bounse4S = 0;
    }
  }
  else
  {
    if ( _bounceTmpD4 != _bounse4O )
    {
      _bounse4S = 1;
      _bounse4P = millis();
    }
  }
  bool   _bounceTmpD5 = ( ((ubi_125089190) > (_gtv4)) && ((ubi_125089190) < (_gtv5)) );

  if (_bounse5S)
  {
    if (millis() >= (_bounse5P + 40))
    {
      _bounse5O =  _bounceTmpD5;
      _bounse5S = 0;
    }
  }
  else
  {
    if ( _bounceTmpD5 != _bounse5O )
    {
      _bounse5S = 1;
      _bounse5P = millis();
    }
  }
  _gtv1 = (ubpar_125440348) / (2);
  _gtv2 = (((ubpar_79146376) - (ubpar_125440348)) / (2)) + (ubpar_125440348);
  _gtv3 = (((ubpar_175158211) - (ubpar_79146376)) / (2)) + (ubpar_79146376);
  _gtv4 = (((ubpar_40719224) - (ubpar_175158211)) / (2)) + (ubpar_175158211);
  _gtv5 = (((1023) - (ubpar_40719224)) / (2)) + (ubpar_40719224);
  ubo_101667604 = _bounse1O;
  ubo_51674151 = _bounse2O;
  ubo_137412502 = _bounse3O;
  ubo_174461762 = _bounse4O;
  ubo_157422683 = _bounse5O;
  _ubInstans.ubo_101667604 = ubo_101667604;
  _ubInstans.ubo_51674151 = ubo_51674151;
  _ubInstans.ubo_137412502 = ubo_137412502;
  _ubInstans.ubo_174461762 = ubo_174461762;
  _ubInstans.ubo_157422683 = ubo_157422683;
  _ubInstans._gtv1 = _gtv1;
  _ubInstans._gtv2 = _gtv2;
  _ubInstans._gtv3 = _gtv3;
  _ubInstans._gtv4 = _gtv4;
  _ubInstans._gtv5 = _gtv5;
  _ubInstans._bounse1S = _bounse1S;
  _ubInstans._bounse1O = _bounse1O;
  _ubInstans._bounse1P = _bounse1P;
  _ubInstans._bounse2S = _bounse2S;
  _ubInstans._bounse2O = _bounse2O;
  _ubInstans._bounse2P = _bounse2P;
  _ubInstans._bounse3S = _bounse3S;
  _ubInstans._bounse3O = _bounse3O;
  _ubInstans._bounse3P = _bounse3P;
  _ubInstans._bounse4S = _bounse4S;
  _ubInstans._bounse4O = _bounse4O;
  _ubInstans._bounse4P = _bounse4P;
  _ubInstans._bounse5S = _bounse5S;
  _ubInstans._bounse5O = _bounse5O;
  _ubInstans._bounse5P = _bounse5P;
  return _ubInstans;
}

Agora um pouco "bombeie" o projeto. Substitua a proteção do teclado LCD por um teclado matricial 4x4 e um monitor 4x4 conectado via I2C.

Isso permitirá que você defina o valor não passo a passo, mas simplesmente inserindo números. Além disso, isso permitirá que você entre no menu com uma senha. Esquema de design alterado.

Todo o projeto.

Considere as placas modificadas.Uma

unidade de pesquisa de teclado de matriz padrão da biblioteca de elementos é usada.

Quando você pressiona o botão "*", o menu é ativado. Só que desta vez, não o menu principal, mas o menu para inserir a senha.

Configurações do menu de

senha Este menu consiste em um item usado para inserir uma senha. O tipo Inteiro Longo é usado para aumentar o número de caracteres da senha.

Nesta placa, a senha é digitada corretamente. Se a senha digitada e a salva no menu principal corresponderem, o menu principal será ativado. Quando você sai do menu, 0 é gravado no valor da senha digitada (preparação para a próxima entrada)

Um item foi adicionado à árvore do menu principal para configurar a senha salva.

Além disso, as alterações atingiram a guia "Gerenciamento de valor"

O controle de valor foi convertido para entrada direta de dígitos. As placas restantes não foram alteradas.

Resultado da compilação do projeto

#include <Wire.h>
#include <EEPROMex.h>
#include <LiquidCrystal_I2C.h>
LiquidCrystal_I2C _lcd2(0x27, 20, 4);
int _dispTempLength2 = 0;
boolean _isNeedClearDisp2;



const byte _menuParametrsArray[]  PROGMEM =  {1, 5, 1, 0, 0, 0, 0, 0, 1, 4, 1, 0, 0, 2, 0, 0, 6, 7, 0, 0, 0, 0, 0, 8, 11, 0, 3, 0, 0, 8, 9, 0, 0, 0, 0, 0, 6, 11, 0, 4, 3, 1, 0, 0, 0, 12, 13, 1, 8, 3, 0, 0, 5, 5, 2, 0, 0, 0, 0, 0, 1, 4, 2, 0, 0, 6, 4, 2, 0, 0, 2, 0, 0, 1, 4, 5, 0, 10, 7, 4, 4, 0, 0, 2, 0, 0, 1, 4, 9, 0, 10, 8, 4, 3, 0, 0, 3, 0, 0, 1, 4, 7, 0, 10, 9, 4, 1, 0, 0, 3, 0, 0, 1, 4, 4, 0, 10};
bool _menuValueArray_bool[1];
const bool _menuConstantValuesArray_bool[]  PROGMEM =  {1};
int _menuValueArray_int[4];
const int _menuConstantValuesArray_int[]  PROGMEM =  {1};
long _menuValueArray_long[2];
const long _menuConstantValuesArray_long[]  PROGMEM =  {1};
const char _flprogMenuNameString1[] PROGMEM = "Enter Password";
const char _flprogMenuNameString2[] PROGMEM = "ChangePassword";
const char _flprogMenuNameString3[] PROGMEM = "Sound";
const char _flprogMenuNameString4[] PROGMEM = "Vent-Off";
const char _flprogMenuNameString5[] PROGMEM = "Heater-On";
const char _flprogMenuNameString6[] PROGMEM = "Vent Setting";
const char _flprogMenuNameString7[] PROGMEM = "Vent-On";
const char _flprogMenuNameString8[] PROGMEM = "HeaterSetting";
const char _flprogMenuNameString9[] PROGMEM = "Heater-Off";
const char _flprogMenuNameString10[] PROGMEM = "C";
const char _flprogMenuNameString11[] PROGMEM = "Enter to submenu";
const char _flprogMenuNameString12[] PROGMEM = "On";
const char _flprogMenuNameString13[] PROGMEM = "Off";
const char* const _flprogMenuStringsArray[] PROGMEM = { _flprogMenuNameString1,  _flprogMenuNameString2,  _flprogMenuNameString3,  _flprogMenuNameString4,  _flprogMenuNameString5,  _flprogMenuNameString6,  _flprogMenuNameString7,  _flprogMenuNameString8,  _flprogMenuNameString9,  _flprogMenuNameString10,  _flprogMenuNameString11,  _flprogMenuNameString12,  _flprogMenuNameString13};
struct _menuItemStricture {
  int startInArrayIndex;
};
struct _menuMainStricture {
  String tempString;
  byte startIndex;
  byte stopIndex;
  bool isSwitchMenuAroundRing;
  _menuItemStricture  currentItem;
};
_menuItemStricture _MenuItems[9];
_menuMainStricture _MainMenus[2];
bool _gtv6;
bool _gtv10 = 0;
float _gtv11;
bool _gtv12 = 0;
bool _gtv1;
bool _gtv2;
bool _gtv3;
bool _gtv4;
bool _gtv5;
bool _gtv13;
bool _gtv14;
bool _gtv15;
bool _gtv16;
bool _gtv17;
bool _gtv18;
bool _gtv19;
bool _gtv20;
bool _gtv21;
bool _gtv22;
bool _gtv23;
bool _gtv7;
bool _gtv8;
int _disp1oldLength = 0;
int Menu_Value_4_TVD = 0;
int Menu_Value_2_TVD = 0;
bool _trgr4 = 0;
String _swi1;
bool _trgr1 = 0;
bool _trgr3 = 0;
int _disp2oldLength = 0;
bool _trgt1 = 0;
bool _trgt1I = 0;
int Menu_Value_3_TVD = 0;
String _MenuBlock_47814740_ASO_1;
String _MenuBlock_47814740_MNO;
String _MenuBlock_47814740_VNO;
bool _MenuBlock_47814740_OEIS = 0;
bool _MenuBlock_47814740_OMUIS = 0;
bool _MenuBlock_47814740_OMDIS = 0;
bool _MenuBlock_47814740_OEMIS = 0;
bool _MenuBlock_47814740_OExFMIS = 0;
bool _MenuBlock_47814740_IDI_0 = 0;
bool _MenuBlock_47814740_IDI_1 = 0;
bool _MenuBlock_47814740_IDI_2 = 0;
bool _MenuBlock_47814740_IDI_3 = 0;
bool _MenuBlock_47814740_IDI_4 = 0;
bool _MenuBlock_47814740_IDI_5 = 0;
bool _MenuBlock_47814740_IDI_6 = 0;
bool _MenuBlock_47814740_IDI_7 = 0;
bool _MenuBlock_47814740_IDI_8 = 0;
bool _MenuBlock_47814740_IDI_9 = 0;
bool _MenuBlock_47814740MinusIOS = 0;
int Menu_Value_1_TVD = 0;
bool _mkb1C1xP1 = 0;
bool _mkb1C1xP2 = 0;
bool _mkb1C1xP3 = 0;
bool _mkb1C1xP4 = 0;
bool _mkb1C2xP1 = 0;
bool _mkb1C2xP2 = 0;
bool _mkb1C2xP3 = 0;
bool _mkb1C2xP4 = 0;
bool _mkb1C3xP1 = 0;
bool _mkb1C3xP2 = 0;
bool _mkb1C3xP3 = 0;
bool _mkb1C3xP4 = 0;
bool _mkb1C4xP1 = 0;
bool _mkb1C4xP2 = 0;
bool _mkb1C4xP3 = 0;
bool _mkb1C4xP4 = 0;
bool _trgrt1 = 0;
bool _trgrt1I = 0;
int _disp6oldLength = 0;
int _disp4oldLength = 0;
int _disp5oldLength = 0;
String _MenuBlock_360159546_MNO;
String _MenuBlock_360159546_VNO;
bool _MenuBlock_360159546_OEIS = 0;
bool _MenuBlock_360159546_IDI_0 = 0;
bool _MenuBlock_360159546_IDI_1 = 0;
bool _MenuBlock_360159546_IDI_2 = 0;
bool _MenuBlock_360159546_IDI_3 = 0;
bool _MenuBlock_360159546_IDI_4 = 0;
bool _MenuBlock_360159546_IDI_5 = 0;
bool _MenuBlock_360159546_IDI_6 = 0;
bool _MenuBlock_360159546_IDI_7 = 0;
bool _MenuBlock_360159546_IDI_8 = 0;
bool _MenuBlock_360159546_IDI_9 = 0;
int _disp7oldLength = 0;
int _disp3oldLength = 0;
String _swi2;
void setup()
{
  if ((EEPROM.read(0)) != 99) {
    EEPROM.write(0, 99) ;
    EEPROM.updateInt(12, 25);
    EEPROM.updateLong(2, 123456);
    EEPROM.updateInt(6, 30);
    EEPROM.updateInt(10, 40);
    EEPROM.updateBit(1, 0, 0);
    EEPROM.updateInt(8, 10);
  }
  Wire.begin();
  pinMode(16, OUTPUT);
  pinMode(15, OUTPUT);
  pinMode(17, OUTPUT);

  _lcd2.init();
  _lcd2.backlight();
  pinMode(6, INPUT);
  digitalWrite(6, HIGH);
  pinMode(7, INPUT);
  digitalWrite(7, HIGH);
  pinMode(8, INPUT);
  digitalWrite(8, HIGH);
  pinMode(9, INPUT);
  digitalWrite(9, HIGH);
  pinMode(2, OUTPUT);
  digitalWrite(2, HIGH);
  pinMode(3, OUTPUT);
  digitalWrite(3, HIGH);
  pinMode(4, OUTPUT);
  digitalWrite(4, HIGH);
  pinMode(5, OUTPUT);
  digitalWrite(5, HIGH);
  _MenuItems[0].startInArrayIndex = 0;
  _MenuItems[1].startInArrayIndex = 13;
  _MenuItems[2].startInArrayIndex = 26;
  _MenuItems[3].startInArrayIndex = 39;
  _MenuItems[4].startInArrayIndex = 52;
  _MenuItems[5].startInArrayIndex = 65;
  _MenuItems[6].startInArrayIndex = 78;
  _MenuItems[7].startInArrayIndex = 91;
  _MenuItems[8].startInArrayIndex = 104;
  _MainMenus[0].tempString = "";
  _MainMenus[0].startIndex = 1;
  _MainMenus[0].isSwitchMenuAroundRing = 0;
  _MainMenus[0].stopIndex = 1;
  _MainMenus[0].currentItem = _MenuItems[0];
  _MainMenus[1].tempString = "";
  _MainMenus[1].startIndex = 2;
  _MainMenus[1].isSwitchMenuAroundRing = 1;
  _MainMenus[1].stopIndex = 5;
  _MainMenus[1].currentItem = _MenuItems[1];
  _menuValueArray_long[1] = (EEPROM.readLong(2));
  _menuValueArray_bool[0] = (EEPROM.readBit(1, 0));
  _menuValueArray_int[0] = (EEPROM.readInt(6));
  _menuValueArray_int[1] = (EEPROM.readInt(8));
  _menuValueArray_int[2] = (EEPROM.readInt(10));
  _menuValueArray_int[3] = (EEPROM.readInt(12));
}
void loop()
{ bool _tempVariable_bool;
  byte _tempVariable_byte;
  if (_isNeedClearDisp2) {
    _lcd2.clear();
    _isNeedClearDisp2 = 0;
  }




