sqlpp11/tests/mysql/usage/Tables.h

#pragma once

// generated by ./scripts/ddl2cpp -auto-id -with-table-creation-helper tests/mysql/usage/Tables.sql tests/mysql/usage/Tables test

#include <sqlpp11/table.h>
#include <sqlpp11/data_types.h>
#include <sqlpp11/char_sequence.h>

namespace test
{
  template<typename Db>
  void createTabSample(Db& db)
  {
    db.execute(R"+++(DROP TABLE IF EXISTS tab_sample)+++");
    db.execute(R"+++(CREATE TABLE tab_sample (
  id bigint(20) AUTO_INCREMENT PRIMARY KEY,
  int_n bigint(20) DEFAULT NULL,
  text_n varchar(255) DEFAULT NULL,
  bool_n bool DEFAULT NULL
))+++");
  }

  namespace TabSample_
  {
    struct Id
    {
      struct _alias_t
      {
        static constexpr const char _literal[] =  "id";
        using _name_t = sqlpp::make_char_sequence<sizeof(_literal), _literal>;
        template<typename T>
        struct _member_t
          {
            T id;
            T& operator()() { return id; }
            const T& operator()() const { return id; }
          };
      };
      using _traits = sqlpp::make_traits<sqlpp::integer, sqlpp::tag::must_not_insert, sqlpp::tag::must_not_update>;
    };
    struct IntN
    {
      struct _alias_t
      {
        static constexpr const char _literal[] =  "int_n";
        using _name_t = sqlpp::make_char_sequence<sizeof(_literal), _literal>;
        template<typename T>
        struct _member_t
          {
            T intN;
            T& operator()() { return intN; }
            const T& operator()() const { return intN; }
          };
      };
      using _traits = sqlpp::make_traits<sqlpp::integer, sqlpp::tag::can_be_null>;
    };
    struct TextN
    {
      struct _alias_t
      {
        static constexpr const char _literal[] =  "text_n";
        using _name_t = sqlpp::make_char_sequence<sizeof(_literal), _literal>;
        template<typename T>
        struct _member_t
          {
            T textN;
            T& operator()() { return textN; }
            const T& operator()() const { return textN; }
          };
      };
      using _traits = sqlpp::make_traits<sqlpp::text, sqlpp::tag::can_be_null>;
    };
    struct BoolN
    {
      struct _alias_t
      {
        static constexpr const char _literal[] =  "bool_n";
        using _name_t = sqlpp::make_char_sequence<sizeof(_literal), _literal>;
        template<typename T>
        struct _member_t
          {
            T boolN;
            T& operator()() { return boolN; }
            const T& operator()() const { return boolN; }
          };
      };
      using _traits = sqlpp::make_traits<sqlpp::boolean, sqlpp::tag::can_be_null>;
    };
  } // namespace TabSample_

  struct TabSample: sqlpp::table_t<TabSample,
               TabSample_::Id,
               TabSample_::IntN,
               TabSample_::TextN,
               TabSample_::BoolN>
  {
    struct _alias_t
    {
      static constexpr const char _literal[] =  "tab_sample";
      using _name_t = sqlpp::make_char_sequence<sizeof(_literal), _literal>;
      template<typename T>
      struct _member_t
      {
        T tabSample;
        T& operator()() { return tabSample; }
        const T& operator()() const { return tabSample; }
      };
    };
  };
  template<typename Db>
  void createTabDateTime(Db& db)
  {
    db.execute(R"+++(DROP TABLE IF EXISTS tab_date_time)+++");
    db.execute(R"+++(CREATE TABLE tab_date_time (
  id bigint(20) AUTO_INCREMENT PRIMARY KEY,
  day_point_n date,
  time_point_n datetime(3),
  date_time_point_n_d datetime DEFAULT CURRENT_TIMESTAMP,
  time_of_day_n time(3)
))+++");
  }

  namespace TabDateTime_
  {
    struct Id
    {
      struct _alias_t
      {
        static constexpr const char _literal[] =  "id";
        using _name_t = sqlpp::make_char_sequence<sizeof(_literal), _literal>;
        template<typename T>
        struct _member_t
          {
            T id;
            T& operator()() { return id; }
            const T& operator()() const { return id; }
          };
      };
      using _traits = sqlpp::make_traits<sqlpp::integer, sqlpp::tag::must_not_insert, sqlpp::tag::must_not_update>;
    };
    struct DayPointN
    {
      struct _alias_t
      {
        static constexpr const char _literal[] =  "day_point_n";
        using _name_t = sqlpp::make_char_sequence<sizeof(_literal), _literal>;
        template<typename T>
        struct _member_t
          {
            T dayPointN;
            T& operator()() { return dayPointN; }
            const T& operator()() const { return dayPointN; }
          };
      };
      using _traits = sqlpp::make_traits<sqlpp::day_point, sqlpp::tag::can_be_null>;
    };
    struct TimePointN
    {
      struct _alias_t
      {
        static constexpr const char _literal[] =  "time_point_n";
        using _name_t = sqlpp::make_char_sequence<sizeof(_literal), _literal>;
        template<typename T>
        struct _member_t
          {
            T timePointN;
            T& operator()() { return timePointN; }
            const T& operator()() const { return timePointN; }
          };
      };
      using _traits = sqlpp::make_traits<sqlpp::time_point, sqlpp::tag::can_be_null>;
    };
    struct DateTimePointND
    {
      struct _alias_t
      {
        static constexpr const char _literal[] =  "date_time_point_n_d";
        using _name_t = sqlpp::make_char_sequence<sizeof(_literal), _literal>;
        template<typename T>
        struct _member_t
          {
            T dateTimePointND;
            T& operator()() { return dateTimePointND; }
            const T& operator()() const { return dateTimePointND; }
          };
      };
      using _traits = sqlpp::make_traits<sqlpp::time_point, sqlpp::tag::can_be_null>;
    };
    struct TimeOfDayN
    {
      struct _alias_t
      {
        static constexpr const char _literal[] =  "time_of_day_n";
        using _name_t = sqlpp::make_char_sequence<sizeof(_literal), _literal>;
        template<typename T>
        struct _member_t
          {
            T timeOfDayN;
            T& operator()() { return timeOfDayN; }
            const T& operator()() const { return timeOfDayN; }
          };
      };
      using _traits = sqlpp::make_traits<sqlpp::time_of_day, sqlpp::tag::can_be_null>;
    };
  } // namespace TabDateTime_

