/***************************************************
  This is an example sketch for our optical Fingerprint sensor

  Designed specifically to work with the Adafruit BMP085 Breakout
  ----> http://www.adafruit.com/products/751

  These displays use TTL Serial to communicate, 2 pins are required to
  interface
  Adafruit invests time and resources providing this open source code,
  please support Adafruit and open-source hardware by purchasing
  products from Adafruit!

  Written by Limor Fried/Ladyada for Adafruit Industries.
  BSD license, all text above must be included in any redistribution
 ****************************************************/

#include <Adafruit_Fingerprint.h>
#include <Streaming.h>
#if ARDUINO >= 100
 #include <SoftwareSerial.h>
#else
 #include <NewSoftSerial.h>
#endif

uint8_t getFingerprintEnroll(uint8_t id);


// pin #2 is IN from sensor (GREEN wire)
// pin #3 is OUT from arduino  (WHITE wire)
#if ARDUINO >= 100
SoftwareSerial mySerial(A5, A4);// tx, rx
#else
NewSoftSerial mySerial(2, 3);
#endif

Adafruit_Fingerprint finger = Adafruit_Fingerprint(&mySerial);

void setup()
{
    Serial.begin(38400);
    Serial.println("fingertest");

    // set the data rate for the sensor serial port
    finger.begin(19200);

    if (finger.verifyPassword()) {
        Serial.println("Found fingerprint sensor!");
    } else {
        Serial.println("Did not find fingerprint sensor :(");
        while (1);
    }
}

void loop()                     // run over and over again
{
    Serial.println("Type in the ID # you want to save this finger as...");
    uint8_t id = 0;
    while (true) {
        while (! Serial.available());
        char c = Serial.read();
        if (! isdigit(c)) break;
        id *= 10;
        id += c - '0';
    }
    Serial.print("Enrolling ID #");
    Serial.println(id);

    while (! getFingerprintEnroll(id) );
}

uint8_t getFingerprintEnroll(uint8_t id) 
{
    uint8_t p = -1;
    Serial.println("Waiting for valid finger to enroll");
    while (p != FINGERPRINT_OK) {
        p = finger.getImage();
        switch (p) {
            case FINGERPRINT_OK:
            Serial.println("Image taken");
            break;
            case FINGERPRINT_NOFINGER:
            //Serial.println(".");
            break;
            case FINGERPRINT_PACKETRECIEVEERR:
            Serial.println("Communication error");
            break;
            case FINGERPRINT_IMAGEFAIL:
            Serial.println("Imaging error");
            break;
            default:
            Serial.println("Unknown error");
            break;
        }
    }

    // OK success!

    p = finger.image2Tz(1);
    switch (p) {
        case FINGERPRINT_OK:
        Serial.println("Image converted");
        break;
        case FINGERPRINT_IMAGEMESS:
        Serial.println("Image too messy");
        return p;
        case FINGERPRINT_PACKETRECIEVEERR:
        Serial.println("Communication error");
        return p;
        case FINGERPRINT_FEATUREFAIL:
        Serial.println("Could not find fingerprint features");
        return p;
        case FINGERPRINT_INVALIDIMAGE:
        Serial.println("Could not find fingerprint features");
        return p;
        default:
        Serial.println("Unknown error");
        return p;
    }

    Serial.println("Remove finger");
    delay(2000);
    p = 0;
    while (p != FINGERPRINT_NOFINGER) {
        p = finger.getImage();
    }

    p = -1;
    Serial.println("Place same finger again");
    while (p != FINGERPRINT_OK) {
        p = finger.getImage();
        switch (p) {
            case FINGERPRINT_OK:
            Serial.println("Image taken");
            break;
            case FINGERPRINT_NOFINGER:
            //Serial.print(".");
            break;
            case FINGERPRINT_PACKETRECIEVEERR:
            Serial.println("Communication error");
            break;
            case FINGERPRINT_IMAGEFAIL:
            Serial.println("Imaging error");
            break;
            default:
            Serial.println("Unknown error");
            break;
        }
    }

    // OK success!

    p = finger.image2Tz(2);
    switch (p) {
        case FINGERPRINT_OK:
        Serial.println("Image converted");
        break;
        case FINGERPRINT_IMAGEMESS:
        Serial.println("Image too messy");
        return p;
        case FINGERPRINT_PACKETRECIEVEERR:
        Serial.println("Communication error");
        return p;
        case FINGERPRINT_FEATUREFAIL:
        Serial.println("Could not find fingerprint features");
        return p;
        case FINGERPRINT_INVALIDIMAGE:
        Serial.println("Could not find fingerprint features");
        return p;
        default:
        Serial.println("Unknown error");
        return p;
    }


    // OK converted!
    p = finger.createModel();
    if (p == FINGERPRINT_OK) {
        Serial.println("Prints matched!");
    } else if (p == FINGERPRINT_PACKETRECIEVEERR) {
        Serial.println("Communication error");
        return p;
    } else if (p == FINGERPRINT_ENROLLMISMATCH) {
        Serial.println("Fingerprints did not match");
        return p;
    } else {
        Serial.println("Unknown error");
        return p;
    }

    p = finger.storeModel(id);
    if (p == FINGERPRINT_OK) {
        Serial.println("Stored!");
    } else if (p == FINGERPRINT_PACKETRECIEVEERR) {
        Serial.println("Communication error");
        return p;
    } else if (p == FINGERPRINT_BADLOCATION) {
        Serial.println("Could not store in that location");
        return p;
    } else if (p == FINGERPRINT_FLASHERR) {
        Serial.println("Error writing to flash");
        return p;
    } else {
        Serial.println("Unknown error");
        return p;
    }
}