  _gtv11 = (map(( (analogRead (0))), (0), (1023), (-20), (80)));
  digitalWrite(2, 0);
  _mkb1C1xP1 = ! (digitalRead(6));
  _mkb1C1xP2 = ! (digitalRead(7));
  _mkb1C1xP3 = ! (digitalRead(8));
  _mkb1C1xP4 = ! (digitalRead(9));
  digitalWrite(2, 1);
  digitalWrite(3, 0);
  _mkb1C2xP1 = ! (digitalRead(6));
  _mkb1C2xP2 = ! (digitalRead(7));
  _mkb1C2xP3 = ! (digitalRead(8));
  _mkb1C2xP4 = ! (digitalRead(9));
  digitalWrite(3, 1);
  digitalWrite(4, 0);
  _mkb1C3xP1 = ! (digitalRead(6));
  _mkb1C3xP2 = ! (digitalRead(7));
  _mkb1C3xP3 = ! (digitalRead(8));
  _mkb1C3xP4 = ! (digitalRead(9));
  digitalWrite(4, 1);
  digitalWrite(5, 0);
  _mkb1C4xP1 = ! (digitalRead(6));
  _mkb1C4xP2 = ! (digitalRead(7));
  _mkb1C4xP3 = ! (digitalRead(8));
  _mkb1C4xP4 = ! (digitalRead(9));
  digitalWrite(5, 1);
  _gtv1 = _mkb1C1xP1;
  _gtv2 = _mkb1C1xP2;
  _gtv3 = _mkb1C1xP3;
  _gtv18 = _mkb1C1xP4;
  _gtv4 = _mkb1C2xP1;
  _gtv5 = _mkb1C2xP2;
  _gtv13 = _mkb1C2xP3;
  _gtv19 = _mkb1C2xP4;
  _gtv14 = _mkb1C3xP1;
  _gtv15 = _mkb1C3xP2;
  _gtv16 = _mkb1C3xP3;
  _gtv20 = _mkb1C3xP4;
  _gtv23 = _mkb1C4xP1;
  _gtv17 = _mkb1C4xP2;
  _gtv22 = _mkb1C4xP3;
  _gtv21 = _mkb1C4xP4;
  bool  _tmp1 = _gtv23;
  if (_tmp1)  {
    if (! _trgt1I) _trgt1 = ! _trgt1;
  }
  _trgt1I = _tmp1;
  _gtv6 = _trgt1;
  if (_gtv7) {
    _tempVariable_bool  =  1;
    if ( ! _MenuBlock_360159546_OEIS ) {
      _MenuBlock_360159546_OEIS = 1;
      (_MainMenus[0]).tempString = "";
    }
    _tempVariable_byte = pgm_read_byte(&_menuParametrsArray[((_MainMenus[0].currentItem ).startInArrayIndex) + 10]);
    _MenuBlock_360159546_MNO = _readStringFromProgmem ((char*)pgm_read_word(&(_flprogMenuStringsArray[_tempVariable_byte - 1])));
    _MenuBlock_360159546_VNO = _menuOutputValueString (0);
  } else {
    _tempVariable_bool  =  0;
    if (_MenuBlock_360159546_OEIS) {
      _MenuBlock_360159546_OEIS = 0;
      _menuUpdateToEEpromItems();
    }
    _MenuBlock_360159546_MNO = "";
    _MenuBlock_360159546_VNO = "";
  }
  if (_gtv17) {
    if ( ! _MenuBlock_360159546_IDI_0) {
      _MenuBlock_360159546_IDI_0 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(0, '0');
      }
    }
  } else {
    _MenuBlock_360159546_IDI_0 = 0;
  }
  if (_gtv1) {
    if ( ! _MenuBlock_360159546_IDI_1) {
      _MenuBlock_360159546_IDI_1 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(0, '1');
      }
    }
  } else {
    _MenuBlock_360159546_IDI_1 = 0;
  }
  if (_gtv2) {
    if ( ! _MenuBlock_360159546_IDI_2) {
      _MenuBlock_360159546_IDI_2 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(0, '2');
      }
    }
  } else {
    _MenuBlock_360159546_IDI_2 = 0;
  }
  if (_gtv3) {
    if ( ! _MenuBlock_360159546_IDI_3) {
      _MenuBlock_360159546_IDI_3 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(0, '3');
      }
    }
  } else {
    _MenuBlock_360159546_IDI_3 = 0;
  }
  if (_gtv4) {
    if ( ! _MenuBlock_360159546_IDI_4) {
      _MenuBlock_360159546_IDI_4 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(0, '4');
      }
    }
  } else {
    _MenuBlock_360159546_IDI_4 = 0;
  }
  if (_gtv5) {
    if ( ! _MenuBlock_360159546_IDI_5) {
      _MenuBlock_360159546_IDI_5 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(0, '5');
      }
    }
  } else {
    _MenuBlock_360159546_IDI_5 = 0;
  }
  if (_gtv13) {
    if ( ! _MenuBlock_360159546_IDI_6) {
      _MenuBlock_360159546_IDI_6 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(0, '6');
      }
    }
  } else {
    _MenuBlock_360159546_IDI_6 = 0;
  }
  if (_gtv14) {
    if ( ! _MenuBlock_360159546_IDI_7) {
      _MenuBlock_360159546_IDI_7 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(0, '7');
      }
    }
  } else {
    _MenuBlock_360159546_IDI_7 = 0;
  }
  if (_gtv15) {
    if ( ! _MenuBlock_360159546_IDI_8) {
      _MenuBlock_360159546_IDI_8 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(0, '8');
      }
    }
  } else {
    _MenuBlock_360159546_IDI_8 = 0;
  }
  if (_gtv16) {
    if ( ! _MenuBlock_360159546_IDI_9) {
      _MenuBlock_360159546_IDI_9 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(0, '9');
      }
    }
  } else {
    _MenuBlock_360159546_IDI_9 = 0;
  }
  if (_gtv7) {
    _dispTempLength2 = ((_MenuBlock_360159546_MNO)).length();
    if (_disp6oldLength > _dispTempLength2) {
      _isNeedClearDisp2 = 1;
    }
    _disp6oldLength = _dispTempLength2;
    _lcd2.setCursor(int((20 - _dispTempLength2) / 2), 0);
    _lcd2.print((_MenuBlock_360159546_MNO));
  } else {
    if (_disp6oldLength > 0) {
      _isNeedClearDisp2 = 1;
      _disp6oldLength = 0;
    }
  }
  if (_gtv7) {
    _dispTempLength2 = ((_MenuBlock_360159546_VNO)).length();
    if (_disp7oldLength > _dispTempLength2) {
      _isNeedClearDisp2 = 1;
    }
    _disp7oldLength = _dispTempLength2;
    _lcd2.setCursor(int((20 - _dispTempLength2) / 2), 1);
    _lcd2.print((_MenuBlock_360159546_VNO));
  } else {
    if (_disp7oldLength > 0) {
      _isNeedClearDisp2 = 1;
      _disp7oldLength = 0;
    }
  }
  if (_trgrt1) _trgr1 = 0;
  if (((_menuValueArray_long[0])) == ((_menuValueArray_long[1]))) _trgr1 = 1;
  if (!(_gtv6)) {
    if (_trgrt1I) {
      _trgrt1 = 0;
    } else {
      _trgrt1 = 1;
      _trgrt1I = 1;
    }
  } else {
    _trgrt1 = 0;
    _trgrt1I = 0;
  };
  _gtv7 = ( (_gtv6) && (!(_trgr1)) );
  _gtv8 = ( (_trgr1) && (_gtv6) );
  if (_trgrt1) {
    _menuValueArray_long[0] = 0L;
  }
  if (_gtv8) {
    _tempVariable_bool  =  1;
    if ( ! _MenuBlock_47814740_OEIS ) {
      _MenuBlock_47814740_OEIS = 1;
      _MainMenus[1].currentItem = _MenuItems[1];
      (_MainMenus[1]).tempString = "";
    }
    _tempVariable_byte = pgm_read_byte(&_menuParametrsArray[((_MainMenus[1].currentItem ).startInArrayIndex) + 10]);
    _MenuBlock_47814740_MNO = _readStringFromProgmem ((char*)pgm_read_word(&(_flprogMenuStringsArray[_tempVariable_byte - 1])));
    _MenuBlock_47814740_VNO = _menuOutputValueString (1);
    _tempVariable_byte  =  pgm_read_byte(&_menuParametrsArray[(((_MainMenus[1]).currentItem).startInArrayIndex) + 12]);
    if (_tempVariable_byte == 0 ) {
      _MenuBlock_47814740_ASO_1 =  "";
    } else {
      _MenuBlock_47814740_ASO_1 =  _readStringFromProgmem ((char*)pgm_read_word(&(_flprogMenuStringsArray[_tempVariable_byte - 1])));
    }
  } else {
    _tempVariable_bool  =  0;
    if (_MenuBlock_47814740_OEIS) {
      _MenuBlock_47814740_OEIS = 0;
      _menuUpdateToEEpromItems();
    }
    _MenuBlock_47814740_ASO_1 =  "";
    _MenuBlock_47814740_MNO = "";
    _MenuBlock_47814740_VNO = "";
  }
  if (_gtv20) {
    if ( ! _MenuBlock_47814740_OMUIS) {
      _MenuBlock_47814740_OMUIS = 1; if (_tempVariable_bool) {
        _menuUpEvents(1);
        _menuUpdateToEEpromItems();
      }
    }
  } else {
    _MenuBlock_47814740_OMUIS = 0;
  }
  if (_gtv21) {
    if ( ! _MenuBlock_47814740_OMDIS) {
      _MenuBlock_47814740_OMDIS = 1; if (_tempVariable_bool) {
        _menuDownEvents(1);
        _menuUpdateToEEpromItems();
      }
    }
  } else {
    _MenuBlock_47814740_OMDIS = 0;
  }
  if (_gtv18) {
    if ( ! _MenuBlock_47814740_OEMIS) {
      _MenuBlock_47814740_OEMIS = 1; if (_tempVariable_bool) {
        _menuEnterTheMenuEvents (1);
        _menuUpdateToEEpromItems();
      }
    }
  } else {
    _MenuBlock_47814740_OEMIS = 0;
  }
  if (_gtv19) {
    if ( ! _MenuBlock_47814740_OExFMIS) {
      _MenuBlock_47814740_OExFMIS = 1; if (_tempVariable_bool) {
        _menuExitFromMenuEvents (1);
        _menuUpdateToEEpromItems();
      }
    }
  } else {
    _MenuBlock_47814740_OExFMIS = 0;
  }
  if (_gtv17) {
    if ( ! _MenuBlock_47814740_IDI_0) {
      _MenuBlock_47814740_IDI_0 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(1, '0');
      }
    }
  } else {
    _MenuBlock_47814740_IDI_0 = 0;
  }
  if (_gtv1) {
    if ( ! _MenuBlock_47814740_IDI_1) {
      _MenuBlock_47814740_IDI_1 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(1, '1');
      }
    }
  } else {
    _MenuBlock_47814740_IDI_1 = 0;
  }
  if (_gtv2) {
    if ( ! _MenuBlock_47814740_IDI_2) {
      _MenuBlock_47814740_IDI_2 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(1, '2');
      }
    }
  } else {
    _MenuBlock_47814740_IDI_2 = 0;
  }
  if (_gtv3) {
    if ( ! _MenuBlock_47814740_IDI_3) {
      _MenuBlock_47814740_IDI_3 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(1, '3');
      }
    }
  } else {
    _MenuBlock_47814740_IDI_3 = 0;
  }
  if (_gtv4) {
    if ( ! _MenuBlock_47814740_IDI_4) {
      _MenuBlock_47814740_IDI_4 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(1, '4');
      }
    }
  } else {
    _MenuBlock_47814740_IDI_4 = 0;
  }
  if (_gtv5) {
    if ( ! _MenuBlock_47814740_IDI_5) {
      _MenuBlock_47814740_IDI_5 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(1, '5');
      }
    }
  } else {
    _MenuBlock_47814740_IDI_5 = 0;
  }
  if (_gtv13) {
    if ( ! _MenuBlock_47814740_IDI_6) {
      _MenuBlock_47814740_IDI_6 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(1, '6');
      }
    }
  } else {
    _MenuBlock_47814740_IDI_6 = 0;
  }
  if (_gtv14) {
    if ( ! _MenuBlock_47814740_IDI_7) {
      _MenuBlock_47814740_IDI_7 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(1, '7');
      }
    }
  } else {
    _MenuBlock_47814740_IDI_7 = 0;
  }
  if (_gtv15) {
    if ( ! _MenuBlock_47814740_IDI_8) {
      _MenuBlock_47814740_IDI_8 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(1, '8');
      }
    }
  } else {
    _MenuBlock_47814740_IDI_8 = 0;
  }
  if (_gtv16) {
    if ( ! _MenuBlock_47814740_IDI_9) {
      _MenuBlock_47814740_IDI_9 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(1, '9');
      }
    }
  } else {
    _MenuBlock_47814740_IDI_9 = 0;
  }
  if (_gtv22) {
    if ( ! _MenuBlock_47814740MinusIOS) {
      _MenuBlock_47814740MinusIOS = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(1, '-' );
      }
    }
  } else {
    _MenuBlock_47814740MinusIOS = 0;
  }
  if (_gtv8) {
    _dispTempLength2 = ((_MenuBlock_47814740_MNO)).length();
    if (_disp2oldLength > _dispTempLength2) {
      _isNeedClearDisp2 = 1;
    }
    _disp2oldLength = _dispTempLength2;
    _lcd2.setCursor(int((20 - _dispTempLength2) / 2), 0);
    _lcd2.print((_MenuBlock_47814740_MNO));
  } else {
    if (_disp2oldLength > 0) {
      _isNeedClearDisp2 = 1;
      _disp2oldLength = 0;
    }
  }
  if (_gtv8) {
    _dispTempLength2 = ((((_MenuBlock_47814740_VNO) + (String(" ")) + (_MenuBlock_47814740_ASO_1)))).length();
    if (_disp1oldLength > _dispTempLength2) {
      _isNeedClearDisp2 = 1;
    }
    _disp1oldLength = _dispTempLength2;
    _lcd2.setCursor(int((20 - _dispTempLength2) / 2), 1);
    _lcd2.print((((_MenuBlock_47814740_VNO) + (String(" ")) + (_MenuBlock_47814740_ASO_1))));
  } else {
    if (_disp1oldLength > 0) {
      _isNeedClearDisp2 = 1;
      _disp1oldLength = 0;
    }
  }
  if ((_gtv11) > (Menu_Value_2_TVD)) _trgr3 = 0;
  if ((_gtv11) < (Menu_Value_1_TVD)) _trgr3 = 1;
  digitalWrite(16, !(_trgr3));
  if (!(_gtv6)) {
    Menu_Value_1_TVD = _menuValueArray_int[1];
  }
  _gtv10 = _trgr3;
  if (!(_gtv6)) {
    Menu_Value_2_TVD = _menuValueArray_int[3];
  }
  if ((_gtv11) < (Menu_Value_4_TVD)) _trgr4 = 0;
  if ((_gtv11) > (Menu_Value_3_TVD)) _trgr4 = 1;
  if (!(_gtv6)) {
    Menu_Value_3_TVD = _menuValueArray_int[2];
  }
  digitalWrite(15, !(_trgr4));
  _gtv12 = _trgr4;
  if (!(_gtv6)) {
    Menu_Value_4_TVD = _menuValueArray_int[0];
  }
  digitalWrite(17, ( (( (_gtv12) || (_gtv10) )) && ((_menuValueArray_bool[0])) ));
  if (_gtv10)
  {
    _swi1 = String("Heater - ON");
  }
  else
  {
    _swi1 = String("Heater - OFF");
  }
  if (_gtv12)
  {
    _swi2 = String("Ventilation - ON");
  }
  else
  {
    _swi2 = String("Ventilation - OFF");
  }
  if (!(_gtv6)) {
    _dispTempLength2 = ((((String("Temp - ")) + (( _floatToStringWitRaz(_gtv11, 2))) + (String(" C"))))).length();
    if (_disp3oldLength > _dispTempLength2) {
      _isNeedClearDisp2 = 1;
    }
    _disp3oldLength = _dispTempLength2;
    _lcd2.setCursor(int((20 - _dispTempLength2) / 2), 0);
    _lcd2.print((((String("Temp - ")) + (( _floatToStringWitRaz(_gtv11, 2))) + (String(" C")))));
  } else {
    if (_disp3oldLength > 0) {
      _isNeedClearDisp2 = 1;
      _disp3oldLength = 0;
    }
  }
  if (!(_gtv6)) {
    _dispTempLength2 = ((_swi1)).length();
    if (_disp4oldLength > _dispTempLength2) {
      _isNeedClearDisp2 = 1;
    }
    _disp4oldLength = _dispTempLength2;
    _lcd2.setCursor(int((20 - _dispTempLength2) / 2), 1);
    _lcd2.print((_swi1));
  } else {
    if (_disp4oldLength > 0) {
      _isNeedClearDisp2 = 1;
      _disp4oldLength = 0;
    }
  }
  if (!(_gtv6)) {
    _dispTempLength2 = ((_swi2)).length();
    if (_disp5oldLength > _dispTempLength2) {
      _isNeedClearDisp2 = 1;
    }
    _disp5oldLength = _dispTempLength2;
    _lcd2.setCursor(int((20 - _dispTempLength2) / 2), 2);
    _lcd2.print((_swi2));
  } else {
    if (_disp5oldLength > 0) {
      _isNeedClearDisp2 = 1;
      _disp5oldLength = 0;
    }
  }




