#include "ODBCBlockInputStream.h" #include #include #include #include #include #include #include namespace DB { namespace ErrorCodes { extern const int UNKNOWN_TYPE; } ODBCSource::ODBCSource( nanodbc::ConnectionHolderPtr connection_holder, const std::string & query_str, const Block & sample_block, const UInt64 max_block_size_) : ISource(sample_block) , log(getLogger("ODBCSource")) , max_block_size{max_block_size_} , query(query_str) { description.init(sample_block); result = execute(connection_holder, [&](nanodbc::connection & connection) { return execute(connection, query); }); } Chunk ODBCSource::generate() { if (is_finished) return {}; MutableColumns columns(description.sample_block.cloneEmptyColumns()); size_t num_rows = 0; while (true) { if (!result.next()) { is_finished = true; break; } for (int idx = 0; idx < result.columns(); ++idx) { const auto & sample = description.sample_block.getByPosition(idx); if (!result.is_null(idx)) insertValue(*columns[idx], removeNullable(sample.type), description.types[idx].first, result, idx); else insertDefaultValue(*columns[idx], *sample.column); } if (++num_rows == max_block_size) break; } return Chunk(std::move(columns), num_rows); } void ODBCSource::insertValue( IColumn & column, const DataTypePtr data_type, const ValueType type, nanodbc::result & row, size_t idx) { switch (type) { case ValueType::vtUInt8: column.insert(row.get(idx)); break; case ValueType::vtUInt16: column.insert(row.get(idx)); break; case ValueType::vtUInt32: column.insert(row.get(idx)); break; case ValueType::vtUInt64: column.insert(row.get(idx)); break; case ValueType::vtInt8: column.insert(row.get(idx)); break; case ValueType::vtInt16: column.insert(row.get(idx)); break; case ValueType::vtInt32: column.insert(row.get(idx)); break; case ValueType::vtInt64: column.insert(row.get(idx)); break; case ValueType::vtFloat32: column.insert(row.get(idx)); break; case ValueType::vtFloat64: column.insert(row.get(idx)); break; case ValueType::vtFixedString: case ValueType::vtEnum8: case ValueType::vtEnum16: case ValueType::vtString: column.insert(row.get(idx)); break; case ValueType::vtUUID: { auto value = row.get(idx); column.insert(parse(value.data(), value.size())); break; } case ValueType::vtDate: column.insert(UInt16{LocalDate{row.get(idx)}.getDayNum()}); break; case ValueType::vtDateTime: { auto value = row.get(idx); ReadBufferFromString in(value); time_t time = 0; const DataTypeDateTime & datetime_type = assert_cast(*data_type); readDateTimeText(time, in, datetime_type.getTimeZone()); if (time < 0) time = 0; column.insert(static_cast(time)); break; } case ValueType::vtDateTime64: { auto value = row.get(idx); ReadBufferFromString in(value); DateTime64 time = 0; const DataTypeDateTime64 & datetime_type = assert_cast(*data_type); readDateTime64Text(time, datetime_type.getScale(), in, datetime_type.getTimeZone()); column.insert(time); break; } case ValueType::vtDecimal32: case ValueType::vtDecimal64: case ValueType::vtDecimal128: case ValueType::vtDecimal256: { auto value = row.get(idx); ReadBufferFromString istr(value); data_type->getDefaultSerialization()->deserializeWholeText(column, istr, FormatSettings{}); break; } default: throw Exception(ErrorCodes::UNKNOWN_TYPE, "Unsupported value type"); } } }