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// Copyright (C) 2011  Davis E. King (davis@dlib.net)
// License: Boost Software License   See LICENSE.txt for the full license.
#ifndef DLIB_SQLiTE_H_
#define DLIB_SQLiTE_H_

#include "sqlite_abstract.h"

#include <iostream>
#include <vector>
#include "../algs.h"
#include <sqlite3.h>
#include "../smart_pointers.h"
#include "../serialize.h"
#include <limits>

// --------------------------------------------------------------------------------------------

namespace dlib
{

// --------------------------------------------------------------------------------------------

    struct sqlite_error : public error
    {
        sqlite_error(const std::string& message): error(message) {}
    };

// --------------------------------------------------------------------------------------------

    namespace impl
    {
        struct db_deleter
        {
            void operator()(
                sqlite3* db
            )const 
            { 
                sqlite3_close(db);
            }
        };
    }

// --------------------------------------------------------------------------------------------

    class database : noncopyable
    {
    public:
        database(
        ) 
        {
        }

        database (
            const std::string& file
        ) 
        {
            open(file);
        }

        bool is_open (
        ) const
        {
            return db.get() != 0;
        }

        void open (
            const std::string& file
        )
        {
            filename = file;
            sqlite3* ptr = 0;
            int status = sqlite3_open(file.c_str(), &ptr);
            db.reset(ptr, impl::db_deleter());
            if (status != SQLITE_OK)
            {
                throw sqlite_error(sqlite3_errmsg(db.get()));
            }
        }

        const std::string& get_database_filename (
        ) const
        {
            // make sure requires clause is not broken
            DLIB_ASSERT(is_open() == true,
                "\t std::string database::get_database_filename()"
                << "\n\t The database must be opened before calling this routine."
                << "\n\t this: " << this
                );

            return filename;
        }

        inline void exec (
            const std::string& sql_statement
        );

        int64 last_insert_rowid (
        ) const
        {
            return sqlite3_last_insert_rowid(db.get());
        }

    private:

        friend class statement;

        std::string filename;
        shared_ptr<sqlite3> db;
    };

// --------------------------------------------------------------------------------------------

    class statement : noncopyable
    {
    public:
        statement (
            database& db_,
            const std::string sql_statement
        ) : 
            needs_reset(false),
            step_status(SQLITE_DONE),
            at_first_step(true),
            db(db_.db),
            stmt(0),
            sql_string(sql_statement)
        {
            // make sure requires clause is not broken
            DLIB_ASSERT(db_.is_open() == true,
                        "\t statement::statement()"
                        << "\n\t The database must be opened before calling this routine."
                        << "\n\t this: " << this
            );

            int status = sqlite3_prepare_v2(db.get(), 
                                         sql_string.c_str(),
                                         sql_string.size()+1,
                                         &stmt,
                                         NULL);

            if (status != SQLITE_OK)
            {
                sqlite3_finalize(stmt);
                throw sqlite_error(sqlite3_errmsg(db.get()));
            }
            if (stmt == 0)
            {
                throw sqlite_error("Invalid SQL statement");
            }
        }

        ~statement(
        )
        {
            sqlite3_finalize(stmt);
        }

        void exec(
        )
        {
            reset();

            step_status = sqlite3_step(stmt);
            needs_reset = true;
            if (step_status != SQLITE_DONE && step_status != SQLITE_ROW)
            {
                if (step_status == SQLITE_ERROR)
                    throw sqlite_error(sqlite3_errmsg(db.get()));
                else if (step_status == SQLITE_BUSY)
                    throw sqlite_error("statement::exec() failed.  SQLITE_BUSY returned");
                else
                    throw sqlite_error("statement::exec() failed.");
            }
        }

        bool move_next (
        )
        {
            if (step_status == SQLITE_ROW)
            {
                if (at_first_step)
                {
                    at_first_step = false;
                    return true;
                }
                else
                {
                    step_status = sqlite3_step(stmt);
                    if (step_status == SQLITE_DONE)
                    {
                        return false;
                    }
                    else if (step_status == SQLITE_ROW)
                    {
                        return true;
                    }
                    else
                    {
                        throw sqlite_error(sqlite3_errmsg(db.get()));
                    }
                }
            }
            else
            {
                return false;
            }
        }