}
String  _floatToStringWitRaz(float value, int raz)
{

  return String(value, raz);
}
void _menuUpEvents (byte menuIndex)
{
  (_MainMenus[menuIndex]).tempString = "";
  byte tempIndex = pgm_read_byte(&_menuParametrsArray[((_MainMenus[menuIndex]).currentItem).startInArrayIndex]);
  byte parIndex = pgm_read_byte(&_menuParametrsArray[ (((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 5]);
  byte parentStartIndex;
  byte parentStopIndex;
  if (parIndex == 0) {
    parentStartIndex = (_MainMenus[menuIndex]).startIndex;
    parentStopIndex = (_MainMenus[menuIndex]).stopIndex;
  }
  else {
    parentStartIndex = pgm_read_byte(&_menuParametrsArray[( (_MenuItems[parIndex - 1]).startInArrayIndex) + 3]);
    parentStopIndex = pgm_read_byte(&_menuParametrsArray[( (_MenuItems[parIndex - 1]).startInArrayIndex) + 4]);
  }
  if (tempIndex == parentStartIndex) {
    if ((_MainMenus[menuIndex]).isSwitchMenuAroundRing) {
      (_MainMenus[menuIndex]).currentItem = _MenuItems[parentStopIndex - 1];
      return;
    } else {
      return;
    }
  }
  (_MainMenus[menuIndex]).currentItem = _MenuItems[tempIndex - 2];
  return;
}
void _menuDownEvents (byte menuIndex)
{
  (_MainMenus[menuIndex]).tempString = "";
  byte tempIndex = pgm_read_byte(&_menuParametrsArray[((_MainMenus[menuIndex]).currentItem).startInArrayIndex]);
  byte parIndex = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 5]);
  byte parentStartIndex;
  byte parentStopIndex;
  if (parIndex == 0) {
    parentStartIndex = (_MainMenus[menuIndex]).startIndex;
    parentStopIndex = (_MainMenus[menuIndex]).stopIndex;
  }
  else {
    parentStartIndex = pgm_read_byte(&_menuParametrsArray[( (_MenuItems[parIndex - 1]).startInArrayIndex) + 3]);
    parentStopIndex = pgm_read_byte(&_menuParametrsArray[((_MenuItems[parIndex - 1]).startInArrayIndex) + 4]);
  }
  if (tempIndex == parentStopIndex) {
    if ((_MainMenus[menuIndex]).isSwitchMenuAroundRing) {
      (_MainMenus[menuIndex]).currentItem = _MenuItems[parentStartIndex - 1];
      return;
    } else {
      return;
    }
  }
  (_MainMenus[menuIndex]).currentItem = _MenuItems[tempIndex];
  return;
}
void _menuEnterTheMenuEvents (byte menuIndex)
{
  byte itemType =  pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 1]);
  if (!(itemType == 0)) {
    return;
  }
  byte tempIndex = pgm_read_byte(&_menuParametrsArray[((_MainMenus[menuIndex]).currentItem).startInArrayIndex]);
  byte newIndex = pgm_read_byte(&_menuParametrsArray[((_MenuItems[tempIndex - 1]).startInArrayIndex) + 3]);
  if (newIndex == 0) {
    return;
  }
  (_MainMenus[menuIndex]).tempString = "";
  (_MainMenus[menuIndex]).currentItem = _MenuItems[newIndex - 1];
  return;
}
void _menuExitFromMenuEvents (byte menuIndex)
{
  byte parIndex = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 5]);
  if (parIndex == 0) {
    return;
  }
  (_MainMenus[menuIndex]).tempString = "";
  (_MainMenus[menuIndex]).currentItem = _MenuItems[parIndex - 1];
  return;
}
String _menuOutputValueString (byte menuIndex)
{
  byte itemType = pgm_read_byte(&_menuParametrsArray[ (((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 1]);
  byte valueStrIndex = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 11]);
  if (itemType == 0) {
    if ( valueStrIndex == 0) {
      return "";
    } else {
      return _readStringFromProgmem ((char*)pgm_read_word(&(_flprogMenuStringsArray[valueStrIndex - 1])));
    }
  }
  byte valIndex = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 2]);
  byte indexMin = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 7]);
  byte indexMax = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 6]);
  if ( valIndex == 0) {
    return "";
  }
  byte convFormat = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 9]);
  if (itemType == 3) {
    return _convertBoolean(itemType, convFormat, valIndex, indexMax, indexMin);
  }
  if (itemType == 4) {
    return _convertNamber(itemType, convFormat, valIndex, indexMax, indexMin);
  }
  if (itemType == 5) {
    return _convertNamber(itemType, convFormat, valIndex, indexMax, indexMin);
  }
  return "";
}
void _menuDirectInputKeyPressEvents(byte menuIndex, char inputSymbol)
{
  byte valIndex = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 2]);
  byte temp;
  if (valIndex == 0) {
    return;
  }
  byte itemType = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 1]);
  if (itemType == 7) {
    return;
  }
  if (itemType == 3) {
    (_MainMenus[menuIndex]).tempString = "";
  }
  if (inputSymbol == '-') {
    temp = ((_MainMenus[menuIndex]).tempString).length() ;  if (temp == 0) {
      (_MainMenus[menuIndex]).tempString = "-";
    } else
    { if (((_MainMenus[menuIndex]).tempString).charAt(0)  == '-') {
        (_MainMenus[menuIndex]).tempString = ((_MainMenus[menuIndex]).tempString).substring(1);
      } else
      {
        (_MainMenus[menuIndex]).tempString = "-" + (_MainMenus[menuIndex]).tempString;
      }
    }
  } else {
    (_MainMenus[menuIndex]).tempString = (_MainMenus[menuIndex]).tempString + inputSymbol;
  }
  if (itemType == 3) {
    _menuValueArray_bool[valIndex - 1]  =  ((((_MainMenus[menuIndex]).tempString )).toInt());
  }
  if (itemType == 4) {
    _menuValueArray_int[valIndex - 1]  =  (((_MainMenus[menuIndex]).tempString )).toInt();
  }
  if (itemType == 5) {
    _menuValueArray_long[valIndex - 1]  =  (((_MainMenus[menuIndex]).tempString ).toInt());
  }
}
void _menuUpdateToEEpromItems()
{
  EEPROM.updateLong(2, (_menuValueArray_long[1]));
  EEPROM.updateBit(1, 0, (_menuValueArray_bool[0]));
  EEPROM.updateInt(6, (_menuValueArray_int[0]));
  EEPROM.updateInt(8, (_menuValueArray_int[1]));
  EEPROM.updateInt(10, (_menuValueArray_int[2]));
  EEPROM.updateInt(12, (_menuValueArray_int[3]));
}
String _readStringFromProgmem (char *string)
{
  String result = String("");
  while (pgm_read_byte(string) != '\0')
  {
    result = result + char(pgm_read_byte(string));
    string++;
  }
  return result;
}
String _convertNamber(byte itemType, byte convFormat, byte valIndex, byte indexMax, byte indexMin)
{
  if (itemType == 4) {
    if (convFormat == 4) {
      return String((_menuValueArray_int[valIndex - 1 ]), DEC);
    }
    if (convFormat == 5) {
      return String((_menuValueArray_int[valIndex - 1]), HEX);
    }
    if (convFormat == 6) {
      return String((_menuValueArray_int[valIndex - 1]), BIN);
    }
  }
  if (itemType == 5) {
    if (convFormat == 4) {
      return String((_menuValueArray_long[valIndex - 1 ]), DEC);
    }
    if (convFormat == 5) {
      return String((_menuValueArray_long[valIndex - 1]), HEX);
    }
    if (convFormat == 6) {
      return String((_menuValueArray_long[valIndex - 1]), BIN);
    }
  }
}
String _convertBoolean(byte itemType, byte convFormat, byte valIndex, byte indexMax, byte indexMin)
{
  if (convFormat == 1) {
    if (_menuValueArray_bool[valIndex - 1]) {
      return "1";
    } else {
      return "0";
    }
  }
  if (convFormat == 2) {
    if (_menuValueArray_bool[valIndex - 1]) {
      return "True";
    } else {
      return "False";
    }
  }
  if (convFormat == 3) {
    if (_menuValueArray_bool[valIndex - 1 ]) {
      return "";
    } else {
      return "";
    }
  }
  if (_menuValueArray_bool[valIndex - 1]) {
    return _readStringFromProgmem ((char*)pgm_read_word(&(_flprogMenuStringsArray[indexMax - 1])));
  } else {
    return _readStringFromProgmem ((char*)pgm_read_word(&(_flprogMenuStringsArray[indexMin - 1])));
  }
}

Usar um resistor como referência de temperatura é conveniente para depuração, mas em uma aplicação real, você ainda precisa de um sensor de temperatura. Nós usamos o sensor de temperatura DS18B20. Para fazer isso, você precisa alterar o primeiro quadro nos dois projetos.

O bloco ScanOneWare é usado para determinar automaticamente o endereço do sensor. Isso permite substituir, se necessário, o sensor de temperatura sem piscar o controlador.

Diagramas de circuitos modificados

LCD Keypad Shield.

O resultado do código para o circuito com o LCD Keypad Shield.

#include <EEPROMex.h>
#include <LiquidCrystal.h>
#include <OneWire.h>
LiquidCrystal _lcd1(8, 9, 4, 5, 6, 7);
int _dispTempLength1 = 0;
boolean _isNeedClearDisp1;


struct UB_142171746
{
  bool ubo_101667604 = 0;
  bool ubo_51674151 = 0;
  bool ubo_137412502 = 0;
  bool ubo_174461762 = 0;
  bool ubo_157422683 = 0;
  int _gtv1 = 0;
  int _gtv2 = 0;
  int _gtv3 = 0;
  int _gtv4 = 0;
  int _gtv5 = 0;
  bool _bounse1S = 0;
  bool _bounse1O = 0;
  unsigned long _bounse1P = 0UL;
  bool _bounse2S = 0;
  bool _bounse2O = 0;
  unsigned long _bounse2P = 0UL;
  bool _bounse3S = 0;
  bool _bounse3O = 0;
  unsigned long _bounse3P = 0UL;
  bool _bounse4S = 0;
  bool _bounse4O = 0;
  unsigned long _bounse4P = 0UL;
  bool _bounse5S = 0;
  bool _bounse5O = 0;
  unsigned long _bounse5P = 0UL;
};
UB_142171746 UB_142171746_Instance1;
int UB_142171746_ubi_125089190 = 0;
OneWire  _ow12(12);
byte _FLPArray27618413[9];
const byte _menuParametrsArray[]  PROGMEM =  {1, 0, 0, 4, 5, 0, 0, 0, 0, 0, 1, 9, 0, 2, 0, 0, 6, 7, 0, 0, 0, 0, 0, 6, 9, 0, 3, 3, 1, 0, 0, 0, 10, 11, 1, 8, 3, 0, 0, 4, 4, 2, 0, 0, 1, 0, 0, 1, 4, 4, 0, 8, 5, 4, 4, 0, 0, 1, 0, 0, 1, 4, 7, 0, 8, 6, 4, 1, 0, 0, 2, 0, 0, 1, 4, 2, 0, 8, 7, 4, 3, 0, 0, 2, 0, 0, 1, 4, 5, 0, 8};
bool _menuValueArray_bool[1];
const bool _menuConstantValuesArray_bool[]  PROGMEM =  {1};
int _menuValueArray_int[4];
const int _menuConstantValuesArray_int[]  PROGMEM =  {1};
const char _flprogMenuNameString1[] PROGMEM = "HeaterSetting";
const char _flprogMenuNameString2[] PROGMEM = "Vent-On";
const char _flprogMenuNameString3[] PROGMEM = "Sound";
const char _flprogMenuNameString4[] PROGMEM = "Heater-On";
const char _flprogMenuNameString5[] PROGMEM = "Vent-Off";
const char _flprogMenuNameString6[] PROGMEM = "Vent Setting";
const char _flprogMenuNameString7[] PROGMEM = "Heater-Off";
const char _flprogMenuNameString8[] PROGMEM = "C";
const char _flprogMenuNameString9[] PROGMEM = "Enter to submenu";
const char _flprogMenuNameString10[] PROGMEM = "On";
const char _flprogMenuNameString11[] PROGMEM = "Off";
const char* const _flprogMenuStringsArray[] PROGMEM = { _flprogMenuNameString1,  _flprogMenuNameString2,  _flprogMenuNameString3,  _flprogMenuNameString4,  _flprogMenuNameString5,  _flprogMenuNameString6,  _flprogMenuNameString7,  _flprogMenuNameString8,  _flprogMenuNameString9,  _flprogMenuNameString10,  _flprogMenuNameString11};
struct _menuItemStricture {
  int startInArrayIndex;
};
struct _menuMainStricture {
  byte startIndex;
  byte stopIndex;
  bool isSwitchMenuAroundRing;
  _menuItemStricture  currentItem;
};
_menuItemStricture _MenuItems[7];
_menuMainStricture _MainMenus[1];
bool _gtv1;
bool _gtv2;
bool _gtv3;
bool _gtv4;
bool _gtv5;
bool _gtv6;
bool _gtv7;
bool _gtv8;
bool _gtv9;
bool _gtv10 = 0;
float _gtv11;
bool _gtv12 = 0;
int Menu_Value_3_TVD = 0;
int Menu_Value_1_TVD = 0;
String _swi2;
bool _trgrt4 = 0;
bool _trgrt4I = 0;
String _swi1;
bool _trgrt1 = 0;
bool _trgrt1I = 0;
int _disp1oldLength = 0;
bool _trgrt2 = 0;
bool _trgrt2I = 0;
int _disp3oldLength = 0;
bool _sowb1_needScan = 0;
bool _sowb1_ost = 0;
bool _sowb1_FLPArray27618413 = 0;
int Menu_Value_4_TVD = 0;
bool _trgrt3 = 0;
bool _trgrt3I = 0;
int Menu_Value_2_TVD = 0;
int _disp4oldLength = 0;
bool _trgr4 = 0;
bool _trgr2 = 0;
bool _trgr1 = 0;
bool _trgr3 = 0;
String _MenuBlock_47814740_ASO_1;
String _MenuBlock_47814740_MNO;
String _MenuBlock_47814740_VNO;
bool _MenuBlock_47814740_OEIS = 0;
bool _MenuBlock_47814740_OMUIS = 0;
bool _MenuBlock_47814740_OMDIS = 0;
bool _MenuBlock_47814740_OEMIS = 0;
bool _MenuBlock_47814740_OExFMIS = 0;
bool _MenuBlock_47814740_OVUIS = 0;
bool _MenuBlock_47814740_OVDIS = 0;
unsigned long _MenuBlock_47814740_VUDST = 0UL;
unsigned long _MenuBlock_47814740_VUDSPT = 0UL;
byte _MenuBlock_47814740_VUDSM = 0;
int _MenuBlock_47814740_VUDPT = 0;
bool _MenuBlock_47814740_AMMO = 0;
bool _tim2I = 0;
bool _tim2O = 0;
unsigned long _tim2P = 0UL;
bool _tim3I = 0;
bool _tim3O = 0;
unsigned long _tim3P = 0UL;
bool _tim1I = 0;
bool _tim1O = 0;
unsigned long _tim1P = 0UL;
unsigned long _d18x2x1Tti = 0UL;
float _d18x2x1O = 0.00;
int _disp2oldLength = 0;
void setup()
{
  if ((EEPROM.read(0)) != 97) {
    EEPROM.write(0, 97) ;
    EEPROM.updateInt(8, 25);
    EEPROM.updateBit(1, 0, 0);
    EEPROM.updateInt(4, 10);
    EEPROM.updateInt(6, 30);
    EEPROM.updateInt(2, 40);
  }
  pinMode(2, OUTPUT);
  pinMode(3, OUTPUT);
  pinMode(11, OUTPUT);

