// file : odb/pgsql/database.hxx // copyright : Copyright (c) 2009-2019 Code Synthesis Tools CC // license : GNU GPL v2; see accompanying LICENSE file #ifndef ODB_PGSQL_DATABASE_HXX #define ODB_PGSQL_DATABASE_HXX #include #include #include // std::ostream #include #include // ODB_CXX11 #include #include #include #include #include #include #include #include #include namespace odb { namespace pgsql { class transaction_impl; class LIBODB_PGSQL_EXPORT database: public odb::database { public: database (const std::string& user, const std::string& password, const std::string& db, const std::string& host = "", unsigned int port = 0, const std::string& extra_conninfo = "", details::transfer_ptr = details::transfer_ptr ()); database (const std::string& user, const std::string& password, const std::string& db, const std::string& host, const std::string& socket_ext, const std::string& extra_conninfo = "", details::transfer_ptr = details::transfer_ptr ()); explicit database (const std::string& conninfo, details::transfer_ptr = details::transfer_ptr ()); // Extract the database parameters from the command line. The // following options are recognized: // // --user | --username // --password // --database | --dbname // --host // --port // --options-file // // For more information, see the output of the print_usage() function // below. If erase is true, the above options are removed from the // argv array and the argc count is updated accordingly. This // constructor may throw the cli_exception exception. // database (int& argc, char* argv[], bool erase = false, const std::string& extra_conninfo = "", details::transfer_ptr = details::transfer_ptr ()); // Move-constructible but not move-assignable. // #ifdef ODB_CXX11 database (database&&); #endif static void print_usage (std::ostream&); // Object persistence API. // public: // Make the object persistent. // template typename object_traits::id_type persist (T& object); template typename object_traits::id_type persist (const T& object); template typename object_traits::id_type persist (T* obj_ptr); template class P> typename object_traits::id_type persist (const P& obj_ptr); template class P> typename object_traits::id_type persist (const P& obj_ptr); template class P> typename object_traits::id_type persist (P& obj_ptr); template class P> typename object_traits::id_type persist (P& obj_ptr); template typename object_traits::id_type persist (const typename object_traits::pointer_type& obj_ptr); // Load an object. Throw object_not_persistent if not found. // template typename object_traits::pointer_type load (const typename object_traits::id_type& id); template void load (const typename object_traits::id_type& id, T& object); // Load (or reload, if it is already loaded) a section of an object. // template void load (T& object, section&); // Reload an object. // template void reload (T& object); template void reload (T* obj_ptr); template class P> void reload (const P& obj_ptr); template class P> void reload (const P& obj_ptr); template class P> void reload (P& obj_ptr); template class P> void reload (P& obj_ptr); template void reload (const typename object_traits::pointer_type& obj_ptr); // Loan an object if found. Return NULL/false if not found. // template typename object_traits::pointer_type find (const typename object_traits::id_type& id); template bool find (const typename object_traits::id_type& id, T& object); // Update the state of a modified objects. // template void update (T& object); template void update (T* obj_ptr); template class P> void update (const P& obj_ptr); template class P> void update (const P& obj_ptr); template class P> void update (P& obj_ptr); template class P> void update (P& obj_ptr); template void update (const typename object_traits::pointer_type& obj_ptr); // Update a section of an object. Throws the section_not_loaded // exception if the section is not loaded. Note also that this // function does not clear the changed flag if it is set. // template void update (const T& object, const section&); // Make the object transient. Throw object_not_persistent if not // found. // template void erase (const typename object_traits::id_type& id); template void erase (T& object); template void erase (T* obj_ptr); template class P> void erase (const P& obj_ptr); template class P> void erase (const P& obj_ptr); template class P> void erase (P& obj_ptr); template class P> void erase (P& obj_ptr); template void erase (const typename object_traits::pointer_type& obj_ptr); // Erase multiple objects matching a query predicate. // template unsigned long long erase_query (); template unsigned long long erase_query (const char*); template unsigned long long erase_query (const std::string&); template unsigned long long erase_query (const pgsql::query_base&); template unsigned long long erase_query (const odb::query_base&); // Query API. // template result query (); template result query (const char*); template result query (const std::string&); template result query (const pgsql::query_base&); template result query (const odb::query_base&); // Query one API. // template typename result::pointer_type query_one (); template bool query_one (T& object); template T query_value (); template typename result::pointer_type query_one (const char*); template bool query_one (const char*, T& object); template T query_value (const char*); template typename result::pointer_type query_one (const std::string&); template bool query_one (const std::string&, T& object); template T query_value (const std::string&); template typename result::pointer_type query_one (const pgsql::query_base&); template bool query_one (const pgsql::query_base&, T& object); template T query_value (const pgsql::query_base&); template typename result::pointer_type query_one (const odb::query_base&); template bool query_one (const odb::query_base&, T& object); template T query_value (const odb::query_base&); // Query preparation. // template prepared_query prepare_query (const char* name, const char*); template prepared_query prepare_query (const char* name, const std::string&); template prepared_query prepare_query (const char* name, const pgsql::query_base&); template prepared_query prepare_query (const char* name, const odb::query_base&); // Transactions. // public: virtual transaction_impl* begin (); public: connection_ptr connection (); // Database schema version. // protected: virtual const schema_version_info& load_schema_version (const std::string& schema_name) const; public: // Database id constant (useful for meta-programming). // static const odb::database_id database_id = id_pgsql; public: virtual ~database (); protected: virtual odb::connection* connection_ (); // SQL statement tracing. // public: typedef pgsql::tracer tracer_type; void tracer (tracer_type& t) { odb::database::tracer (t); } void tracer (tracer_type* t) { odb::database::tracer (t); } using odb::database::tracer; public: const std::string& user () const { return user_; } const std::string& password () const { return password_; } const std::string& db () const { return db_; } const std::string& host () const { return host_; } unsigned int port () const { return port_; } const std::string& socket_ext () const { return socket_ext_; } const std::string& extra_conninfo () const { return extra_conninfo_; } const std::string& conninfo () const { return conninfo_; } private: // Note: remember to update move ctor if adding any new members. // std::string user_; std::string password_; std::string db_; std::string host_; unsigned int port_; std::string socket_ext_; std::string extra_conninfo_; std::string conninfo_; details::unique_ptr factory_; }; } } #include #include #endif // ODB_PGSQL_DATABASE_HXX