boost::shared_ptr< Base<EncodingT> > ConnectionInterpreter<EncodingT>::selectForUpdate(boost::shared_ptr< Base<EncodingT> > const& columns, boost::shared_ptr< Base<EncodingT> > const& tables, boost::shared_ptr< Base<EncodingT> > const& filter, boost::shared_ptr< Base<EncodingT> > const& nowait) { boost::shared_ptr< Base<EncodingT> > res(new StatementInterpreter<EncodingT>()); clearError(); try { bool nativeNoWait; std::vector<typename EncodingT::string_t> nativeColumns, nativeTables; typename EncodingT::string_t nativeFilter; if (check_string<EncodingT>(filter, nativeFilter) && check_string_array(columns, nativeColumns) && check_string_array(tables, nativeTables) && check_bool(nowait, nativeNoWait)) { res.reset(new StatementInterpreter<EncodingT>(m_object->selectForUpdate(nativeColumns, nativeTables, nativeFilter, nativeNoWait))); } } catch (std::exception& e) { setError(e); } return res; }
void string_sample() { std::string strings[] = {"this", "is", "a test", "string"}; int size_strings = sizeof(strings); int size_strings_0 = sizeof(strings[0]); std::cout << "size of (strings,strings[0]): " << size_strings << " , " << size_strings_0 << std::endl << "items in array: " << size_strings/size_strings_0 << std::endl; check_string_array(strings); }
boost::shared_ptr< Base<EncodingT> > ConnectionInterpreter<EncodingT>::insert(boost::shared_ptr< Base<EncodingT> > const& table, boost::shared_ptr< Base<EncodingT> > const& columns) { boost::shared_ptr< Base<EncodingT> > res(new StatementInterpreter<EncodingT>()); clearError(); try { std::vector<typename EncodingT::string_t> nativeColumns; typename EncodingT::string_t nativeTable; if (check_string_array(columns, nativeColumns) && check_string<EncodingT>(table, nativeTable)) { res.reset(new StatementInterpreter<EncodingT>(m_object->insert(nativeTable, nativeColumns))); } } catch (std::exception& e) { setError(e); } return res; }