  _lcd1.begin(16, 2);
  _MenuItems[0].startInArrayIndex = 0;
  _MenuItems[1].startInArrayIndex = 13;
  _MenuItems[2].startInArrayIndex = 26;
  _MenuItems[3].startInArrayIndex = 39;
  _MenuItems[4].startInArrayIndex = 52;
  _MenuItems[5].startInArrayIndex = 65;
  _MenuItems[6].startInArrayIndex = 78;
  _MainMenus[0].startIndex = 1;
  _MainMenus[0].isSwitchMenuAroundRing = 1;
  _MainMenus[0].stopIndex = 3;
  _MainMenus[0].currentItem = _MenuItems[0];
  _menuValueArray_int[0] = (EEPROM.readInt(2));
  _menuValueArray_bool[0] = (EEPROM.readBit(1, 0));
  _menuValueArray_int[1] = (EEPROM.readInt(4));
  _menuValueArray_int[2] = (EEPROM.readInt(6));
  _menuValueArray_int[3] = (EEPROM.readInt(8));
}
void loop()
{ bool _tempVariable_bool;
  byte _tempVariable_byte;
  if (_isNeedClearDisp1) {
    _lcd1.clear();
    _isNeedClearDisp1 = 0;
  }




  if (1) {
    if (_trgrt4I) {
      _trgrt4 = 0;
    } else {
      _trgrt4 = 1;
      _trgrt4I = 1;
    }
  } else {
    _trgrt4 = 0;
    _trgrt4I = 0;
  };
  if (_isTimer(_d18x2x1Tti, 1000)) {
    _d18x2x1Tti = millis();
    _d18x2x1O =  _readDS18_ow12(_FLPArray27618413, _FLPArray27618413[8]);
  }
  if (_sowb1_needScan) {
    if ( _oneWireSeach (_FLPArray27618413, _ow12)) {
      _sowb1_FLPArray27618413 = 1;
    }
    _ow12.reset_search();
    _sowb1_needScan = 0;
  }
  if (_trgrt4) {
    if (! _sowb1_ost) {
      _sowb1_ost = 1;
      _sowb1_needScan = 1;
      _sowb1_FLPArray27618413 = 0;
    }
  } else {
    _sowb1_ost = 0;
  }
  _gtv11 = (_d18x2x1O);
  UB_142171746_ubi_125089190 =  (analogRead (0));
  UB_142171746_Instance1 = _func_UB_142171746(UB_142171746_Instance1, UB_142171746_ubi_125089190, 96, 250, 402, 635);
  _gtv3 = UB_142171746_Instance1.ubo_101667604;
  _gtv4 = UB_142171746_Instance1.ubo_51674151;
  _gtv5 = UB_142171746_Instance1.ubo_137412502;
  _gtv2 = UB_142171746_Instance1.ubo_174461762;
  _gtv1 = UB_142171746_Instance1.ubo_157422683;
  if (_gtv1)
  {
    if (_tim1I) {
      if (_isTimer(_tim1P, 2000)) {
        _tim1O = 1;
      }
    } else {
      _tim1I = 1;
      _tim1P = millis();
    }
  } else {
    _tim1O = 0;
    _tim1I = 0;
  }
  if (_tim2O) _trgr2 = 0;
  if (_tim1O) _trgr2 = 1;
  if (_trgr2) {
    if (_trgrt3I) {
      _trgrt3 = 0;
    } else {
      _trgrt3 = 1;
      _trgrt3I = 1;
    }
  } else {
    _trgrt3 = 0;
    _trgrt3I = 0;
  };
  if (_trgrt1) {
    _tim2O = 1;
    _tim2I = 1;
  } else {
    if (_tim2I) {
      _tim2I = 0;
      _tim2P = millis();
    } else {
      if (_tim2O) {
        if ( _isTimer(_tim2P, 200)) _tim2O = 0;
      }
    }
  }
  if (!(_gtv1)) {
    if (_trgrt1I) {
      _trgrt1 = 0;
    } else {
      _trgrt1 = 1;
      _trgrt1I = 1;
    }
  } else {
    _trgrt1 = 0;
    _trgrt1I = 0;
  };
  _gtv8 = _trgrt3;
  _gtv7 = ( (!(_trgr2)) && (_trgrt1) );
  if (1)
  {
    if (_tim3I) {
      if (_isTimer(_tim3P, 200)) {
        _tim3O = 1;
      }
    } else {
      _tim3I = 1;
      _tim3P = millis();
    }
  } else {
    _tim3O = 0;
    _tim3I = 0;
  }
  if (!(_gtv7)) {
    if (_trgrt2I) {
      _trgrt2 = 0;
    } else {
      _trgrt2 = 1;
      _trgrt2I = 1;
    }
  } else {
    _trgrt2 = 0;
    _trgrt2I = 0;
  };
  if (( (_gtv9) && (_gtv8) )) _trgr1 = 0;
  if (( (_tim3O) && (_trgrt2) )) _trgr1 = 1;
  _gtv6 = _trgr1;
  if (_gtv6) {
    _tempVariable_bool  =  1;
    if ( ! _MenuBlock_47814740_OEIS ) {
      _MenuBlock_47814740_OEIS = 1;
      _MainMenus[0].currentItem = _MenuItems[0];
    }
    _tempVariable_byte = pgm_read_byte(&_menuParametrsArray[((_MainMenus[0].currentItem ).startInArrayIndex) + 10]);
    _MenuBlock_47814740_MNO = _readStringFromProgmem ((char*)pgm_read_word(&(_flprogMenuStringsArray[_tempVariable_byte - 1])));
    _MenuBlock_47814740_VNO = _menuOutputValueString (0);
    _MenuBlock_47814740_AMMO = (pgm_read_byte(&_menuParametrsArray[((_MainMenus[0].currentItem ).startInArrayIndex) + 5]) ) == 0;
    _tempVariable_byte  =  pgm_read_byte(&_menuParametrsArray[(((_MainMenus[0]).currentItem).startInArrayIndex) + 12]);
    if (_tempVariable_byte == 0 ) {
      _MenuBlock_47814740_ASO_1 =  "";
    } else {
      _MenuBlock_47814740_ASO_1 =  _readStringFromProgmem ((char*)pgm_read_word(&(_flprogMenuStringsArray[_tempVariable_byte - 1])));
    }
  } else {
    _tempVariable_bool  =  0;
    if (_MenuBlock_47814740_OEIS) {
      _MenuBlock_47814740_OEIS = 0;
      _menuUpdateToEEpromItems();
    }
    _MenuBlock_47814740_AMMO = 0;
    _MenuBlock_47814740_ASO_1 =  "";
    _MenuBlock_47814740_MNO = "";
    _MenuBlock_47814740_VNO = "";
  }
  if (_gtv4) {
    if ( ! _MenuBlock_47814740_OMUIS) {
      _MenuBlock_47814740_OMUIS = 1; if (_tempVariable_bool) {
        _menuUpEvents(0);
        _menuUpdateToEEpromItems();
      }
    }
  } else {
    _MenuBlock_47814740_OMUIS = 0;
  }
  if (_gtv5) {
    if ( ! _MenuBlock_47814740_OMDIS) {
      _MenuBlock_47814740_OMDIS = 1; if (_tempVariable_bool) {
        _menuDownEvents(0);
        _menuUpdateToEEpromItems();
      }
    }
  } else {
    _MenuBlock_47814740_OMDIS = 0;
  }
  if (( (_gtv7) && (_gtv6) )) {
    if ( ! _MenuBlock_47814740_OEMIS) {
      _MenuBlock_47814740_OEMIS = 1; if (_tempVariable_bool) {
        _menuEnterTheMenuEvents (0);
        _menuUpdateToEEpromItems();
      }
    }
  } else {
    _MenuBlock_47814740_OEMIS = 0;
  }
  if (_gtv8) {
    if ( ! _MenuBlock_47814740_OExFMIS) {
      _MenuBlock_47814740_OExFMIS = 1; if (_tempVariable_bool) {
        _menuExitFromMenuEvents (0);
        _menuUpdateToEEpromItems();
      }
    }
  } else {
    _MenuBlock_47814740_OExFMIS = 0;
  }
  if (_gtv3) {
    if ( ! _MenuBlock_47814740_OVUIS) {
      _MenuBlock_47814740_OVUIS = 1;
      if (_tempVariable_bool) {
        _valueUpEvents(0);
        _MenuBlock_47814740_VUDST = millis();
      }
    } if (_tempVariable_bool) {
      if (_MenuBlock_47814740_VUDSM == 0) {
        if (_isTimer(_MenuBlock_47814740_VUDST , 2000 )) {
          _MenuBlock_47814740_VUDSM = 1;
          _MenuBlock_47814740_VUDSPT = millis();
          _MenuBlock_47814740_VUDPT  = 500;
        }
      }  else {
        if (_MenuBlock_47814740_VUDSM == 1) {
          if (_isTimer(_MenuBlock_47814740_VUDST , 4000 )) {
            _MenuBlock_47814740_VUDSM = 2;
            _MenuBlock_47814740_VUDPT  = 200;
          }
        } if (_isTimer(_MenuBlock_47814740_VUDSPT , _MenuBlock_47814740_VUDPT )) {
          _valueUpEvents(0);
          _MenuBlock_47814740_VUDSPT = millis();
        }
      }
    }
  } else {
    _MenuBlock_47814740_OVUIS = 0;
    if ( ! ( _gtv2)) {
      _MenuBlock_47814740_VUDSM = 0;
    }
  }
  if (_gtv2) {
    if ( ! _MenuBlock_47814740_OVDIS) {
      _MenuBlock_47814740_OVDIS = 1;
      if (_tempVariable_bool) {
        _valueDownEvents(0);
        _MenuBlock_47814740_VUDST = millis();
      }
    } if (_tempVariable_bool) {
      if (_MenuBlock_47814740_VUDSM == 0) {
        if (_isTimer(_MenuBlock_47814740_VUDST , 2000 )) {
          _MenuBlock_47814740_VUDSM = 1;
          _MenuBlock_47814740_VUDSPT = millis();
          _MenuBlock_47814740_VUDPT  = 500;
        }
      }  else {
        if (_MenuBlock_47814740_VUDSM == 1) {
          if (_isTimer(_MenuBlock_47814740_VUDST , 4000 )) {
            _MenuBlock_47814740_VUDSM = 2;
            _MenuBlock_47814740_VUDPT  = 200;
          }
        } if (_isTimer(_MenuBlock_47814740_VUDSPT , _MenuBlock_47814740_VUDPT )) {
          _valueDownEvents(0);
          _MenuBlock_47814740_VUDSPT = millis();
        }
      }
    }
  } else {
    _MenuBlock_47814740_OVDIS = 0;
    if ( ! ( _gtv3)) {
      _MenuBlock_47814740_VUDSM = 0;
    }
  }
  if (_gtv6) {
    _dispTempLength1 = ((_MenuBlock_47814740_MNO)).length();
    if (_disp2oldLength > _dispTempLength1) {
      _isNeedClearDisp1 = 1;
    }
    _disp2oldLength = _dispTempLength1;
    _lcd1.setCursor(int((16 - _dispTempLength1) / 2), 0);
    _lcd1.print((_MenuBlock_47814740_MNO));
  } else {
    if (_disp2oldLength > 0) {
      _isNeedClearDisp1 = 1;
      _disp2oldLength = 0;
    }
  }
  if (_gtv6) {
    _dispTempLength1 = ((((_MenuBlock_47814740_VNO) + (String(" ")) + (_MenuBlock_47814740_ASO_1)))).length();
    if (_disp1oldLength > _dispTempLength1) {
      _isNeedClearDisp1 = 1;
    }
    _disp1oldLength = _dispTempLength1;
    _lcd1.setCursor(int((16 - _dispTempLength1) / 2), 1);
    _lcd1.print((((_MenuBlock_47814740_VNO) + (String(" ")) + (_MenuBlock_47814740_ASO_1))));
  } else {
    if (_disp1oldLength > 0) {
      _isNeedClearDisp1 = 1;
      _disp1oldLength = 0;
    }
  }
  _gtv9 = _MenuBlock_47814740_AMMO;
  if ((_gtv11) > (Menu_Value_2_TVD)) _trgr3 = 0;
  if ((_gtv11) < (Menu_Value_1_TVD)) _trgr3 = 1;
  digitalWrite(2, !(_trgr3));
  if (!(_gtv6)) {
    Menu_Value_1_TVD = _menuValueArray_int[1];
  }
  _gtv10 = _trgr3;
  if (!(_gtv6)) {
    Menu_Value_2_TVD = _menuValueArray_int[3];
  }
  if ((_gtv11) < (Menu_Value_4_TVD)) _trgr4 = 0;
  if ((_gtv11) > (Menu_Value_3_TVD)) _trgr4 = 1;
  if (!(_gtv6)) {
    Menu_Value_3_TVD = _menuValueArray_int[0];
  }
  digitalWrite(3, !(_trgr4));
  _gtv12 = _trgr4;
  if (!(_gtv6)) {
    Menu_Value_4_TVD = _menuValueArray_int[2];
  }
  digitalWrite(11, ( (( (_gtv12) || (_gtv10) )) && ((_menuValueArray_bool[0])) ));
  if (_gtv10)
  {
    _swi1 = String("H - ON");
  }
  else
  {
    _swi1 = String("H - OFF");
  }
  if (_gtv12)
  {
    _swi2 = String("V - ON");
  }
  else
  {
    _swi2 = String("V - OFF");
  }
  if (!(_gtv6)) {
    _dispTempLength1 = ((((String("Temp - ")) + (( _floatToStringWitRaz(_gtv11, 2))) + (String(" C"))))).length();
    if (_disp3oldLength > _dispTempLength1) {
      _isNeedClearDisp1 = 1;
    }
    _disp3oldLength = _dispTempLength1;
    _lcd1.setCursor(int((16 - _dispTempLength1) / 2), 0);
    _lcd1.print((((String("Temp - ")) + (( _floatToStringWitRaz(_gtv11, 2))) + (String(" C")))));
  } else {
    if (_disp3oldLength > 0) {
      _isNeedClearDisp1 = 1;
      _disp3oldLength = 0;
    }
  }
  if (!(_gtv6)) {
    _dispTempLength1 = ((((_swi1) + (String("  ")) + (_swi2)))).length();
    if (_disp4oldLength > _dispTempLength1) {
      _isNeedClearDisp1 = 1;
    }
    _disp4oldLength = _dispTempLength1;
    _lcd1.setCursor(int((16 - _dispTempLength1) / 2), 1);
    _lcd1.print((((_swi1) + (String("  ")) + (_swi2))));
  } else {
    if (_disp4oldLength > 0) {
      _isNeedClearDisp1 = 1;
      _disp4oldLength = 0;
    }
  }