        unsigned long get_num_columns(
        ) const
        {
            if( (at_first_step==false) && (step_status==SQLITE_ROW))
            {
                return sqlite3_column_count(stmt);
            }
            else
            {
                return 0;
            }
        }

        const std::string& get_sql_string (
        ) const
        {
            return sql_string;
        }

        template <typename T>
        typename enable_if_c<std::numeric_limits<T>::is_integer>::type get_column (
            unsigned long idx,
            T& item
        ) const
        {
            // unsigned ints won't fit into int all the time so put those into 64bit ints.
            if (sizeof(T) < sizeof(int) || (sizeof(T)==sizeof(int) && is_signed_type<T>::value))
                item = get_column_as_int(idx);
            else
                item = get_column_as_int64(idx);
        }

        void get_column(unsigned long idx, std::string& item) const { item = get_column_as_text(idx); }
        void get_column(unsigned long idx, float& item      ) const { item = get_column_as_double(idx); }
        void get_column(unsigned long idx, double& item     ) const { item = get_column_as_double(idx); }
        void get_column(unsigned long idx, long double& item) const { item = get_column_as_double(idx); }

        template <typename T>
        typename disable_if_c<std::numeric_limits<T>::is_integer>::type get_column (
            unsigned long idx,
            T& item
        ) const
        {
            get_column_as_object(idx, item);
        }

        const std::vector<char> get_column_as_blob (
            unsigned long idx
        ) const
        {
            // make sure requires clause is not broken
            DLIB_ASSERT(idx < get_num_columns(),
                        "\t std::vector<char> statement::get_column_as_blob()"
                        << "\n\t Invalid column index."
                        << "\n\t idx:  " << idx 
                        << "\n\t this: " << this
            );

            const char* data = static_cast<const char*>(sqlite3_column_blob(stmt, idx));
            const int size = sqlite3_column_bytes(stmt, idx);

            return std::vector<char>(data, data+size);
        }

        template <typename T>
        void get_column_as_object (
            unsigned long idx,
            T& item
        ) const
        {
            // make sure requires clause is not broken
            DLIB_ASSERT(idx < get_num_columns(),
                        "\t void statement::get_column_as_object()"
                        << "\n\t Invalid column index."
                        << "\n\t idx:  " << idx 
                        << "\n\t this: " << this
            );

            const char* data = static_cast<const char*>(sqlite3_column_blob(stmt, idx));
            const int size = sqlite3_column_bytes(stmt, idx);
            std::istringstream sin(std::string(data,size));
            deserialize(item, sin);
        }

        const std::string get_column_as_text (
            unsigned long idx
        ) const
        {
            // make sure requires clause is not broken
            DLIB_ASSERT(idx < get_num_columns(),
                        "\t std::string statement::get_column_as_text()"
                        << "\n\t Invalid column index."
                        << "\n\t idx:  " << idx 
                        << "\n\t this: " << this
            );

            const char* data = reinterpret_cast<const char*>(sqlite3_column_text(stmt, idx));
            if (data != 0)
                return std::string(data);
            else
                return std::string();
        }

        double get_column_as_double (
            unsigned long idx
        ) const
        {
            // make sure requires clause is not broken
            DLIB_ASSERT(idx < get_num_columns(),
                        "\t double statement::get_column_as_double()"
                        << "\n\t Invalid column index."
                        << "\n\t idx:  " << idx 
                        << "\n\t this: " << this
            );

            return sqlite3_column_double(stmt, idx);
        }

        int get_column_as_int (
            unsigned long idx
        ) const
        {
            // make sure requires clause is not broken
            DLIB_ASSERT(idx < get_num_columns(),
                        "\t int statement::get_column_as_int()"
                        << "\n\t Invalid column index."
                        << "\n\t idx:  " << idx 
                        << "\n\t this: " << this
            );

            return sqlite3_column_int(stmt, idx);
        }

        int64 get_column_as_int64 (
            unsigned long idx
        ) const
        {
            // make sure requires clause is not broken
            DLIB_ASSERT(idx < get_num_columns(),
                        "\t int64 statement::get_column_as_int64()"
                        << "\n\t Invalid column index."
                        << "\n\t idx:  " << idx 
                        << "\n\t this: " << this
            );

