/* uint8_t count;
  Serial.print(".");
 // delay(1000);                                // every second,
  for (i=0; i < TOTAL_PINS; i++) {
    if (interrupt_count[i] != 0) {            // look at all the interrupted pins
      count=interrupt_count[i];               // store its count since the last iteration
      interrupt_count[i]=0;                   // and reset it to 0.
      Serial.print("Count for pin ");
      if (i == 50) { Serial.print("MISO"); }  // then tell the user what it was, in a friendly way.
      else if (i == 51) { Serial.print("MOSI"); }
      else if (i == 52) { Serial.print("SCK"); }
      else if (i == 53) { Serial.print("SS"); }
      else if (i < FIRST_ANALOG_PIN) {
        Serial.print("D");
        Serial.print(i, DEC);
      } else {
        Serial.print("A");
        Serial.print(i-FIRST_ANALOG_PIN, DEC);
      }
      Serial.print(" is ");
      Serial.println(count, DEC);
    }
  }
  if (currentPIN3Count != pin3Count) {        // Print our monotonically increasing counter (no reset to 0)
      Serial.print(PIN3TEXT);
      Serial.print(" count update: "); Serial.print(pin3Count, DEC); Serial.println();
      currentPIN3Count=pin3Count;
  }

  */
/*
 Serial.print("Port : A8 " );
 Serial.print(A8);
Serial.print(" digitalPinToPort(A8)::: " );
 Serial.println( digitalPinToPort(A8));

 
 Serial.print("Port : A9 " );
 Serial.print(A9);
Serial.print(" digitalPinToPort(A9)::: " );
 Serial.println( digitalPinToPort(A9));

 
 Serial.print("Port : A10 " );
 Serial.print(A10);
Serial.print(" digitalPinToPort(A10)::: " );
 Serial.println( digitalPinToPort(A10));
 */