}
String  _floatToStringWitRaz(float value, int raz)
{

  return String(value, raz);
}
bool _isTimer(unsigned long startTime, unsigned long period )
{
  unsigned long currentTime;
  currentTime = millis();
  if (currentTime >= startTime) {
    return (currentTime >= (startTime + period));
  } else {
    return (currentTime >= (4294967295 - startTime + period));
  }
}
void _menuUpEvents (byte menuIndex)
{
  byte tempIndex = pgm_read_byte(&_menuParametrsArray[((_MainMenus[menuIndex]).currentItem).startInArrayIndex]);
  byte parIndex = pgm_read_byte(&_menuParametrsArray[ (((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 5]);
  byte parentStartIndex;
  byte parentStopIndex;
  if (parIndex == 0) {
    parentStartIndex = (_MainMenus[menuIndex]).startIndex;
    parentStopIndex = (_MainMenus[menuIndex]).stopIndex;
  }
  else {
    parentStartIndex = pgm_read_byte(&_menuParametrsArray[( (_MenuItems[parIndex - 1]).startInArrayIndex) + 3]);
    parentStopIndex = pgm_read_byte(&_menuParametrsArray[( (_MenuItems[parIndex - 1]).startInArrayIndex) + 4]);
  }
  if (tempIndex == parentStartIndex) {
    if ((_MainMenus[menuIndex]).isSwitchMenuAroundRing) {
      (_MainMenus[menuIndex]).currentItem = _MenuItems[parentStopIndex - 1];
      return;
    } else {
      return;
    }
  }
  (_MainMenus[menuIndex]).currentItem = _MenuItems[tempIndex - 2];
  return;
}
void _menuDownEvents (byte menuIndex)
{
  byte tempIndex = pgm_read_byte(&_menuParametrsArray[((_MainMenus[menuIndex]).currentItem).startInArrayIndex]);
  byte parIndex = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 5]);
  byte parentStartIndex;
  byte parentStopIndex;
  if (parIndex == 0) {
    parentStartIndex = (_MainMenus[menuIndex]).startIndex;
    parentStopIndex = (_MainMenus[menuIndex]).stopIndex;
  }
  else {
    parentStartIndex = pgm_read_byte(&_menuParametrsArray[( (_MenuItems[parIndex - 1]).startInArrayIndex) + 3]);
    parentStopIndex = pgm_read_byte(&_menuParametrsArray[((_MenuItems[parIndex - 1]).startInArrayIndex) + 4]);
  }
  if (tempIndex == parentStopIndex) {
    if ((_MainMenus[menuIndex]).isSwitchMenuAroundRing) {
      (_MainMenus[menuIndex]).currentItem = _MenuItems[parentStartIndex - 1];
      return;
    } else {
      return;
    }
  }
  (_MainMenus[menuIndex]).currentItem = _MenuItems[tempIndex];
  return;
}
void _valueUpEvents (byte menuIndex)
{
  byte valIndex = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 2]);
  byte itemType = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 1]);
  byte indexMax = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 6]);
  byte indexStep = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 8]);
  if (itemType == 3) {
    _menuValueArray_bool[valIndex - 1 ] = 1;
    return;
  }
  if (itemType == 4) {
    _menuValueArray_int[valIndex - 1] = _menuValueArray_int[valIndex - 1] + (pgm_read_word(&_menuConstantValuesArray_int[indexStep - 1]));
  }
}
void _valueDownEvents (byte menuIndex)
{

  byte valIndex = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 2]);
  byte itemType = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 1]);
  byte indexMin = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 7]);
  byte indexStep = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 8]);
  if (itemType == 3) {
    _menuValueArray_bool[valIndex - 1] = 0;
    return;
  }
  if (itemType == 4) {
    _menuValueArray_int[valIndex - 1] = _menuValueArray_int[valIndex - 1] - (pgm_read_word(&_menuConstantValuesArray_int[indexStep - 1]));
  }
}
void _menuEnterTheMenuEvents (byte menuIndex)
{
  byte itemType =  pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 1]);
  if (!(itemType == 0)) {
    return;
  }
  byte tempIndex = pgm_read_byte(&_menuParametrsArray[((_MainMenus[menuIndex]).currentItem).startInArrayIndex]);
  byte newIndex = pgm_read_byte(&_menuParametrsArray[((_MenuItems[tempIndex - 1]).startInArrayIndex) + 3]);
  if (newIndex == 0) {
    return;
  }
  (_MainMenus[menuIndex]).currentItem = _MenuItems[newIndex - 1];
  return;
}
void _menuExitFromMenuEvents (byte menuIndex)
{
  byte parIndex = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 5]);
  if (parIndex == 0) {
    return;
  }
  (_MainMenus[menuIndex]).currentItem = _MenuItems[parIndex - 1];
  return;
}
String _menuOutputValueString (byte menuIndex)
{
  byte itemType = pgm_read_byte(&_menuParametrsArray[ (((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 1]);
  byte valueStrIndex = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 11]);
  if (itemType == 0) {
    if ( valueStrIndex == 0) {
      return "";
    } else {
      return _readStringFromProgmem ((char*)pgm_read_word(&(_flprogMenuStringsArray[valueStrIndex - 1])));
    }
  }
  byte valIndex = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 2]);
  byte indexMin = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 7]);
  byte indexMax = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 6]);
  if ( valIndex == 0) {
    return "";
  }
  byte convFormat = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 9]);
  if (itemType == 3) {
    return _convertBoolean(itemType, convFormat, valIndex, indexMax, indexMin);
  }
  if (itemType == 4) {
    return _convertNamber(itemType, convFormat, valIndex, indexMax, indexMin);
  }
  return "";
}
void _menuUpdateToEEpromItems()
{
  EEPROM.updateInt(2, (_menuValueArray_int[0]));
  EEPROM.updateBit(1, 0, (_menuValueArray_bool[0]));
  EEPROM.updateInt(4, (_menuValueArray_int[1]));
  EEPROM.updateInt(6, (_menuValueArray_int[2]));
  EEPROM.updateInt(8, (_menuValueArray_int[3]));
}
String _readStringFromProgmem (char *string)
{
  String result = String("");
  while (pgm_read_byte(string) != '\0')
  {
    result = result + char(pgm_read_byte(string));
    string++;
  }
  return result;
}
String _convertNamber(byte itemType, byte convFormat, byte valIndex, byte indexMax, byte indexMin)
{
  if (itemType == 4) {
    if (convFormat == 4) {
      return String((_menuValueArray_int[valIndex - 1 ]), DEC);
    }
    if (convFormat == 5) {
      return String((_menuValueArray_int[valIndex - 1]), HEX);
    }
    if (convFormat == 6) {
      return String((_menuValueArray_int[valIndex - 1]), BIN);
    }
  }
}
String _convertBoolean(byte itemType, byte convFormat, byte valIndex, byte indexMax, byte indexMin)
{
  if (convFormat == 1) {
    if (_menuValueArray_bool[valIndex - 1]) {
      return "1";
    } else {
      return "0";
    }
  }
  if (convFormat == 2) {
    if (_menuValueArray_bool[valIndex - 1]) {
      return "True";
    } else {
      return "False";
    }
  }
  if (convFormat == 3) {
    if (_menuValueArray_bool[valIndex - 1 ]) {
      return "";
    } else {
      return "";
    }
  }
  if (_menuValueArray_bool[valIndex - 1]) {
    return _readStringFromProgmem ((char*)pgm_read_word(&(_flprogMenuStringsArray[indexMax - 1])));
  } else {
    return _readStringFromProgmem ((char*)pgm_read_word(&(_flprogMenuStringsArray[indexMin - 1])));
  }
}
float _convertDS18x2xData(byte type_s, byte data[12])
{
  int16_t raw = (data[1] << 8) | data[0];
  if (type_s)
  {
    raw = raw << 3;
    if (data[7] == 0x10) {
      raw = (raw & 0xFFF0) + 12 - data[6];
    }
  }
  else
  {
    byte cfg = (data[4] & 0x60);
    if (cfg == 0x00) raw = raw & ~7;   else if (cfg == 0x20) raw = raw & ~3;  else if (cfg == 0x40) raw = raw & ~1;
  }
  return  (float)raw / 16.0;
}
float _readDS18_ow12(byte addr[8], byte type_s)
{ byte data[12];
  byte i;
  _ow12.reset();
  _ow12.select(addr);
  _ow12.write(0xBE);
  for ( i = 0; i < 9; i++) {
    data[i] = _ow12.read();
  }
  _ow12.reset();
  _ow12.select(addr);
  _ow12.write(0x44, 1);
  return _convertDS18x2xData(type_s, data);
}
bool _oneWireSeach (byte array[], OneWire ow )
{
  byte temp[8];
  byte i;
  if ( !ow.search(temp)) {
    return false;
  }
  if (OneWire::crc8(temp, 7) != temp[7]) {
    return false;
  }

  switch (temp[0]) {
    case 0x10:
      array[8] = 1;
      break;
    case 0x28:
      array[8] = 0;
      break;
    case 0x22:
      array[8] = 0;
      break;
    default:
      return false;
  }

  for ( i = 0; i < 8; i++) {
    array[i] = temp[i];
  }
  return true;
} struct UB_142171746 _func_UB_142171746(struct UB_142171746 _ubInstans, int ubi_125089190, int ubpar_125440348, int ubpar_79146376, int ubpar_175158211, int ubpar_40719224)
{
  bool ubo_101667604 = _ubInstans.ubo_101667604;
  bool ubo_51674151 = _ubInstans.ubo_51674151;
  bool ubo_137412502 = _ubInstans.ubo_137412502;
  bool ubo_174461762 = _ubInstans.ubo_174461762;
  bool ubo_157422683 = _ubInstans.ubo_157422683;
  int _gtv1 = _ubInstans._gtv1;
  int _gtv2 = _ubInstans._gtv2;
  int _gtv3 = _ubInstans._gtv3;
  int _gtv4 = _ubInstans._gtv4;
  int _gtv5 = _ubInstans._gtv5;
  bool _bounse1S = _ubInstans._bounse1S;
  bool _bounse1O = _ubInstans._bounse1O;
  unsigned long _bounse1P = _ubInstans._bounse1P;
  bool _bounse2S = _ubInstans._bounse2S;
  bool _bounse2O = _ubInstans._bounse2O;
  unsigned long _bounse2P = _ubInstans._bounse2P;
  bool _bounse3S = _ubInstans._bounse3S;
  bool _bounse3O = _ubInstans._bounse3O;
  unsigned long _bounse3P = _ubInstans._bounse3P;
  bool _bounse4S = _ubInstans._bounse4S;
  bool _bounse4O = _ubInstans._bounse4O;
  unsigned long _bounse4P = _ubInstans._bounse4P;
  bool _bounse5S = _ubInstans._bounse5S;
  bool _bounse5O = _ubInstans._bounse5O;
  unsigned long _bounse5P = _ubInstans._bounse5P;
  bool   _bounceTmpD1 = (ubi_125089190) < (_gtv1);

  if (_bounse1S)
  {
    if (millis() >= (_bounse1P + 40))
    {
      _bounse1O =  _bounceTmpD1;
      _bounse1S = 0;
    }
  }
  else
  {
    if ( _bounceTmpD1 != _bounse1O )
    {
      _bounse1S = 1;
      _bounse1P = millis();
    }
  }
  bool   _bounceTmpD2 = ( ((ubi_125089190) > (_gtv1)) && ((ubi_125089190) < (_gtv2)) );

  if (_bounse2S)
  {
    if (millis() >= (_bounse2P + 40))
    {
      _bounse2O =  _bounceTmpD2;
      _bounse2S = 0;
    }
  }
  else
  {
    if ( _bounceTmpD2 != _bounse2O )
    {
      _bounse2S = 1;
      _bounse2P = millis();
    }
  }
  bool   _bounceTmpD3 = ( ((ubi_125089190) > (_gtv2)) && ((ubi_125089190) < (_gtv3)) );

  if (_bounse3S)
  {
    if (millis() >= (_bounse3P + 40))
    {
      _bounse3O =  _bounceTmpD3;
      _bounse3S = 0;
    }
  }
  else
  {
    if ( _bounceTmpD3 != _bounse3O )
    {
      _bounse3S = 1;
      _bounse3P = millis();
    }
  }
  bool   _bounceTmpD4 = ( ((ubi_125089190) > (_gtv3)) && ((ubi_125089190) < (_gtv4)) );

  if (_bounse4S)
  {
    if (millis() >= (_bounse4P + 40))
    {
      _bounse4O =  _bounceTmpD4;
      _bounse4S = 0;
    }
  }
  else
  {
    if ( _bounceTmpD4 != _bounse4O )
    {
      _bounse4S = 1;
      _bounse4P = millis();
    }
  }
  bool   _bounceTmpD5 = ( ((ubi_125089190) > (_gtv4)) && ((ubi_125089190) < (_gtv5)) );

  if (_bounse5S)
  {
    if (millis() >= (_bounse5P + 40))
    {
      _bounse5O =  _bounceTmpD5;
      _bounse5S = 0;
    }
  }
  else
  {
    if ( _bounceTmpD5 != _bounse5O )
    {
      _bounse5S = 1;
      _bounse5P = millis();
    }
  }
  _gtv1 = (ubpar_125440348) / (2);
  _gtv2 = (((ubpar_79146376) - (ubpar_125440348)) / (2)) + (ubpar_125440348);
  _gtv3 = (((ubpar_175158211) - (ubpar_79146376)) / (2)) + (ubpar_79146376);
  _gtv4 = (((ubpar_40719224) - (ubpar_175158211)) / (2)) + (ubpar_175158211);
  _gtv5 = (((1023) - (ubpar_40719224)) / (2)) + (ubpar_40719224);
  ubo_101667604 = _bounse1O;
  ubo_51674151 = _bounse2O;
  ubo_137412502 = _bounse3O;
  ubo_174461762 = _bounse4O;
  ubo_157422683 = _bounse5O;
  _ubInstans.ubo_101667604 = ubo_101667604;
  _ubInstans.ubo_51674151 = ubo_51674151;
  _ubInstans.ubo_137412502 = ubo_137412502;
  _ubInstans.ubo_174461762 = ubo_174461762;
  _ubInstans.ubo_157422683 = ubo_157422683;
  _ubInstans._gtv1 = _gtv1;
  _ubInstans._gtv2 = _gtv2;
  _ubInstans._gtv3 = _gtv3;
  _ubInstans._gtv4 = _gtv4;
  _ubInstans._gtv5 = _gtv5;
  _ubInstans._bounse1S = _bounse1S;
  _ubInstans._bounse1O = _bounse1O;
  _ubInstans._bounse1P = _bounse1P;
  _ubInstans._bounse2S = _bounse2S;
  _ubInstans._bounse2O = _bounse2O;
  _ubInstans._bounse2P = _bounse2P;
  _ubInstans._bounse3S = _bounse3S;
  _ubInstans._bounse3O = _bounse3O;
  _ubInstans._bounse3P = _bounse3P;
  _ubInstans._bounse4S = _bounse4S;
  _ubInstans._bounse4O = _bounse4O;
  _ubInstans._bounse4P = _bounse4P;
  _ubInstans._bounse5S = _bounse5S;
  _ubInstans._bounse5O = _bounse5O;
  _ubInstans._bounse5P = _bounse5P;
  return _ubInstans;
}