            return sqlite3_column_int64(stmt, idx);
        }

        const std::string get_column_name (
            unsigned long idx
        ) const
        {
            // make sure requires clause is not broken
            DLIB_ASSERT(idx < get_num_columns(),
                        "\t std::string statement::get_column_name()"
                        << "\n\t Invalid column index."
                        << "\n\t idx:  " << idx 
                        << "\n\t this: " << this
            );

            return std::string(sqlite3_column_name(stmt,idx));
        }

        unsigned long get_max_parameter_id (
        ) const
        {
            return sqlite3_limit(db.get(), SQLITE_LIMIT_VARIABLE_NUMBER, -1);
        }

        unsigned long get_parameter_id (
            const std::string& name
        ) const
        {
            return sqlite3_bind_parameter_index(stmt, name.c_str());
        }

        template <typename T>
        typename enable_if_c<std::numeric_limits<T>::is_integer>::type bind (
            unsigned long idx,
            const T& item
        ) 
        {
            // unsigned ints won't fit into int all the time so put those into 64bit ints.
            if (sizeof(T) < sizeof(int) || (sizeof(T)==sizeof(int) && is_signed_type<T>::value))
                bind_int(idx, item);
            else
                bind_int64(idx, item);
        }

        void bind(unsigned long idx, const std::string& item) { bind_text(idx, item); }
        void bind(unsigned long idx, const float& item      ) { bind_double(idx, item); }
        void bind(unsigned long idx, const double& item     ) { bind_double(idx, item); }
        void bind(unsigned long idx, const long double& item) { bind_double(idx, item); }

        template <typename T>
        typename disable_if_c<std::numeric_limits<T>::is_integer>::type bind (
            unsigned long idx,
            const T& item
        ) 
        {
            bind_object(idx, item);
        }

        void bind_blob (
            unsigned long parameter_id,
            const std::vector<char>& item
        )
        {
            // make sure requires clause is not broken
            DLIB_ASSERT(1 <= parameter_id && parameter_id <= get_max_parameter_id(),
                        "\t void statement::bind_blob()"
                        << "\n\t Invalid parameter id."
                        << "\n\t parameter_id:           " << parameter_id 
                        << "\n\t get_max_parameter_id(): " << get_max_parameter_id() 
                        << "\n\t this:                   " << this
            );

            reset();
            int status = sqlite3_bind_blob(stmt, parameter_id, &item[0], item.size(), SQLITE_TRANSIENT);

            if (status != SQLITE_OK)
            {
                throw sqlite_error(sqlite3_errmsg(db.get()));
            }
        }

        template <typename T>
        void bind_object (
            unsigned long parameter_id,
            const T& item
        )
        {
            // make sure requires clause is not broken
            DLIB_ASSERT(1 <= parameter_id && parameter_id <= get_max_parameter_id(),
                        "\t void statement::bind_object()"
                        << "\n\t Invalid parameter id."
                        << "\n\t parameter_id:           " << parameter_id 
                        << "\n\t get_max_parameter_id(): " << get_max_parameter_id() 
                        << "\n\t this:                   " << this
            );

            reset();
            std::ostringstream sout;
            serialize(item, sout);
            const std::string& str = sout.str();
            int status = sqlite3_bind_blob(stmt, parameter_id, str.data(), str.size(), SQLITE_TRANSIENT);

            if (status != SQLITE_OK)
            {
                throw sqlite_error(sqlite3_errmsg(db.get()));
            }
        }

        void bind_double (
            unsigned long parameter_id,
            const double& item
        )
        {
            // make sure requires clause is not broken
            DLIB_ASSERT(1 <= parameter_id && parameter_id <= get_max_parameter_id(),
                        "\t void statement::bind_double()"
                        << "\n\t Invalid parameter id."
                        << "\n\t parameter_id:           " << parameter_id 
                        << "\n\t get_max_parameter_id(): " << get_max_parameter_id() 
                        << "\n\t this:                   " << this
            );

            reset();
            int status = sqlite3_bind_double(stmt, parameter_id, item);

