/* Define shift register pins used for seven segment display */
#define LATCH_DIO 4
#define CLK_DIO 7
#define DATA_DIO 8

/* Segment byte maps for numbers 0 to 9 */
const byte SEGMENT_MAP[] = {
  0xC0,0xF9,0xA4,0xB0,0x99,0x92,0x82,0xF8,0X80,0X90};
/* Byte maps to select digit 1 to 4 */
const byte SEGMENT_SELECT[] = {0xF1,0xF2,0xF4,0xF8};

byte x=0;
byte x1=0;
byte x2=0;
byte x3=0;

#define PinA 1    //  1ere sortie du codeur
#define PinB 0    //  2e sortie du codeur

volatile boolean mouvement;
volatile boolean up;

unsigned int valeur = 0;  

// routine déclanchée quand le signal A passe de haut a bas


void setup ()
{
  /* Set DIO pins to outputs */
  pinMode(LATCH_DIO,OUTPUT);
  pinMode(CLK_DIO,OUTPUT);
  pinMode(DATA_DIO,OUTPUT);

  pinMode(PinA,INPUT);
  pinMode(PinB,INPUT);  

  // activation des pullups internes de l'Arduino, si on n'utilise pas de pullups externes.
  //  digitalWrite (PinA, HIGH); 
  //  digitalWrite (PinB, HIGH); 

  attachInterrupt (0,routineInterruption,FALLING);   // interruption sur front descendant

  Serial.begin (9600);   // initialisation du moniteur série
  Serial.println("Veuillez tourner le bouton");
}

void routineInterruption ()  {     
  //if (digitalRead(PinA))
    up = digitalRead(PinA);
  
  //  else
  //  up = !digitalRead(PinB);
  mouvement = true;
}


/* Main program */
void loop()
{

  /* Update the display with the current counter value */


  if (mouvement)  {		  // on a détecté une rotation du bouton  
    if (up)
      //valeur++;
      incrementBCD(&valeur);
    else
      //valeur--;
      decrementBCD(&valeur);
    mouvement= false;         

    Serial.println (valeur);

  }

  WriteNumberToSegment(0 , (valeur&0xF000)>>12);
    delay(1);
    WriteNumberToSegment(1 , (valeur&0x0F00)>>8);
    delay(1);
    WriteNumberToSegment(2 , (valeur&0x00F0)>>4);
    delay(1);
    WriteNumberToSegment(3 , (valeur&0x000F));
    delay(1);
}

/* Write a decimal number between 0 and 9 to one of the 4 digits of the display */
void WriteNumberToSegment(byte Segment, byte Value)
{
  digitalWrite(LATCH_DIO,LOW);
  shiftOut(DATA_DIO, CLK_DIO, MSBFIRST, SEGMENT_MAP[Value]);
  shiftOut(DATA_DIO, CLK_DIO, MSBFIRST, SEGMENT_SELECT[Segment] );
  digitalWrite(LATCH_DIO,HIGH);
}

void incrementBCD(unsigned int *cnt) { 
  (*cnt)++;    
  if ((*cnt & 0x000F) > 0x0009) *cnt += 6; 
  if ((*cnt & 0x00F0) > 0x0090) *cnt += 0x0060;
  if ((*cnt & 0x0F00) > 0x0900) *cnt += 0x0600; 
  if ((*cnt & 0xF000) > 0x9000) *cnt += 0x6000;  
} 

void decrementBCD(unsigned int *cnt) { 
  (*cnt)--;    
  if ((*cnt & 0x000F) == 0x000F) *cnt -= 6; 
  if ((*cnt & 0x00F0) == 0x00F0) *cnt -= 0x0060; 
  if ((*cnt & 0x0F00) == 0x0F00) *cnt -= 0x0600; 
  if ((*cnt & 0xF000) == 0xF000) *cnt -= 0x6000; 
}