O código do resultado para o teclado matricial

#include <Wire.h>
#include <EEPROMex.h>
#include <OneWire.h>
#include <LiquidCrystal_I2C.h>

LiquidCrystal_I2C _lcd2(0x27, 20, 4);
int _dispTempLength2 = 0;
boolean _isNeedClearDisp2;


OneWire  _ow12(12);
byte _FLPArray27618413[9];
const byte _menuParametrsArray[]  PROGMEM =  {1, 5, 1, 0, 0, 0, 0, 0, 1, 4, 1, 0, 0, 2, 0, 0, 6, 7, 0, 0, 0, 0, 0, 9, 11, 0, 3, 0, 0, 8, 9, 0, 0, 0, 0, 0, 7, 11, 0, 4, 3, 1, 0, 0, 0, 12, 13, 1, 8, 4, 0, 0, 5, 5, 2, 0, 0, 0, 0, 0, 1, 4, 2, 0, 0, 6, 4, 4, 0, 0, 2, 0, 0, 1, 4, 8, 0, 10, 7, 4, 2, 0, 0, 2, 0, 0, 1, 4, 5, 0, 10, 8, 4, 3, 0, 0, 3, 0, 0, 1, 4, 6, 0, 10, 9, 4, 1, 0, 0, 3, 0, 0, 1, 4, 3, 0, 10};
bool _menuValueArray_bool[1];
const bool _menuConstantValuesArray_bool[]  PROGMEM =  {1};
int _menuValueArray_int[4];
const int _menuConstantValuesArray_int[]  PROGMEM =  {1};
long _menuValueArray_long[2];
const long _menuConstantValuesArray_long[]  PROGMEM =  {1};
const char _flprogMenuNameString1[] PROGMEM = "Enter Password";
const char _flprogMenuNameString2[] PROGMEM = "ChangePassword";
const char _flprogMenuNameString3[] PROGMEM = "Vent-Off";
const char _flprogMenuNameString4[] PROGMEM = "Sound";
const char _flprogMenuNameString5[] PROGMEM = "Heater-Off";
const char _flprogMenuNameString6[] PROGMEM = "Vent-On";
const char _flprogMenuNameString7[] PROGMEM = "Vent Setting";
const char _flprogMenuNameString8[] PROGMEM = "Heater-On";
const char _flprogMenuNameString9[] PROGMEM = "HeaterSetting";
const char _flprogMenuNameString10[] PROGMEM = "C";
const char _flprogMenuNameString11[] PROGMEM = "Enter to submenu";
const char _flprogMenuNameString12[] PROGMEM = "On";
const char _flprogMenuNameString13[] PROGMEM = "Off";
const char* const _flprogMenuStringsArray[] PROGMEM = { _flprogMenuNameString1,  _flprogMenuNameString2,  _flprogMenuNameString3,  _flprogMenuNameString4,  _flprogMenuNameString5,  _flprogMenuNameString6,  _flprogMenuNameString7,  _flprogMenuNameString8,  _flprogMenuNameString9,  _flprogMenuNameString10,  _flprogMenuNameString11,  _flprogMenuNameString12,  _flprogMenuNameString13};
struct _menuItemStricture {
  int startInArrayIndex;
};
struct _menuMainStricture {
  String tempString;
  byte startIndex;
  byte stopIndex;
  bool isSwitchMenuAroundRing;
  _menuItemStricture  currentItem;
};
_menuItemStricture _MenuItems[9];
_menuMainStricture _MainMenus[2];
bool _gtv6;
bool _gtv10 = 0;
float _gtv11;
bool _gtv12 = 0;
bool _gtv1;
bool _gtv2;
bool _gtv3;
bool _gtv4;
bool _gtv5;
bool _gtv13;
bool _gtv14;
bool _gtv15;
bool _gtv16;
bool _gtv17;
bool _gtv18;
bool _gtv19;
bool _gtv20;
bool _gtv21;
bool _gtv22;
bool _gtv23;
bool _gtv7;
bool _gtv8;
bool _trgr4 = 0;
int Menu_Value_1_TVD = 0;
bool _trgrt2 = 0;
bool _trgrt2I = 0;
bool _trgt1 = 0;
bool _trgt1I = 0;
int _disp4oldLength = 0;
String _MenuBlock_47814740_ASO_1;
String _MenuBlock_47814740_MNO;
String _MenuBlock_47814740_VNO;
bool _MenuBlock_47814740_OEIS = 0;
bool _MenuBlock_47814740_OMUIS = 0;
bool _MenuBlock_47814740_OMDIS = 0;
bool _MenuBlock_47814740_OEMIS = 0;
bool _MenuBlock_47814740_OExFMIS = 0;
bool _MenuBlock_47814740_OVUIS = 0;
bool _MenuBlock_47814740_OVDIS = 0;
unsigned long _MenuBlock_47814740_VUDST = 0UL;
unsigned long _MenuBlock_47814740_VUDSPT = 0UL;
byte _MenuBlock_47814740_VUDSM = 0;
int _MenuBlock_47814740_VUDPT = 0;
bool _MenuBlock_47814740_IDI_0 = 0;
bool _MenuBlock_47814740_IDI_1 = 0;
bool _MenuBlock_47814740_IDI_2 = 0;
bool _MenuBlock_47814740_IDI_3 = 0;
bool _MenuBlock_47814740_IDI_4 = 0;
bool _MenuBlock_47814740_IDI_5 = 0;
bool _MenuBlock_47814740_IDI_6 = 0;
bool _MenuBlock_47814740_IDI_7 = 0;
bool _MenuBlock_47814740_IDI_8 = 0;
bool _MenuBlock_47814740_IDI_9 = 0;
bool _MenuBlock_47814740MinusIOS = 0;
bool _trgr1 = 0;
bool _trgr3 = 0;
bool _mkb1C1xP1 = 0;
bool _mkb1C1xP2 = 0;
bool _mkb1C1xP3 = 0;
bool _mkb1C1xP4 = 0;
bool _mkb1C2xP1 = 0;
bool _mkb1C2xP2 = 0;
bool _mkb1C2xP3 = 0;
bool _mkb1C2xP4 = 0;
bool _mkb1C3xP1 = 0;
bool _mkb1C3xP2 = 0;
bool _mkb1C3xP3 = 0;
bool _mkb1C3xP4 = 0;
bool _mkb1C4xP1 = 0;
bool _mkb1C4xP2 = 0;
bool _mkb1C4xP3 = 0;
bool _mkb1C4xP4 = 0;
bool _trgrt1 = 0;
bool _trgrt1I = 0;
int Menu_Value_4_TVD = 0;
int _disp7oldLength = 0;
String _swi2;
int _disp2oldLength = 0;
String _MenuBlock_360159546_MNO;
String _MenuBlock_360159546_VNO;
bool _MenuBlock_360159546_OEIS = 0;
bool _MenuBlock_360159546_OMUIS = 0;
bool _MenuBlock_360159546_OMDIS = 0;
bool _MenuBlock_360159546_OVUIS = 0;
bool _MenuBlock_360159546_OVDIS = 0;
bool _MenuBlock_360159546_IDI_0 = 0;
bool _MenuBlock_360159546_IDI_1 = 0;
bool _MenuBlock_360159546_IDI_2 = 0;
bool _MenuBlock_360159546_IDI_3 = 0;
bool _MenuBlock_360159546_IDI_4 = 0;
bool _MenuBlock_360159546_IDI_5 = 0;
bool _MenuBlock_360159546_IDI_6 = 0;
bool _MenuBlock_360159546_IDI_7 = 0;
bool _MenuBlock_360159546_IDI_8 = 0;
bool _MenuBlock_360159546_IDI_9 = 0;
int Menu_Value_3_TVD = 0;
int Menu_Value_2_TVD = 0;
String _swi1;
int _disp1oldLength = 0;
int _disp3oldLength = 0;
int _disp6oldLength = 0;
unsigned long _d18x2x1Tti = 0UL;
float _d18x2x1O = 0.00;
int _disp5oldLength = 0;
bool _sowb1_needScan = 0;
bool _sowb1_ost = 0;
bool _sowb1_FLPArray27618413 = 0;
void setup()
{
  if ((EEPROM.read(0)) != 99) {
    EEPROM.write(0, 99) ;
    EEPROM.updateInt(10, 40);
    EEPROM.updateBit(1, 0, 0);
    EEPROM.updateInt(6, 30);
    EEPROM.updateInt(12, 10);
    EEPROM.updateLong(2, 123456);
    EEPROM.updateInt(8, 25);
  }
  Wire.begin();
  pinMode(16, OUTPUT);
  pinMode(15, OUTPUT);
  pinMode(17, OUTPUT);

  _lcd2.init();
  _lcd2.backlight();
  pinMode(6, INPUT);
  digitalWrite(6, HIGH);
  pinMode(7, INPUT);
  digitalWrite(7, HIGH);
  pinMode(8, INPUT);
  digitalWrite(8, HIGH);
  pinMode(9, INPUT);
  digitalWrite(9, HIGH);
  pinMode(2, OUTPUT);
  digitalWrite(2, HIGH);
  pinMode(3, OUTPUT);
  digitalWrite(3, HIGH);
  pinMode(4, OUTPUT);
  digitalWrite(4, HIGH);
  pinMode(5, OUTPUT);
  digitalWrite(5, HIGH);
  _MenuItems[0].startInArrayIndex = 0;
  _MenuItems[1].startInArrayIndex = 13;
  _MenuItems[2].startInArrayIndex = 26;
  _MenuItems[3].startInArrayIndex = 39;
  _MenuItems[4].startInArrayIndex = 52;
  _MenuItems[5].startInArrayIndex = 65;
  _MenuItems[6].startInArrayIndex = 78;
  _MenuItems[7].startInArrayIndex = 91;
  _MenuItems[8].startInArrayIndex = 104;
  _MainMenus[0].tempString = "";
  _MainMenus[0].startIndex = 1;
  _MainMenus[0].isSwitchMenuAroundRing = 0;
  _MainMenus[0].stopIndex = 1;
  _MainMenus[0].currentItem = _MenuItems[0];
  _MainMenus[1].tempString = "";
  _MainMenus[1].startIndex = 2;
  _MainMenus[1].isSwitchMenuAroundRing = 1;
  _MainMenus[1].stopIndex = 5;
  _MainMenus[1].currentItem = _MenuItems[1];
  _menuValueArray_long[1] = (EEPROM.readLong(2));
  _menuValueArray_int[0] = (EEPROM.readInt(6));
  _menuValueArray_bool[0] = (EEPROM.readBit(1, 0));
  _menuValueArray_int[1] = (EEPROM.readInt(8));
  _menuValueArray_int[2] = (EEPROM.readInt(10));
  _menuValueArray_int[3] = (EEPROM.readInt(12));
}
void loop()
{ bool _tempVariable_bool;
  byte _tempVariable_byte;
  if (_isNeedClearDisp2) {
    _lcd2.clear();
    _isNeedClearDisp2 = 0;
  }




