Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I made my own database format, and it sadly required too much memory and the size of it got horrendous and upkeep was horrible.

So I'm looking for a way to store an array of a struct that's in an object into a table.

I'm guessing I need to use a blob, but all other options are welcome. An easy way to implement a blob would be helpful as well.

I've attached my saving code and related structures(Updated from my horrible post earlier)

#include "stdafx.h"
#include <string>
#include <stdio.h>
#include <vector>
#include "sqlite3.h"
using namespace std;
struct PriceEntry{

    float cardPrice;
    string PriceDate;
    int Edition;
    int Rarity;
struct cardEntry{
    string cardName;
    long pesize;
    long gsize;
    vector<PriceEntry> cardPrices;
    float vThreshold;
    int fav;

vector<cardEntry> Cards;

void FillCards(){
  int i=0;
  int j=0;
  char z[32]={0};
     cardEntry tmpStruct;
     sprintf(z, "Card Name: %d" , i);
                PriceEntry ss;

                sprintf(z,"This is struct %d", i);


int SaveCards(){
      // Create an int variable for storing the return code for each call
    int retval;
    int CardCounter=0;
    int PriceEntries=0;
    char tmpQuery[256]={0};

    int q_cnt = 5,q_size = 256;

    sqlite3_stmt *stmt;

    sqlite3 *handle;

    retval = sqlite3_open("sampledb.sqlite3",&handle);

        printf("Database connection failed\n");
        return -1;
    printf("Connection successful\n");

    //char create_table[100] = "CREATE TABLE IF NOT EXISTS users (uname TEXT PRIMARY KEY,pass TEXT NOT NULL,activated INTEGER)";
    char create_table[] = "CREATE TABLE IF NOT EXISTS Cards (CardName TEXT, PriceNum NUMERIC, Threshold NUMERIC, Fav NUMERIC);";

    retval = sqlite3_exec(handle,create_table,0,0,0);
    printf( "could not prepare statemnt: %s\n", sqlite3_errmsg(handle) );
        char Query[512]={0};


              //Here is where I need to find out the process of storing the vector of PriceEntry for Cards then I can modify this loop to process the data


            sprintf(Query,"INSERT INTO Cards VALUES('%s',  %d, %f, %d)",            
            Cards[CardCounter].fav); //My insert command  

        retval = sqlite3_exec(handle,Query,0,0,0);

            printf( "Could not prepare statement: %s\n", sqlite3_errmsg(handle) );

    // Insert first row and second row

    return 0;

Thanks for the help.

I tried googling but my results didn't suffice.

share|improve this question
It would be good if you provided at least some small portion of "what you have so far". And can I suggest you start using names of variables that mean something - I'm sure you know what E, R and cP stands for, but no one else will. They don't have to be VERY long names, just 3-5 characters. – Mats Petersson Dec 20 '12 at 22:40
(Just guessing) So are you storing 'cEy' elements in different sqlite columns in a table of 'cEy' and your problem is how to actually store an array of 'PE' values in a sqlite column? If it is so, then you need a way to "serialize" a PE (and a vector of them) and then store the serialization data as a BLOB column. – Gigi Dec 21 '12 at 0:30
@MatsPetersson Code has been updated :) @ Gigi If I had to go the blob route, I was going to throw all the info into a charbuffer with a header so I could differentiate the entries. Never had to serialize so not sure what it means codewise. I was hoping for SQL to have some sort of easier way. – Matthew Sartain Dec 21 '12 at 1:21
"Serializing" is simply converting something in a "representation" that can be stored somewhere. For simple cases like yours, and ignoring endianess, you can just append the binary representation of pod PE members to a char vector, plus the string 'PriceDate' size followed by each char in that string. Then write it in the blob column. Likewise for deserialization just do the inverse of this. – Gigi Dec 21 '12 at 1:28
up vote 1 down vote accepted

You have two types here: Cards and PriceEntries. And for each Card there can be many PriceEntries.

You can store Cards in one table, one Card per row. But you're puzzled about how to store the PriceEntries, right?

What you'd normally do here is have a second table for PriceEntries, keyed off a unique column (or columns) of the Cards table. I guess the CardName is unique to each card? Let's go with that. So your PriceEntry table would have a column CardName, followed by columns of PriceEntry information. You'll have a row for each PriceEntry, even if there are duplicates in the CardName column.

