#include "RTClib.h"
#include <Wire.h>
#include <LiquidCrystal_I2C.h>
LiquidCrystal_I2C lcd(0x27, 16, 2); // Set the LCD address to 0x27 by Teach Me Something
RTC_DS3231 rtc;
int h,m=0;
boolean x=false;
char daysOfTheWeek[7][12] = {"Sunday", "Monday", "Tuesday", "Wednesday", "Thursday", "Friday", "Saturday"};
byte arrow[8] = {B00000, B00000, B00000, B00000, B11100, B01111, B11100, B00000,};

// the 8 arrays that form each segment of the custom numbers
byte bar1[8] = 
{
        B11100,
        B11110,
        B11110,
        B11110,
        B11110,
        B11110,
        B11110,
        B11100
};
byte bar2[8] =
{
        B00111,
        B01111,
        B01111,
        B01111,
        B01111,
        B01111,
        B01111,
        B00111
};
byte bar3[8] =
{
        B11111,
        B11111,
        B00000,
        B00000,
        B00000,
        B00000,
        B11111,
        B11111
};
byte bar4[8] =
{
        B11110,
        B11100,
        B00000,
        B00000,
        B00000,
        B00000,
        B11000,
        B11100
};
byte bar5[8] =
{
        B01111,
        B00111,
        B00000,
        B00000,
        B00000,
        B00000,
        B00011,
        B00111
};
byte bar6[8] =
{
        B00000,
        B00000,
        B00000,
        B00000,
        B00000,
        B00000,
        B11111,
        B11111
};
byte bar7[8] =
{
        B00000,
        B00000,
        B00000,
        B00000,
        B00000,
        B00000,
        B00111,
        B01111
};
byte bar8[8] =
{
        B11111,
        B11111,
        B00000,
        B00000,
        B00000,
        B00000,
        B00000,
        B00000
};




void custom0(int col)
{ // uses segments to build the number 0
  lcd.setCursor(col, 0); 
  lcd.write(2);  
  lcd.write(8); 
  lcd.write(1);
  lcd.setCursor(col, 1); 
  lcd.write(2);  
  lcd.write(6);  
  lcd.write(1);
}

void custom1(int col)
{
  lcd.setCursor(col,0);
  lcd.write(32);
  lcd.write(32);
  lcd.write(1);
  lcd.setCursor(col,1);
  lcd.write(32);
  lcd.write(32);
  lcd.write(1);
}

void custom2(int col)
{
  lcd.setCursor(col,0);
  lcd.write(5);
  lcd.write(3);
  lcd.write(1);
  lcd.setCursor(col, 1);
  lcd.write(2);
  lcd.write(6);
  lcd.write(6);
}

void custom3(int col)
{
  lcd.setCursor(col,0);
  lcd.write(5);
  lcd.write(3);
  lcd.write(1);
  lcd.setCursor(col, 1);
  lcd.write(7);
  lcd.write(6);
  lcd.write(1); 
}

void custom4(int col)
{
  lcd.setCursor(col,0);
  lcd.write(2);
  lcd.write(6);
  lcd.write(1);
  lcd.setCursor(col, 1);
  lcd.write(32);
  lcd.write(32);
  lcd.write(1);
}

void custom5(int col)
{
  lcd.setCursor(col,0);
  lcd.write(2);
  lcd.write(3);
  lcd.write(4);
  lcd.setCursor(col, 1);
  lcd.write(7);
  lcd.write(6);
  lcd.write(1);
}

void custom6(int col)
{
  lcd.setCursor(col,0);
  lcd.write(2);
  lcd.write(3);
  lcd.write(4);
  lcd.setCursor(col, 1);
  lcd.write(2);
  lcd.write(6);
  lcd.write(1);
}

void custom7(int col)
{
  lcd.setCursor(col,0);
  lcd.write(2);
  lcd.write(8);
  lcd.write(1);
  lcd.setCursor(col, 1);
  lcd.write(32);
  lcd.write(32);
  lcd.write(1);
}

void custom8(int col)
{
  lcd.setCursor(col, 0); 
  lcd.write(2);  
  lcd.write(3); 
  lcd.write(1);
  lcd.setCursor(col, 1); 
  lcd.write(2);  
  lcd.write(6);  
  lcd.write(1);
}

void custom9(int col)
{
  lcd.setCursor(col, 0); 
  lcd.write(2);  
  lcd.write(3); 
  lcd.write(1);
  lcd.setCursor(col, 1); 
  lcd.write(7);  
  lcd.write(6);  
  lcd.write(1);
}

void printNumber(int value, int col) {
  if (value == 0) {
    custom0(col);
  } if (value == 1) {
    custom1(col);
  } if (value == 2) {
    custom2(col);
  } if (value == 3) {
    custom3(col);
  } if (value == 4) {
    custom4(col);
  } if (value == 5) {
    custom5(col);
  } if (value == 6) {
    custom6(col);
  } if (value == 7) {
    custom7(col);
  } if (value == 8) {
    custom8(col);
  } if (value == 9) {
    custom9(col);
  }      
}  

void setup () {
  lcd.init();
  Serial.begin(9600);
  if (! rtc.begin()) {
    Serial.println("Couldn't find RTC");
    Serial.flush();
    abort();
  }
 //  rtc.adjust(DateTime(2023, 31, 03, 19, 52, 00));  // YYYY, MM , DD , HH, MM ,SS 
  lcd.createChar(1,bar1);
  lcd.createChar(2,bar2);
  lcd.createChar(3,bar3);
  lcd.createChar(4,bar4);
  lcd.createChar(5,bar5);
  lcd.createChar(6,bar6);
  lcd.createChar(7,bar7);
  lcd.createChar(8,bar8);
}

void loop () {
    
    int d;
    DateTime now = rtc.now();
    Serial.print(now.hour(), DEC);
    Serial.print(':');
    Serial.print(now.minute(), DEC);
    Serial.print(':');
    Serial.print(now.second(), DEC);
    Serial.println();
    h= now.hour();
    d=h%10;
    printNumber(d, 3);
    d=h/10;
    printNumber(d, 0);
    h= now.minute();
    d=h%10;
    printNumber(d, 10);
    d=h/10;
    printNumber(d, 7);
    h= now.second();
    d=h/10;
    lcd.setCursor(14,1);
    lcd.print(d);
    d=h%10;
    lcd.print(d);
   
    if(x)
   {   lcd.setCursor(6, 0);
      lcd.print(" ");
      lcd.setCursor(6, 1);
      lcd.print(" ");
       lcd.setCursor(13, 0);
      lcd.print(" ");
      lcd.setCursor(13, 1);
      lcd.print(" ");
}
   else
   {
      lcd.setCursor(6, 0);
      lcd.print(".");
       lcd.setCursor(6, 1);
      lcd.print(".");
      lcd.setCursor(13, 0);
      lcd.print(".");
       lcd.setCursor(13, 1);
      lcd.print(".");
   }
    if(d>8)
    {
      lcd.clear();
      lcd.home();
      lcd.print("Date: ");
      h=now.day(); 
      d=h/10;
      lcd.print(d);
     d=h%10;
      lcd.print(d);
      lcd.print("-");
      h=now.month(); 
      d=h/10;
      lcd.print(d);
      d=h%10;
      lcd.print(d);
      lcd.print("-");
       h=now.year(); 
      d=h/10;
      lcd.print(d);
      d=h%10;
      lcd.print(d);
      
    }
      delay(1000);
      lcd.clear();
      x=!x;

}