  if (1) {
    if (_trgrt2I) {
      _trgrt2 = 0;
    } else {
      _trgrt2 = 1;
      _trgrt2I = 1;
    }
  } else {
    _trgrt2 = 0;
    _trgrt2I = 0;
  };
  if (_isTimer(_d18x2x1Tti, 1000)) {
    _d18x2x1Tti = millis();
    _d18x2x1O =  _readDS18_ow12(_FLPArray27618413, _FLPArray27618413[8]);
  }
  if (_sowb1_needScan) {
    if ( _oneWireSeach (_FLPArray27618413, _ow12)) {
      _sowb1_FLPArray27618413 = 1;
    }
    _ow12.reset_search();
    _sowb1_needScan = 0;
  }
  if (_trgrt2) {
    if (! _sowb1_ost) {
      _sowb1_ost = 1;
      _sowb1_needScan = 1;
      _sowb1_FLPArray27618413 = 0;
    }
  } else {
    _sowb1_ost = 0;
  }
  _gtv11 = (_d18x2x1O);
  digitalWrite(2, 0);
  _mkb1C1xP1 = ! (digitalRead(6));
  _mkb1C1xP2 = ! (digitalRead(7));
  _mkb1C1xP3 = ! (digitalRead(8));
  _mkb1C1xP4 = ! (digitalRead(9));
  digitalWrite(2, 1);
  digitalWrite(3, 0);
  _mkb1C2xP1 = ! (digitalRead(6));
  _mkb1C2xP2 = ! (digitalRead(7));
  _mkb1C2xP3 = ! (digitalRead(8));
  _mkb1C2xP4 = ! (digitalRead(9));
  digitalWrite(3, 1);
  digitalWrite(4, 0);
  _mkb1C3xP1 = ! (digitalRead(6));
  _mkb1C3xP2 = ! (digitalRead(7));
  _mkb1C3xP3 = ! (digitalRead(8));
  _mkb1C3xP4 = ! (digitalRead(9));
  digitalWrite(4, 1);
  digitalWrite(5, 0);
  _mkb1C4xP1 = ! (digitalRead(6));
  _mkb1C4xP2 = ! (digitalRead(7));
  _mkb1C4xP3 = ! (digitalRead(8));
  _mkb1C4xP4 = ! (digitalRead(9));
  digitalWrite(5, 1);
  _gtv1 = _mkb1C1xP1;
  _gtv2 = _mkb1C1xP2;
  _gtv3 = _mkb1C1xP3;
  _gtv18 = _mkb1C1xP4;
  _gtv4 = _mkb1C2xP1;
  _gtv5 = _mkb1C2xP2;
  _gtv13 = _mkb1C2xP3;
  _gtv19 = _mkb1C2xP4;
  _gtv14 = _mkb1C3xP1;
  _gtv15 = _mkb1C3xP2;
  _gtv16 = _mkb1C3xP3;
  _gtv20 = _mkb1C3xP4;
  _gtv23 = _mkb1C4xP1;
  _gtv17 = _mkb1C4xP2;
  _gtv22 = _mkb1C4xP3;
  _gtv21 = _mkb1C4xP4;
  bool  _tmp1 = _gtv23;
  if (_tmp1)  {
    if (! _trgt1I) _trgt1 = ! _trgt1;
  }
  _trgt1I = _tmp1;
  _gtv6 = _trgt1;
  if (_gtv7) {
    _tempVariable_bool  =  1;
    if ( ! _MenuBlock_360159546_OEIS ) {
      _MenuBlock_360159546_OEIS = 1;
      (_MainMenus[0]).tempString = "";
    }
    _tempVariable_byte = pgm_read_byte(&_menuParametrsArray[((_MainMenus[0].currentItem ).startInArrayIndex) + 10]);
    _MenuBlock_360159546_MNO = _readStringFromProgmem ((char*)pgm_read_word(&(_flprogMenuStringsArray[_tempVariable_byte - 1])));
    _MenuBlock_360159546_VNO = _menuOutputValueString (0);
  } else {
    _tempVariable_bool  =  0;
    if (_MenuBlock_360159546_OEIS) {
      _MenuBlock_360159546_OEIS = 0;
      _menuUpdateToEEpromItems();
    }
    _MenuBlock_360159546_MNO = "";
    _MenuBlock_360159546_VNO = "";
  }
  if (0) {
    if ( ! _MenuBlock_360159546_OMUIS) {
      _MenuBlock_360159546_OMUIS = 1; if (_tempVariable_bool) {
        _menuUpEvents(0);
        _menuUpdateToEEpromItems();
      }
    }
  } else {
    _MenuBlock_360159546_OMUIS = 0;
  }
  if (0) {
    if ( ! _MenuBlock_360159546_OMDIS) {
      _MenuBlock_360159546_OMDIS = 1; if (_tempVariable_bool) {
        _menuDownEvents(0);
        _menuUpdateToEEpromItems();
      }
    }
  } else {
    _MenuBlock_360159546_OMDIS = 0;
  }
  if (0) {
    if ( ! _MenuBlock_360159546_OVUIS) {
      _MenuBlock_360159546_OVUIS = 1;
      if (_tempVariable_bool) {
        _valueUpEvents(0);
      }
    }
  } else {
    _MenuBlock_360159546_OVUIS = 0;
  }
  if (0) {
    if ( ! _MenuBlock_360159546_OVDIS) {
      _MenuBlock_360159546_OVDIS = 1;
      if (_tempVariable_bool) {
        _valueDownEvents(0);
      }
    }
  } else {
    _MenuBlock_360159546_OVDIS = 0;
  }
  if (_gtv17) {
    if ( ! _MenuBlock_360159546_IDI_0) {
      _MenuBlock_360159546_IDI_0 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(0, '0');
      }
    }
  } else {
    _MenuBlock_360159546_IDI_0 = 0;
  }
  if (_gtv1) {
    if ( ! _MenuBlock_360159546_IDI_1) {
      _MenuBlock_360159546_IDI_1 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(0, '1');
      }
    }
  } else {
    _MenuBlock_360159546_IDI_1 = 0;
  }
  if (_gtv2) {
    if ( ! _MenuBlock_360159546_IDI_2) {
      _MenuBlock_360159546_IDI_2 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(0, '2');
      }
    }
  } else {
    _MenuBlock_360159546_IDI_2 = 0;
  }
  if (_gtv3) {
    if ( ! _MenuBlock_360159546_IDI_3) {
      _MenuBlock_360159546_IDI_3 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(0, '3');
      }
    }
  } else {
    _MenuBlock_360159546_IDI_3 = 0;
  }
  if (_gtv4) {
    if ( ! _MenuBlock_360159546_IDI_4) {
      _MenuBlock_360159546_IDI_4 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(0, '4');
      }
    }
  } else {
    _MenuBlock_360159546_IDI_4 = 0;
  }
  if (_gtv5) {
    if ( ! _MenuBlock_360159546_IDI_5) {
      _MenuBlock_360159546_IDI_5 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(0, '5');
      }
    }
  } else {
    _MenuBlock_360159546_IDI_5 = 0;
  }
  if (_gtv13) {
    if ( ! _MenuBlock_360159546_IDI_6) {
      _MenuBlock_360159546_IDI_6 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(0, '6');
      }
    }
  } else {
    _MenuBlock_360159546_IDI_6 = 0;
  }
  if (_gtv14) {
    if ( ! _MenuBlock_360159546_IDI_7) {
      _MenuBlock_360159546_IDI_7 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(0, '7');
      }
    }
  } else {
    _MenuBlock_360159546_IDI_7 = 0;
  }
  if (_gtv15) {
    if ( ! _MenuBlock_360159546_IDI_8) {
      _MenuBlock_360159546_IDI_8 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(0, '8');
      }
    }
  } else {
    _MenuBlock_360159546_IDI_8 = 0;
  }
  if (_gtv16) {
    if ( ! _MenuBlock_360159546_IDI_9) {
      _MenuBlock_360159546_IDI_9 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(0, '9');
      }
    }
  } else {
    _MenuBlock_360159546_IDI_9 = 0;
  }
  if (_gtv7) {
    _dispTempLength2 = ((_MenuBlock_360159546_MNO)).length();
    if (_disp6oldLength > _dispTempLength2) {
      _isNeedClearDisp2 = 1;
    }
    _disp6oldLength = _dispTempLength2;
    _lcd2.setCursor(int((20 - _dispTempLength2) / 2), 0);
    _lcd2.print((_MenuBlock_360159546_MNO));
  } else {
    if (_disp6oldLength > 0) {
      _isNeedClearDisp2 = 1;
      _disp6oldLength = 0;
    }
  }
  if (_gtv7) {
    _dispTempLength2 = ((_MenuBlock_360159546_VNO)).length();
    if (_disp7oldLength > _dispTempLength2) {
      _isNeedClearDisp2 = 1;
    }
    _disp7oldLength = _dispTempLength2;
    _lcd2.setCursor(int((20 - _dispTempLength2) / 2), 1);
    _lcd2.print((_MenuBlock_360159546_VNO));
  } else {
    if (_disp7oldLength > 0) {
      _isNeedClearDisp2 = 1;
      _disp7oldLength = 0;
    }
  }
  if (_trgrt1) _trgr1 = 0;
  if (((_menuValueArray_long[0])) == ((_menuValueArray_long[1]))) _trgr1 = 1;
  if (!(_gtv6)) {
    if (_trgrt1I) {
      _trgrt1 = 0;
    } else {
      _trgrt1 = 1;
      _trgrt1I = 1;
    }
  } else {
    _trgrt1 = 0;
    _trgrt1I = 0;
  };
  _gtv7 = ( (_gtv6) && (!(_trgr1)) );
  _gtv8 = ( (_trgr1) && (_gtv6) );
  if (_trgrt1) {
    _menuValueArray_long[0] = 0L;
  }
  if (_gtv8) {
    _tempVariable_bool  =  1;
    if ( ! _MenuBlock_47814740_OEIS ) {
      _MenuBlock_47814740_OEIS = 1;
      _MainMenus[1].currentItem = _MenuItems[1];
      (_MainMenus[1]).tempString = "";
    }
    _tempVariable_byte = pgm_read_byte(&_menuParametrsArray[((_MainMenus[1].currentItem ).startInArrayIndex) + 10]);
    _MenuBlock_47814740_MNO = _readStringFromProgmem ((char*)pgm_read_word(&(_flprogMenuStringsArray[_tempVariable_byte - 1])));
    _MenuBlock_47814740_VNO = _menuOutputValueString (1);
    _tempVariable_byte  =  pgm_read_byte(&_menuParametrsArray[(((_MainMenus[1]).currentItem).startInArrayIndex) + 12]);
    if (_tempVariable_byte == 0 ) {
      _MenuBlock_47814740_ASO_1 =  "";
    } else {
      _MenuBlock_47814740_ASO_1 =  _readStringFromProgmem ((char*)pgm_read_word(&(_flprogMenuStringsArray[_tempVariable_byte - 1])));
    }
  } else {
    _tempVariable_bool  =  0;
    if (_MenuBlock_47814740_OEIS) {
      _MenuBlock_47814740_OEIS = 0;
      _menuUpdateToEEpromItems();
    }
    _MenuBlock_47814740_ASO_1 =  "";
    _MenuBlock_47814740_MNO = "";
    _MenuBlock_47814740_VNO = "";
  }
  if (_gtv20) {
    if ( ! _MenuBlock_47814740_OMUIS) {
      _MenuBlock_47814740_OMUIS = 1; if (_tempVariable_bool) {
        _menuUpEvents(1);
        _menuUpdateToEEpromItems();
      }
    }
  } else {
    _MenuBlock_47814740_OMUIS = 0;
  }
  if (_gtv21) {
    if ( ! _MenuBlock_47814740_OMDIS) {
      _MenuBlock_47814740_OMDIS = 1; if (_tempVariable_bool) {
        _menuDownEvents(1);
        _menuUpdateToEEpromItems();
      }
    }
  } else {
    _MenuBlock_47814740_OMDIS = 0;
  }
  if (_gtv18) {
    if ( ! _MenuBlock_47814740_OEMIS) {
      _MenuBlock_47814740_OEMIS = 1; if (_tempVariable_bool) {
        _menuEnterTheMenuEvents (1);
        _menuUpdateToEEpromItems();
      }
    }
  } else {
    _MenuBlock_47814740_OEMIS = 0;
  }
  if (_gtv19) {
    if ( ! _MenuBlock_47814740_OExFMIS) {
      _MenuBlock_47814740_OExFMIS = 1; if (_tempVariable_bool) {
        _menuExitFromMenuEvents (1);
        _menuUpdateToEEpromItems();
      }
    }
  } else {
    _MenuBlock_47814740_OExFMIS = 0;
  }
  if (0) {
    if ( ! _MenuBlock_47814740_OVUIS) {
      _MenuBlock_47814740_OVUIS = 1;
      if (_tempVariable_bool) {
        _valueUpEvents(1);
        _MenuBlock_47814740_VUDST = millis();
      }
    } if (_tempVariable_bool) {
      if (_MenuBlock_47814740_VUDSM == 0) {
        if (_isTimer(_MenuBlock_47814740_VUDST , 2000 )) {
          _MenuBlock_47814740_VUDSM = 1;
          _MenuBlock_47814740_VUDSPT = millis();
          _MenuBlock_47814740_VUDPT  = 500;
        }
      }  else {
        if (_MenuBlock_47814740_VUDSM == 1) {
          if (_isTimer(_MenuBlock_47814740_VUDST , 4000 )) {
            _MenuBlock_47814740_VUDSM = 2;
            _MenuBlock_47814740_VUDPT  = 200;
          }
        } if (_isTimer(_MenuBlock_47814740_VUDSPT , _MenuBlock_47814740_VUDPT )) {
          _valueUpEvents(1);
          _MenuBlock_47814740_VUDSPT = millis();
        }
      }
    }
  } else {
    _MenuBlock_47814740_OVUIS = 0;
    if ( ! ( 0)) {
      _MenuBlock_47814740_VUDSM = 0;
    }
  }
  if (0) {
    if ( ! _MenuBlock_47814740_OVDIS) {
      _MenuBlock_47814740_OVDIS = 1;
      if (_tempVariable_bool) {
        _valueDownEvents(1);
        _MenuBlock_47814740_VUDST = millis();
      }
    } if (_tempVariable_bool) {
      if (_MenuBlock_47814740_VUDSM == 0) {
        if (_isTimer(_MenuBlock_47814740_VUDST , 2000 )) {
          _MenuBlock_47814740_VUDSM = 1;
          _MenuBlock_47814740_VUDSPT = millis();
          _MenuBlock_47814740_VUDPT  = 500;
        }
      }  else {
        if (_MenuBlock_47814740_VUDSM == 1) {
          if (_isTimer(_MenuBlock_47814740_VUDST , 4000 )) {
            _MenuBlock_47814740_VUDSM = 2;
            _MenuBlock_47814740_VUDPT  = 200;
          }
        } if (_isTimer(_MenuBlock_47814740_VUDSPT , _MenuBlock_47814740_VUDPT )) {
          _valueDownEvents(1);
          _MenuBlock_47814740_VUDSPT = millis();
        }
      }
    }
  } else {
    _MenuBlock_47814740_OVDIS = 0;
    if ( ! ( 0)) {
      _MenuBlock_47814740_VUDSM = 0;
    }
  }
  if (_gtv17) {
    if ( ! _MenuBlock_47814740_IDI_0) {
      _MenuBlock_47814740_IDI_0 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(1, '0');
      }
    }
  } else {
    _MenuBlock_47814740_IDI_0 = 0;
  }
  if (_gtv1) {
    if ( ! _MenuBlock_47814740_IDI_1) {
      _MenuBlock_47814740_IDI_1 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(1, '1');
      }
    }
  } else {
    _MenuBlock_47814740_IDI_1 = 0;
  }
  if (_gtv2) {
    if ( ! _MenuBlock_47814740_IDI_2) {
      _MenuBlock_47814740_IDI_2 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(1, '2');
      }
    }
  } else {
    _MenuBlock_47814740_IDI_2 = 0;
  }
  if (_gtv3) {
    if ( ! _MenuBlock_47814740_IDI_3) {
      _MenuBlock_47814740_IDI_3 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(1, '3');
      }
    }
  } else {
    _MenuBlock_47814740_IDI_3 = 0;
  }
  if (_gtv4) {
    if ( ! _MenuBlock_47814740_IDI_4) {
      _MenuBlock_47814740_IDI_4 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(1, '4');
      }
    }
  } else {
    _MenuBlock_47814740_IDI_4 = 0;
  }
  if (_gtv5) {
    if ( ! _MenuBlock_47814740_IDI_5) {
      _MenuBlock_47814740_IDI_5 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(1, '5');
      }
    }
  } else {
    _MenuBlock_47814740_IDI_5 = 0;
  }
  if (_gtv13) {
    if ( ! _MenuBlock_47814740_IDI_6) {
      _MenuBlock_47814740_IDI_6 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(1, '6');
      }
    }
  } else {
    _MenuBlock_47814740_IDI_6 = 0;
  }
  if (_gtv14) {
    if ( ! _MenuBlock_47814740_IDI_7) {
      _MenuBlock_47814740_IDI_7 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(1, '7');
      }
    }
  } else {
    _MenuBlock_47814740_IDI_7 = 0;
  }
  if (_gtv15) {
    if ( ! _MenuBlock_47814740_IDI_8) {
      _MenuBlock_47814740_IDI_8 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(1, '8');
      }
    }
  } else {
    _MenuBlock_47814740_IDI_8 = 0;
  }
  if (_gtv16) {
    if ( ! _MenuBlock_47814740_IDI_9) {
      _MenuBlock_47814740_IDI_9 = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(1, '9');
      }
    }
  } else {
    _MenuBlock_47814740_IDI_9 = 0;
  }
  if (_gtv22) {
    if ( ! _MenuBlock_47814740MinusIOS) {
      _MenuBlock_47814740MinusIOS = 1;
      if (_tempVariable_bool) {
        _menuDirectInputKeyPressEvents(1, '-' );
      }
    }
  } else {
    _MenuBlock_47814740MinusIOS = 0;
  }
  if (_gtv8) {
    _dispTempLength2 = ((_MenuBlock_47814740_MNO)).length();
    if (_disp2oldLength > _dispTempLength2) {
      _isNeedClearDisp2 = 1;
    }
    _disp2oldLength = _dispTempLength2;
    _lcd2.setCursor(int((20 - _dispTempLength2) / 2), 0);
    _lcd2.print((_MenuBlock_47814740_MNO));
  } else {
    if (_disp2oldLength > 0) {
      _isNeedClearDisp2 = 1;
      _disp2oldLength = 0;
    }
  }
  if (_gtv8) {
    _dispTempLength2 = ((((_MenuBlock_47814740_VNO) + (String(" ")) + (_MenuBlock_47814740_ASO_1)))).length();
    if (_disp1oldLength > _dispTempLength2) {
      _isNeedClearDisp2 = 1;
    }
    _disp1oldLength = _dispTempLength2;
    _lcd2.setCursor(int((20 - _dispTempLength2) / 2), 1);
    _lcd2.print((((_MenuBlock_47814740_VNO) + (String(" ")) + (_MenuBlock_47814740_ASO_1))));
  } else {
    if (_disp1oldLength > 0) {
      _isNeedClearDisp2 = 1;
      _disp1oldLength = 0;
    }
  }
  if ((_gtv11) > (Menu_Value_2_TVD)) _trgr3 = 0;
  if ((_gtv11) < (Menu_Value_1_TVD)) _trgr3 = 1;
  digitalWrite(16, !(_trgr3));
  if (!(_gtv6)) {
    Menu_Value_1_TVD = _menuValueArray_int[3];
  }
  _gtv10 = _trgr3;
  if (!(_gtv6)) {
    Menu_Value_2_TVD = _menuValueArray_int[1];
  }
  if ((_gtv11) < (Menu_Value_4_TVD)) _trgr4 = 0;
  if ((_gtv11) > (Menu_Value_3_TVD)) _trgr4 = 1;
  if (!(_gtv6)) {
    Menu_Value_3_TVD = _menuValueArray_int[2];
  }
  digitalWrite(15, !(_trgr4));
  _gtv12 = _trgr4;
  if (!(_gtv6)) {
    Menu_Value_4_TVD = _menuValueArray_int[0];
  }
  digitalWrite(17, ( (( (_gtv12) || (_gtv10) )) && ((_menuValueArray_bool[0])) ));
  if (_gtv10)
  {
    _swi1 = String("Heater - ON");
  }
  else
  {
    _swi1 = String("Heater - OFF");
  }
  if (_gtv12)
  {
    _swi2 = String("Ventilation - ON");
  }
  else
  {
    _swi2 = String("Ventilation - OFF");
  }
  if (!(_gtv6)) {
    _dispTempLength2 = ((((String("Temp - ")) + (( _floatToStringWitRaz(_gtv11, 2))) + (String(" C"))))).length();
    if (_disp3oldLength > _dispTempLength2) {
      _isNeedClearDisp2 = 1;
    }
    _disp3oldLength = _dispTempLength2;
    _lcd2.setCursor(int((20 - _dispTempLength2) / 2), 0);
    _lcd2.print((((String("Temp - ")) + (( _floatToStringWitRaz(_gtv11, 2))) + (String(" C")))));
  } else {
    if (_disp3oldLength > 0) {
      _isNeedClearDisp2 = 1;
      _disp3oldLength = 0;
    }
  }
  if (!(_gtv6)) {
    _dispTempLength2 = ((_swi1)).length();
    if (_disp4oldLength > _dispTempLength2) {
      _isNeedClearDisp2 = 1;
    }
    _disp4oldLength = _dispTempLength2;
    _lcd2.setCursor(int((20 - _dispTempLength2) / 2), 1);
    _lcd2.print((_swi1));
  } else {
    if (_disp4oldLength > 0) {
      _isNeedClearDisp2 = 1;
      _disp4oldLength = 0;
    }
  }
  if (!(_gtv6)) {
    _dispTempLength2 = ((_swi2)).length();
    if (_disp5oldLength > _dispTempLength2) {
      _isNeedClearDisp2 = 1;
    }
    _disp5oldLength = _dispTempLength2;
    _lcd2.setCursor(int((20 - _dispTempLength2) / 2), 2);
    _lcd2.print((_swi2));
  } else {
    if (_disp5oldLength > 0) {
      _isNeedClearDisp2 = 1;
      _disp5oldLength = 0;
    }
  }