            if (status != SQLITE_OK)
            {
                throw sqlite_error(sqlite3_errmsg(db.get()));
            }
        }

        void bind_int (
            unsigned long parameter_id,
            const int& item
        )
        {
            // make sure requires clause is not broken
            DLIB_ASSERT(1 <= parameter_id && parameter_id <= get_max_parameter_id(),
                        "\t void statement::bind_int()"
                        << "\n\t Invalid parameter id."
                        << "\n\t parameter_id:           " << parameter_id 
                        << "\n\t get_max_parameter_id(): " << get_max_parameter_id() 
                        << "\n\t this:                   " << this
            );

            reset();
            int status = sqlite3_bind_int(stmt, parameter_id, item);

            if (status != SQLITE_OK)
            {
                throw sqlite_error(sqlite3_errmsg(db.get()));
            }
        }

        void bind_int64 (
            unsigned long parameter_id,
            const int64& item
        )
        {
            // make sure requires clause is not broken
            DLIB_ASSERT(1 <= parameter_id && parameter_id <= get_max_parameter_id(),
                        "\t void statement::bind_int64()"
                        << "\n\t Invalid parameter id."
                        << "\n\t parameter_id:           " << parameter_id 
                        << "\n\t get_max_parameter_id(): " << get_max_parameter_id() 
                        << "\n\t this:                   " << this
            );

            reset();
            int status = sqlite3_bind_int64(stmt, parameter_id, item);

            if (status != SQLITE_OK)
            {
                throw sqlite_error(sqlite3_errmsg(db.get()));
            }
        }

        void bind_null (
            unsigned long parameter_id
        )
        {
            // make sure requires clause is not broken
            DLIB_ASSERT(1 <= parameter_id && parameter_id <= get_max_parameter_id(),
                        "\t void statement::bind_null()"
                        << "\n\t Invalid parameter id."
                        << "\n\t parameter_id:           " << parameter_id 
                        << "\n\t get_max_parameter_id(): " << get_max_parameter_id() 
                        << "\n\t this:                   " << this
            );

            reset();
            int status = sqlite3_bind_null(stmt, parameter_id);

            if (status != SQLITE_OK)
            {
                throw sqlite_error(sqlite3_errmsg(db.get()));
            }
        }

        void bind_text (
            unsigned long parameter_id,
            const std::string& item
        )
        {
            // make sure requires clause is not broken
            DLIB_ASSERT(1 <= parameter_id && parameter_id <= get_max_parameter_id(),
                        "\t void statement::bind_text()"
                        << "\n\t Invalid parameter id."
                        << "\n\t parameter_id:           " << parameter_id 
                        << "\n\t get_max_parameter_id(): " << get_max_parameter_id() 
                        << "\n\t this:                   " << this
            );

            reset();
            int status = sqlite3_bind_text(stmt, parameter_id, item.c_str(), -1, SQLITE_TRANSIENT);

            if (status != SQLITE_OK)
            {
                throw sqlite_error(sqlite3_errmsg(db.get()));
            }
        }

    private:

        void reset()
        {
            if (needs_reset)
            {
                if (sqlite3_reset(stmt) != SQLITE_OK)
                {
                    step_status = SQLITE_DONE;
                    throw sqlite_error(sqlite3_errmsg(db.get()));
                }
                needs_reset = false;
                step_status = SQLITE_DONE;
                at_first_step = true;
            }
        }

        bool needs_reset; // true if sqlite3_step() has been called more recently than sqlite3_reset() 
        int step_status;
        bool at_first_step;

        shared_ptr<sqlite3> db;
        sqlite3_stmt* stmt;
        std::string sql_string;
    };

// --------------------------------------------------------------------------------------------

    void database::
    exec (
        const std::string& sql_statement
    )
    {
        // make sure requires clause is not broken
        DLIB_ASSERT(is_open() == true,
                    "\t void database::exec()"
                    << "\n\t The database must be opened before calling this routine."
                    << "\n\t this: " << this
        );

        statement(*this, sql_statement).exec();
    }

// --------------------------------------------------------------------------------------------

}

#endif // DLIB_SQLiTE_H_