  struct TabDateTime: sqlpp::table_t<TabDateTime,
               TabDateTime_::Id,
               TabDateTime_::DayPointN,
               TabDateTime_::TimePointN,
               TabDateTime_::DateTimePointND,
               TabDateTime_::TimeOfDayN>
  {
    struct _alias_t
    {
      static constexpr const char _literal[] =  "tab_date_time";
      using _name_t = sqlpp::make_char_sequence<sizeof(_literal), _literal>;
      template<typename T>
      struct _member_t
      {
        T tabDateTime;
        T& operator()() { return tabDateTime; }
        const T& operator()() const { return tabDateTime; }
      };
    };
  };
  template<typename Db>
  void createTabFoo(Db& db)
  {
    db.execute(R"+++(DROP TABLE IF EXISTS tab_foo)+++");
    db.execute(R"+++(CREATE TABLE tab_foo (
  id bigint(20) AUTO_INCREMENT PRIMARY KEY,
  int_n bigint(20) DEFAULT NULL
))+++");
  }

  namespace TabFoo_
  {
    struct Id
    {
      struct _alias_t
      {
        static constexpr const char _literal[] =  "id";
        using _name_t = sqlpp::make_char_sequence<sizeof(_literal), _literal>;
        template<typename T>
        struct _member_t
          {
            T id;
            T& operator()() { return id; }
            const T& operator()() const { return id; }
          };
      };
      using _traits = sqlpp::make_traits<sqlpp::integer, sqlpp::tag::must_not_insert, sqlpp::tag::must_not_update>;
    };
    struct IntN
    {
      struct _alias_t
      {
        static constexpr const char _literal[] =  "int_n";
        using _name_t = sqlpp::make_char_sequence<sizeof(_literal), _literal>;
        template<typename T>
        struct _member_t
          {
            T intN;
            T& operator()() { return intN; }
            const T& operator()() const { return intN; }
          };
      };
      using _traits = sqlpp::make_traits<sqlpp::integer, sqlpp::tag::can_be_null>;
    };
  } // namespace TabFoo_

  struct TabFoo: sqlpp::table_t<TabFoo,
               TabFoo_::Id,
               TabFoo_::IntN>
  {
    struct _alias_t
    {
      static constexpr const char _literal[] =  "tab_foo";
      using _name_t = sqlpp::make_char_sequence<sizeof(_literal), _literal>;
      template<typename T>
      struct _member_t
      {
        T tabFoo;
        T& operator()() { return tabFoo; }
        const T& operator()() const { return tabFoo; }
      };
    };
  };
  template<typename Db>
  void createTabJson(Db& db)
  {
    db.execute(R"+++(DROP TABLE IF EXISTS tab_json)+++");
    db.execute(R"+++(CREATE TABLE tab_json (
  id bigint(20) AUTO_INCREMENT PRIMARY KEY,
  data JSON NOT NULL
))+++");
  }

  namespace TabJson_
  {
    struct Id
    {
      struct _alias_t
      {
        static constexpr const char _literal[] =  "id";
        using _name_t = sqlpp::make_char_sequence<sizeof(_literal), _literal>;
        template<typename T>
        struct _member_t
          {
            T id;
            T& operator()() { return id; }
            const T& operator()() const { return id; }
          };
      };
      using _traits = sqlpp::make_traits<sqlpp::integer, sqlpp::tag::must_not_insert, sqlpp::tag::must_not_update>;
    };
    struct Data
    {
      struct _alias_t
      {
        static constexpr const char _literal[] =  "data";
        using _name_t = sqlpp::make_char_sequence<sizeof(_literal), _literal>;
        template<typename T>
        struct _member_t
          {
            T data;
            T& operator()() { return data; }
            const T& operator()() const { return data; }
          };
      };
      using _traits = sqlpp::make_traits<sqlpp::text, sqlpp::tag::require_insert>;
    };
  } // namespace TabJson_

  struct TabJson: sqlpp::table_t<TabJson,
               TabJson_::Id,
               TabJson_::Data>
  {
    struct _alias_t
    {
      static constexpr const char _literal[] =  "tab_json";
      using _name_t = sqlpp::make_char_sequence<sizeof(_literal), _literal>;
      template<typename T>
      struct _member_t
      {
        T tabJson;
        T& operator()() { return tabJson; }
        const T& operator()() const { return tabJson; }
      };
    };
  };
} // namespace test