beerbox/beerbox.ino

#include <SPI.h>
#include <SD.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "beerbox.h"

File myFile;
const int chipSelect = 53;

char leckmich[255];
Beerbox *box;



void setup() {
  Serial.begin(115200);

  Serial.begin(9600);
  while (!Serial) {
    ; // wait for serial port to connect. Needed for Leonardo only
  }

  Serial.print("Initializing SD card...");
  // On the Ethernet Shield, CS is pin 4. It's set as an output by default.
  // Note that even if it's not used as the CS pin, the hardware SS pin
  // (10 on most Arduino boards, 53 on the Mega) must be left as an output
  // or the SD library functions will not work.
  pinMode(SS, OUTPUT);

  if (!SD.begin(chipSelect)) {
    Serial.println("initialization failed!");
    return;
  }
  Serial.println("initialization done.");

  check_for_file("p001", "per");

  box = new Beerbox;
  box = read_beerbox(box);


}


void loop() {


  Person myPerson = read_person(box, "p001");
  //read_person(box, "p002");

  while (1);



}//end loop


void check_for_file(String filename, String extension) {
  String str = filename + '.' + extension;
  char* buf = NULL;
  str.toCharArray(buf, str.length() + 1);

  if (SD.exists("p001.per")) {
    Serial.println(str + " exists.");
  }
  else {
    Serial.println(str + " doesn't exist.");
  }
}

//BEYOND THIS POINT IS THE LEYER OF BEERBOX -- ENTER AT YOUR OWN RISK

char tmp_filename[FILE_NAME_LEN + FILE_EXTENSION_LEN + 2];



Beerbox* read_beerbox(Beerbox *box) {

  File read;
  int num_read = 0;
  int index;

  char tmp[(DRINK_NAME_MAX_LENGTH + 1) * NUM_OF_DRINKS];

  int i = 0;


  read = SD.open("bb.con", FILE_READ);
  if (read == false) {

    Serial.print("error while reading!\n");
    Serial.print("-ABORT!\n\n");
    while (1);

  }

  for (i = 0 ; i < NUM_OF_DRINKS ; i++) {

    read_line_from_file(read, tmp, sizeof(tmp));

    if (strlen(tmp)) {
      sscanf(tmp, " drink number %d: %s", &index, box->drinks[i].name);

      read_line_from_file(read, tmp, sizeof(tmp));
      sscanf(tmp, " %*s %d ", &box->drinks[i].price);

      read_line_from_file(read, tmp, sizeof(tmp));
      sscanf(tmp, " %*s %d", &box->drinks[i].quantity);
    } else {
      strcpy(box->drinks[i].name, "slot empty");
      box->drinks[i].price = -1;
      box->drinks[i].quantity = -1;
    }

  }

  Serial.print(i + " drinks read!\n\n");

  for (i = 0; (i < NUM_OF_DRINKS) && (box->drinks[i].price != -1); i++) {


    sprintf(leckmich, "drink number : %s\nprice: %d\nquantity: %d\n\n", box->drinks[i].name, box->drinks[i].price, box->drinks[i].quantity);
    Serial.print(leckmich);
  }

  if (i < NUM_OF_DRINKS) {
    sprintf(leckmich, "Slots %d - %d are not in use!\n", i + 1, NUM_OF_DRINKS);
    Serial.print(leckmich);
  }

  read.close();
  return box;

}

Person read_person(Beerbox *box, char *filename) {

  Person aperson;

  File read;

  int num_read = 0;
  int index;
  int tmp_int = 0;

  char tmp[(DRINK_NAME_MAX_LENGTH + 1) * NUM_OF_DRINKS];
  char tmp_drink_name[DRINK_NAME_MAX_LENGTH + 1];

  int i = 0;
  int j = 0;

  memset(tmp_filename, 0, FILE_NAME_LEN + FILE_EXTENSION_LEN + 2);

  strcat(tmp_filename, filename);
  strcat(tmp_filename, ".");
  strcat(tmp_filename, FILE_EXTENSION);

  read = SD.open(tmp_filename, FILE_READ);
  if (read == false) {

    Serial.print("error while reading!\n");
    Serial.print("ABORT!\n\n");
    while (-1);

  }

  strcpy(aperson.file_name, filename);

  for (i = 0; i < NUM_OF_DRINKS; i++) {
    aperson.drinks_taken[i] = -1;
  }


  read_line_from_file(read, tmp, sizeof(tmp));
  strcpy(aperson.name, tmp);

  memset(aperson.rfid_uuid, 0, 13);

  read_line_from_file(read, tmp, sizeof(tmp));
  sscanf(tmp, " %*s %12s", aperson.rfid_uuid);
  Serial.print(aperson.rfid_uuid);

  read_line_from_file(read, tmp, sizeof(tmp));
  sscanf(tmp, " %*s %d", &aperson.finger_uuid);
  Serial.println(aperson.finger_uuid);


  j = 0;
  while (read_line_from_file(read, tmp, sizeof(tmp)), strlen(tmp) > 0) {

    i = 0;
    sscanf(tmp, " %*s %s", tmp_drink_name);

    for (i = 0; (i < NUM_OF_DRINKS) && (strcmp(box->drinks[i].name, tmp_drink_name)); i++) {
      //Serial.print("It´s not drink No %d: %s\n", i+1, box->drinks[i].name );