}
String  _floatToStringWitRaz(float value, int raz)
{

  return String(value, raz);
}
bool _isTimer(unsigned long startTime, unsigned long period )
{
  unsigned long currentTime;
  currentTime = millis();
  if (currentTime >= startTime) {
    return (currentTime >= (startTime + period));
  } else {
    return (currentTime >= (4294967295 - startTime + period));
  }
}
void _menuUpEvents (byte menuIndex)
{
  (_MainMenus[menuIndex]).tempString = "";
  byte tempIndex = pgm_read_byte(&_menuParametrsArray[((_MainMenus[menuIndex]).currentItem).startInArrayIndex]);
  byte parIndex = pgm_read_byte(&_menuParametrsArray[ (((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 5]);
  byte parentStartIndex;
  byte parentStopIndex;
  if (parIndex == 0) {
    parentStartIndex = (_MainMenus[menuIndex]).startIndex;
    parentStopIndex = (_MainMenus[menuIndex]).stopIndex;
  }
  else {
    parentStartIndex = pgm_read_byte(&_menuParametrsArray[( (_MenuItems[parIndex - 1]).startInArrayIndex) + 3]);
    parentStopIndex = pgm_read_byte(&_menuParametrsArray[( (_MenuItems[parIndex - 1]).startInArrayIndex) + 4]);
  }
  if (tempIndex == parentStartIndex) {
    if ((_MainMenus[menuIndex]).isSwitchMenuAroundRing) {
      (_MainMenus[menuIndex]).currentItem = _MenuItems[parentStopIndex - 1];
      return;
    } else {
      return;
    }
  }
  (_MainMenus[menuIndex]).currentItem = _MenuItems[tempIndex - 2];
  return;
}
void _menuDownEvents (byte menuIndex)
{
  (_MainMenus[menuIndex]).tempString = "";
  byte tempIndex = pgm_read_byte(&_menuParametrsArray[((_MainMenus[menuIndex]).currentItem).startInArrayIndex]);
  byte parIndex = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 5]);
  byte parentStartIndex;
  byte parentStopIndex;
  if (parIndex == 0) {
    parentStartIndex = (_MainMenus[menuIndex]).startIndex;
    parentStopIndex = (_MainMenus[menuIndex]).stopIndex;
  }
  else {
    parentStartIndex = pgm_read_byte(&_menuParametrsArray[( (_MenuItems[parIndex - 1]).startInArrayIndex) + 3]);
    parentStopIndex = pgm_read_byte(&_menuParametrsArray[((_MenuItems[parIndex - 1]).startInArrayIndex) + 4]);
  }
  if (tempIndex == parentStopIndex) {
    if ((_MainMenus[menuIndex]).isSwitchMenuAroundRing) {
      (_MainMenus[menuIndex]).currentItem = _MenuItems[parentStartIndex - 1];
      return;
    } else {
      return;
    }
  }
  (_MainMenus[menuIndex]).currentItem = _MenuItems[tempIndex];
  return;
}
void _valueUpEvents (byte menuIndex)
{
  byte valIndex = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 2]);
  byte itemType = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 1]);
  byte indexMax = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 6]);
  byte indexStep = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 8]);
  if (itemType == 3) {
    _menuValueArray_bool[valIndex - 1 ] = 1;
    return;
  }
  if (itemType == 4) {
    _menuValueArray_int[valIndex - 1] = _menuValueArray_int[valIndex - 1] + (pgm_read_word(&_menuConstantValuesArray_int[indexStep - 1]));
  }
  if (itemType == 5) {
    _menuValueArray_long[valIndex - 1] = _menuValueArray_long[valIndex - 1] + (pgm_read_dword(&_menuConstantValuesArray_long[indexStep - 1]));
  }
}
void _valueDownEvents (byte menuIndex)
{

  byte valIndex = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 2]);
  byte itemType = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 1]);
  byte indexMin = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 7]);
  byte indexStep = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 8]);
  if (itemType == 3) {
    _menuValueArray_bool[valIndex - 1] = 0;
    return;
  }
  if (itemType == 4) {
    _menuValueArray_int[valIndex - 1] = _menuValueArray_int[valIndex - 1] - (pgm_read_word(&_menuConstantValuesArray_int[indexStep - 1]));
  }
  if (itemType == 5) {
    _menuValueArray_long[valIndex - 1] = _menuValueArray_long[valIndex - 1] - (pgm_read_dword(&_menuConstantValuesArray_long[indexStep - 1]));
  }
}
void _menuEnterTheMenuEvents (byte menuIndex)
{
  byte itemType =  pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 1]);
  if (!(itemType == 0)) {
    return;
  }
  byte tempIndex = pgm_read_byte(&_menuParametrsArray[((_MainMenus[menuIndex]).currentItem).startInArrayIndex]);
  byte newIndex = pgm_read_byte(&_menuParametrsArray[((_MenuItems[tempIndex - 1]).startInArrayIndex) + 3]);
  if (newIndex == 0) {
    return;
  }
  (_MainMenus[menuIndex]).tempString = "";
  (_MainMenus[menuIndex]).currentItem = _MenuItems[newIndex - 1];
  return;
}
void _menuExitFromMenuEvents (byte menuIndex)
{
  byte parIndex = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 5]);
  if (parIndex == 0) {
    return;
  }
  (_MainMenus[menuIndex]).tempString = "";
  (_MainMenus[menuIndex]).currentItem = _MenuItems[parIndex - 1];
  return;
}
String _menuOutputValueString (byte menuIndex)
{
  byte itemType = pgm_read_byte(&_menuParametrsArray[ (((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 1]);
  byte valueStrIndex = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 11]);
  if (itemType == 0) {
    if ( valueStrIndex == 0) {
      return "";
    } else {
      return _readStringFromProgmem ((char*)pgm_read_word(&(_flprogMenuStringsArray[valueStrIndex - 1])));
    }
  }
  byte valIndex = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 2]);
  byte indexMin = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 7]);
  byte indexMax = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 6]);
  if ( valIndex == 0) {
    return "";
  }
  byte convFormat = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 9]);
  if (itemType == 3) {
    return _convertBoolean(itemType, convFormat, valIndex, indexMax, indexMin);
  }
  if (itemType == 4) {
    return _convertNamber(itemType, convFormat, valIndex, indexMax, indexMin);
  }
  if (itemType == 5) {
    return _convertNamber(itemType, convFormat, valIndex, indexMax, indexMin);
  }
  return "";
}
void _menuDirectInputKeyPressEvents(byte menuIndex, char inputSymbol)
{
  byte valIndex = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 2]);
  byte temp;
  if (valIndex == 0) {
    return;
  }
  byte itemType = pgm_read_byte(&_menuParametrsArray[(((_MainMenus[menuIndex]).currentItem).startInArrayIndex) + 1]);
  if (itemType == 7) {
    return;
  }
  if (itemType == 3) {
    (_MainMenus[menuIndex]).tempString = "";
  }
  if (inputSymbol == '-') {
    temp = ((_MainMenus[menuIndex]).tempString).length() ;  if (temp == 0) {
      (_MainMenus[menuIndex]).tempString = "-";
    } else
    { if (((_MainMenus[menuIndex]).tempString).charAt(0)  == '-') {
        (_MainMenus[menuIndex]).tempString = ((_MainMenus[menuIndex]).tempString).substring(1);
      } else
      {
        (_MainMenus[menuIndex]).tempString = "-" + (_MainMenus[menuIndex]).tempString;
      }
    }
  } else {
    (_MainMenus[menuIndex]).tempString = (_MainMenus[menuIndex]).tempString + inputSymbol;
  }
  if (itemType == 3) {
    _menuValueArray_bool[valIndex - 1]  =  ((((_MainMenus[menuIndex]).tempString )).toInt());
  }
  if (itemType == 4) {
    _menuValueArray_int[valIndex - 1]  =  (((_MainMenus[menuIndex]).tempString )).toInt();
  }
  if (itemType == 5) {
    _menuValueArray_long[valIndex - 1]  =  (((_MainMenus[menuIndex]).tempString ).toInt());
  }
}
void _menuUpdateToEEpromItems()
{
  EEPROM.updateLong(2, (_menuValueArray_long[1]));
  EEPROM.updateInt(6, (_menuValueArray_int[0]));
  EEPROM.updateBit(1, 0, (_menuValueArray_bool[0]));
  EEPROM.updateInt(8, (_menuValueArray_int[1]));
  EEPROM.updateInt(10, (_menuValueArray_int[2]));
  EEPROM.updateInt(12, (_menuValueArray_int[3]));
}
String _readStringFromProgmem (char *string)
{
  String result = String("");
  while (pgm_read_byte(string) != '\0')
  {
    result = result + char(pgm_read_byte(string));
    string++;
  }
  return result;
}
String _convertNamber(byte itemType, byte convFormat, byte valIndex, byte indexMax, byte indexMin)
{
  if (itemType == 4) {
    if (convFormat == 4) {
      return String((_menuValueArray_int[valIndex - 1 ]), DEC);
    }
    if (convFormat == 5) {
      return String((_menuValueArray_int[valIndex - 1]), HEX);
    }
    if (convFormat == 6) {
      return String((_menuValueArray_int[valIndex - 1]), BIN);
    }
  }
  if (itemType == 5) {
    if (convFormat == 4) {
      return String((_menuValueArray_long[valIndex - 1 ]), DEC);
    }
    if (convFormat == 5) {
      return String((_menuValueArray_long[valIndex - 1]), HEX);
    }
    if (convFormat == 6) {
      return String((_menuValueArray_long[valIndex - 1]), BIN);
    }
  }
}
String _convertBoolean(byte itemType, byte convFormat, byte valIndex, byte indexMax, byte indexMin)
{
  if (convFormat == 1) {
    if (_menuValueArray_bool[valIndex - 1]) {
      return "1";
    } else {
      return "0";
    }
  }
  if (convFormat == 2) {
    if (_menuValueArray_bool[valIndex - 1]) {
      return "True";
    } else {
      return "False";
    }
  }
  if (convFormat == 3) {
    if (_menuValueArray_bool[valIndex - 1 ]) {
      return "";
    } else {
      return "";
    }
  }
  if (_menuValueArray_bool[valIndex - 1]) {
    return _readStringFromProgmem ((char*)pgm_read_word(&(_flprogMenuStringsArray[indexMax - 1])));
  } else {
    return _readStringFromProgmem ((char*)pgm_read_word(&(_flprogMenuStringsArray[indexMin - 1])));
  }
}
float _convertDS18x2xData(byte type_s, byte data[12])
{
  int16_t raw = (data[1] << 8) | data[0];
  if (type_s)
  {
    raw = raw << 3;
    if (data[7] == 0x10) {
      raw = (raw & 0xFFF0) + 12 - data[6];
    }
  }
  else
  {
    byte cfg = (data[4] & 0x60);
    if (cfg == 0x00) raw = raw & ~7;   else if (cfg == 0x20) raw = raw & ~3;  else if (cfg == 0x40) raw = raw & ~1;
  }
  return  (float)raw / 16.0;
}
float _readDS18_ow12(byte addr[8], byte type_s)
{ byte data[12];
  byte i;
  _ow12.reset();
  _ow12.select(addr);
  _ow12.write(0xBE);
  for ( i = 0; i < 9; i++) {
    data[i] = _ow12.read();
  }
  _ow12.reset();
  _ow12.select(addr);
  _ow12.write(0x44, 1);
  return _convertDS18x2xData(type_s, data);
}
bool _oneWireSeach (byte array[], OneWire ow )
{
  byte temp[8];
  byte i;
  if ( !ow.search(temp)) {
    return false;
  }
  if (OneWire::crc8(temp, 7) != temp[7]) {
    return false;
  }

  switch (temp[0]) {
    case 0x10:
      array[8] = 1;
      break;
    case 0x28:
      array[8] = 0;
      break;
    case 0x22:
      array[8] = 0;
      break;
    default:
      return false;
  }

  for ( i = 0; i < 8; i++) {
    array[i] = temp[i];
  }
  return true;
}

Fontes do projeto

» Esquema com proteção e teclado do teclado LCD
» Esquema com proteção e teclado do teclado LCD
» Esquema com teclado e resistência matricial
» Esquema com teclado e sensor matricial

Bem, isso é tudo, se algo não estiver claro, faça perguntas nos comentários - responderei .

Criando menus usando FLProg

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