#include <QTRSensors.h>

// This example is designed for use with six QTR-1A sensors or the first six sensors of a
// QTR-8A module.  These reflectance sensors should be connected to analog inputs 0 to 5.
// The QTR-8A's emitter control pin (LEDON) can optionally be connected to digital pin 2, 
// or you can leave it disconnected and change the EMITTER_PIN #define below from 2 to 
// QTR_NO_EMITTER_PIN.

// The main loop of the example reads the raw sensor values (uncalibrated).
// You can test this by taping a piece of 3/4" black electrical tape to a piece of white 
// paper and sliding the sensor across it.  It prints the sensor values to the serial 
// monitor as numbers from 0 (maximum reflectance) to 1023 (minimum reflectance).


#define NUM_SENSORS             6  // number of sensors used
#define NUM_SAMPLES_PER_SENSOR  4  // average 4 analog samples per sensor reading
#define EMITTER_PIN             2  // emitter is controlled by digital pin 2

// sensors 0 through 5 are connected to analog inputs 0 through 5, respectively
QTRSensorsAnalog qtra((unsigned char[]) {0, 1, 2, 3, 4, 5}, 
  NUM_SENSORS, NUM_SAMPLES_PER_SENSOR, EMITTER_PIN);
unsigned int sensorValues[NUM_SENSORS];


void setup()
{
  delay(500);
  Serial.begin(9600); // set the data rate in bits per second for serial data transmission
  delay(1000);
}


void loop()
{
  // read raw sensor values
  qtra.read(sensorValues);
  
  // print the sensor values as numbers from 0 to 1023, where 0 means maximum reflectance and
  // 1023 means minimum reflectance
  for (unsigned char i = 0; i < NUM_SENSORS; i++)
  {
    Serial.print(sensorValues[i]);
    Serial.print('\t'); // tab to format the raw data into columns in the Serial monitor
  }
  Serial.println();
  
  delay(250);
}