    }

    if (i == NUM_OF_DRINKS) {
      //Is it in?
      //Serial.print("Drink \"%s\" does not exist in box!\n", tmp_drink_name);
    } else {

      read_line_from_file(read, tmp, sizeof(tmp));
      sscanf(tmp, " %*s %d", &aperson.drinks_taken[i]);
      //Serial.print(">>Quantity: %d\n", aperson.drinks_taken[i].quantity);
      read_line_from_file(read, tmp, sizeof(tmp));
      //Serial.print(">>Total: %d\n\n", aperson.drinks_taken[i].total);
    }

  }


  print_person(box, &aperson);
  //comment back in once it is fixed
  //update_pers_file(box, &aperson);

  read.close();

  return aperson;
}

void print_person(Beerbox *box, Person *aperson) {

  int i = 0;

  memset(tmp_filename, 0, FILE_NAME_LEN + FILE_EXTENSION_LEN + 2);
  strcat(tmp_filename, aperson->file_name);
  strcat(tmp_filename, ".");
  strcat(tmp_filename, FILE_EXTENSION);


  sprintf(leckmich, "\nPerson is called \"%s\" and has the filename \"%s\".\n", aperson->name, tmp_filename);
  Serial.write(leckmich);
  sprintf(leckmich, "rfid_uuid:   %s\n", aperson->rfid_uuid);
  Serial.write(leckmich);
  sprintf(leckmich, "finger_uuid: %u\n", aperson->finger_uuid);
  Serial.print(leckmich);


  for (i = 0; i < NUM_OF_DRINKS; i++) {

    if (aperson->drinks_taken[i] != -1) {

      sprintf(leckmich, "\nDrink: %s\n", box->drinks[i].name);
      Serial.write(leckmich);
      sprintf(leckmich, "Consumed: %d\n", aperson->drinks_taken[i]);
      Serial.write(leckmich);
      sprintf(leckmich, "Total: %d.%02d Euro\n", aperson->drinks_taken[i]*box->drinks[i].price / 100, (aperson->drinks_taken[i]*box->drinks[i].price) % 100);
      Serial.write(leckmich);

    }

  }


}


int update_pers_file(Beerbox *box, Person *aperson) {
  File write;
  char *tmp = NULL;
  //write = fopen()
  int i = 0;

  memset(tmp_filename, 0, FILE_NAME_LEN + FILE_EXTENSION_LEN + 2);
  strcat(tmp_filename, aperson->file_name);
  strcat(tmp_filename, ".");
  strcat(tmp_filename, FILE_EXTENSION);

  write = SD.open(tmp_filename, FILE_WRITE);
  write.seek(0);

  if (write == NULL) {
    Serial.print("error while reading!\n");
    Serial.print("ABORT!\n\n");
    while (-1);

  }

  sprintf(leckmich, " %s\n", aperson->name);
  write.write(tmp, strlen(tmp));
  sprintf(leckmich, "rfid_uuid:   %s\n", aperson->rfid_uuid);
  write.write(tmp, strlen(tmp));
  sprintf(leckmich, "finger_uuid: %u\n", aperson->finger_uuid);
  write.write(tmp, strlen(tmp));

  for (i = 0; i < NUM_OF_DRINKS; i++) {

    if (aperson->drinks_taken[i] != -1) {

      sprintf(leckmich, "\nDrink: %s\n", box->drinks[i].name);
      write.write(tmp, strlen(tmp));
      sprintf(leckmich,  "Consumed: %d\n", aperson->drinks_taken[i]);
      write.write(tmp, strlen(tmp));
      sprintf(leckmich, "Total: %d\n\n", aperson->drinks_taken[i]*box->drinks[i].price);
      write.write(tmp, strlen(tmp));

    }

  }


  write.close();

  return 0;

}


char* read_from_file_until(File stream, char *str, int max_len, char until) {

  int i = 0;
  int tmp_int = 0;

  memset(str, 0, max_len);

  for (i = 0; (tmp_int != until) && (i < (max_len - 1)) && (tmp_int != -1); i++) {
    tmp_int = stream.read();
    //Serial.print("%c", tmp_int);
    str[i] = tmp_int;
  }


  if (tmp_int == -1) {

    //May occur more often as the function tries to read a certain number of drinks.
    //Serial.print("END OF FILE REACHED!\nABORT!!\n\n");

    str[0] = 0;
    return str;
  }

  if (str[0] != '\n')str[i - 1] = 0;


  return str;
}

char *read_line_from_file(File stream, char *str, int max_len) {

  do {
    str = read_from_file_until(stream, str, max_len, '\n');
  } while ((str[0] == '\n'));


  return str;
}
//
//LB
//Funktion schreiben, welche ein Array vom struct Person (Beliebige Groesse) sowie eine rfid-kennung uebernimmt und den Index der entsprechenden Person im array (beginnend bei 0)zurueckgiebt.
int getRFIDIndex(Person* persons, char* rfid) {

  for (int i = 0; i < sizeof(persons) / sizeof(Person); i++) {
    if (!strcmp(persons[i].rfid_uuid, rfid)) {
      return i;
    }
  }

}

int getFingerIndex(Person* persons, uint8_t fingerID) {

  for (int i = 0; i < sizeof(persons) / sizeof(Person); i++) {
    if (persons[i].finger_uuid == fingerID) {
      return i;
    }
  }

}
//