The PriceEntry table might look like:

CardName  | Some PE value  | Some other PE value
Ace       | 1 | 1
Ace       | 1 | 5
2         | 2 | 3

and so on. So when you want to find the array of PriceEntries for a card, you'd do

select * from PriceEntry where CardName = 'Ace'

And from the example data above you'd get back 2 rows, which you could shove into an array (if you wanted to).

No need for BLOBs!

share|improve this answer
Whoa! This is perfect! Thank you – Matthew Sartain Dec 21 '12 at 3:36

This is a simple serialization and deserialization system. The class PriceEntry has been extended with serialization support (very simply). Now all you have to do is serialize a PriceEntry (or a set of them) to binary data and store it in a blob column. Later on, you get the blob data and from that deserialize a new PriceEntry with the same values. An example of how it is used is given at the bottom. Enjoy.

#include <iostream>
#include <vector>
#include <string>
#include <cstring> // for memcpy

using std::vector;
using std::string;

// deserialization archive
struct iarchive
    explicit iarchive(vector<unsigned char> data)
    : _data(data)
    , _cursor(0)

    void read(float& v)          { read_var(v); }
    void read(int& v)            { read_var(v); }
    void read(size_t& v)         { read_var(v); }
    void read(string& v)         { read_string(v); }

    vector<unsigned char> data() { return _data; }


    template <typename T>
    void read_var(T& v)
      // todo: check that the cursor will not be past-the-end after the operation

      // read the binary data
      std::memcpy(reinterpret_cast<void*>(&v), reinterpret_cast<const void*>(&_data[_cursor]), sizeof(T));

      // advance the cursor
      _cursor += sizeof(T);


    read_string(string& v)
      // get the array size
      size_t sz;

      // get alignment padding
      size_t padding = sz % 4;
      if (padding == 1) padding = 3;
      else if (padding == 3) padding = 1;

      // todo: check that the cursor will not be past-the-end after the operation

      // resize the string

      // read the binary data
      std::memcpy(reinterpret_cast<void*>(&v[0]), reinterpret_cast<const void*>(&_data[_cursor]), sz);

      // advance the cursor
      _cursor += sz + padding;

    vector<unsigned char> _data;    // archive data
    size_t _cursor;                 // current position in the data

// serialization archive
struct oarchive
    void write(float v)          { write_var(v); }
    void write(int v)            { write_var(v); }
    void write(size_t v)         { write_var(v); }
    void write(const string& v)  { write_string(v); }

    vector<unsigned char> data() { return _data; }


    template <typename T>
    void write_var(const T& v)
      // record the current data size
      size_t s(_data.size());

      // enlarge the data
      _data.resize(s + sizeof(T));

      // store the binary data
      std::memcpy(reinterpret_cast<void*>(&_data[s]), reinterpret_cast<const void*>(&v), sizeof(T));

    void write_string(const string& v)
      // write the string size

      // get alignment padding
      size_t padding = v.size() % 4;
      if (padding == 1) padding = 3;
      else if (padding == 3) padding = 1;

      // record the data size
      size_t s(_data.size());

      // enlarge the data
      _data.resize(s + v.size() + padding);

      // store the binary data
      std::memcpy(reinterpret_cast<void*>(&_data[s]), reinterpret_cast<const void*>(&v[0]), v.size());

    vector<unsigned char> _data;     /// archive data

struct PriceEntry

    PriceEntry(iarchive& in) // <<< deserialization support

    void save(oarchive& out) const // <<< serialization support

    float cardPrice;
    string PriceDate;
    int Edition;
    int Rarity;

int main()
    // create a PriceEntry
    PriceEntry x;
    x.cardPrice = 1;
    x.PriceDate = "hi";
    x.Edition = 3;
    x.Rarity = 0;

    // serialize it
    oarchive out;;

    // create a deserializer archive, from serialized data
    iarchive in(;

    // deserialize a PriceEntry
    PriceEntry y(in);

    std::cout << y.cardPrice << std::endl;
    std::cout << y.PriceDate << std::endl;
    std::cout << y.Edition << std::endl;
    std::cout << y.Rarity << std::endl;
share|improve this answer
Thank you for this! – Matthew Sartain Dec 21 '12 at 3:37
If anyone actually does this, at least add a version number as the first field saved, so that when you change or add fields you can do so and retain backward compatibility. (BLOBs for table-like data? The OP knew it was the wrong way to go. You have a database with a query language, may as well use it as intended!) – Graham Perks Dec 21 '12 at 5:05

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.