#include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace DB { namespace ErrorCodes { extern const int UNKNOWN_FORMAT; extern const int LOGICAL_ERROR; extern const int FORMAT_IS_NOT_SUITABLE_FOR_INPUT; extern const int FORMAT_IS_NOT_SUITABLE_FOR_OUTPUT; } const FormatFactory::Creators & FormatFactory::getCreators(const String & name) const { auto it = dict.find(name); if (dict.end() != it) return it->second; throw Exception("Unknown format " + name, ErrorCodes::UNKNOWN_FORMAT); } static FormatSettings getInputFormatSetting(const Settings & settings) { FormatSettings format_settings; format_settings.csv.delimiter = settings.format_csv_delimiter; format_settings.csv.allow_single_quotes = settings.format_csv_allow_single_quotes; format_settings.csv.allow_double_quotes = settings.format_csv_allow_double_quotes; format_settings.csv.unquoted_null_literal_as_null = settings.input_format_csv_unquoted_null_literal_as_null; format_settings.csv.empty_as_default = settings.input_format_defaults_for_omitted_fields; format_settings.null_as_default = settings.input_format_null_as_default; format_settings.values.interpret_expressions = settings.input_format_values_interpret_expressions; format_settings.values.deduce_templates_of_expressions = settings.input_format_values_deduce_templates_of_expressions; format_settings.values.accurate_types_of_literals = settings.input_format_values_accurate_types_of_literals; format_settings.with_names_use_header = settings.input_format_with_names_use_header; format_settings.skip_unknown_fields = settings.input_format_skip_unknown_fields; format_settings.import_nested_json = settings.input_format_import_nested_json; format_settings.date_time_input_format = settings.date_time_input_format; format_settings.input_allow_errors_num = settings.input_format_allow_errors_num; format_settings.input_allow_errors_ratio = settings.input_format_allow_errors_ratio; format_settings.template_settings.resultset_format = settings.format_template_resultset; format_settings.template_settings.row_format = settings.format_template_row; format_settings.template_settings.row_between_delimiter = settings.format_template_rows_between_delimiter; format_settings.tsv.empty_as_default = settings.input_format_tsv_empty_as_default; return format_settings; } static FormatSettings getOutputFormatSetting(const Settings & settings) { FormatSettings format_settings; format_settings.json.quote_64bit_integers = settings.output_format_json_quote_64bit_integers; format_settings.json.quote_denormals = settings.output_format_json_quote_denormals; format_settings.json.escape_forward_slashes = settings.output_format_json_escape_forward_slashes; format_settings.csv.delimiter = settings.format_csv_delimiter; format_settings.csv.allow_single_quotes = settings.format_csv_allow_single_quotes; format_settings.csv.allow_double_quotes = settings.format_csv_allow_double_quotes; format_settings.pretty.max_rows = settings.output_format_pretty_max_rows; format_settings.pretty.max_column_pad_width = settings.output_format_pretty_max_column_pad_width; format_settings.pretty.color = settings.output_format_pretty_color; format_settings.template_settings.resultset_format = settings.format_template_resultset; format_settings.template_settings.row_format = settings.format_template_row; format_settings.template_settings.row_between_delimiter = settings.format_template_rows_between_delimiter; format_settings.write_statistics = settings.output_format_write_statistics; format_settings.parquet.row_group_size = settings.output_format_parquet_row_group_size; return format_settings; } BlockInputStreamPtr FormatFactory::getInput( const String & name, ReadBuffer & buf, const Block & sample, const Context & context, UInt64 max_block_size, ReadCallback callback) const { if (name == "Native") return std::make_shared(buf, sample, 0); if (!getCreators(name).input_processor_creator) { const auto & input_getter = getCreators(name).input_creator; if (!input_getter) throw Exception("Format " + name + " is not suitable for input", ErrorCodes::FORMAT_IS_NOT_SUITABLE_FOR_INPUT); const Settings & settings = context.getSettingsRef(); FormatSettings format_settings = getInputFormatSetting(settings); return input_getter(buf, sample, context, max_block_size, callback ? callback : ReadCallback(), format_settings); } const Settings & settings = context.getSettingsRef(); const auto & file_segmentation_engine = getCreators(name).file_segmentation_engine; if (settings.input_format_parallel_parsing && file_segmentation_engine) { const auto & input_getter = getCreators(name).input_processor_creator; if (!input_getter) throw Exception("Format " + name + " is not suitable for input", ErrorCodes::FORMAT_IS_NOT_SUITABLE_FOR_INPUT); FormatSettings format_settings = getInputFormatSetting(settings); RowInputFormatParams row_input_format_params; row_input_format_params.max_block_size = max_block_size; row_input_format_params.allow_errors_num = format_settings.input_allow_errors_num; row_input_format_params.allow_errors_ratio = format_settings.input_allow_errors_ratio; row_input_format_params.callback = std::move(callback); row_input_format_params.max_execution_time = settings.max_execution_time; row_input_format_params.timeout_overflow_mode = settings.timeout_overflow_mode; size_t max_threads_to_use = settings.max_threads_for_parallel_parsing; auto params = ParallelParsingBlockInputStream::InputCreatorParams{sample, context, row_input_format_params, format_settings}; ParallelParsingBlockInputStream::Builder builder{buf, input_getter, params, file_segmentation_engine, max_threads_to_use, settings.min_chunk_size_for_parallel_parsing}; return std::make_shared(builder); } auto format = getInputFormat(name, buf, sample, context, max_block_size, std::move(callback)); return std::make_shared(std::move(format)); } BlockOutputStreamPtr FormatFactory::getOutput( const String & name, WriteBuffer & buf, const Block & sample, const Context & context, WriteCallback callback) const { if (name == "PrettyCompactMonoBlock") { /// TODO: rewrite auto format = getOutputFormat("PrettyCompact", buf, sample, context); auto res = std::make_shared( std::make_shared(format), sample, context.getSettingsRef().output_format_pretty_max_rows, 0); res->disableFlush(); return std::make_shared(res, sample); } if (!getCreators(name).output_processor_creator) { const auto & output_getter = getCreators(name).output_creator; if (!output_getter) throw Exception("Format " + name + " is not suitable for output", ErrorCodes::FORMAT_IS_NOT_SUITABLE_FOR_OUTPUT); const Settings & settings = context.getSettingsRef(); FormatSettings format_settings = getOutputFormatSetting(settings); /** Materialization is needed, because formats can use the functions `IDataType`, * which only work with full columns. */ return std::make_shared( output_getter(buf, sample, context, callback, format_settings), sample); } auto format = getOutputFormat(name, buf, sample, context, callback); return std::make_shared(std::make_shared(format), sample); } InputFormatPtr FormatFactory::getInputFormat( const String & name, ReadBuffer & buf, const Block & sample, const Context & context, UInt64 max_block_size, ReadCallback callback) const { const auto & input_getter = getCreators(name).input_processor_creator; if (!input_getter) throw Exception("Format " + name + " is not suitable for input", ErrorCodes::FORMAT_IS_NOT_SUITABLE_FOR_INPUT); const Settings & settings = context.getSettingsRef(); FormatSettings format_settings = getInputFormatSetting(settings); RowInputFormatParams params; params.max_block_size = max_block_size; params.allow_errors_num = format_settings.input_allow_errors_num; params.allow_errors_ratio = format_settings.input_allow_errors_ratio; params.callback = std::move(callback); params.max_execution_time = settings.max_execution_time; params.timeout_overflow_mode = settings.timeout_overflow_mode; return input_getter(buf, sample, context, params, format_settings); } OutputFormatPtr FormatFactory::getOutputFormat( const String & name, WriteBuffer & buf, const Block & sample, const Context & context, WriteCallback callback) const { const auto & output_getter = getCreators(name).output_processor_creator; if (!output_getter) throw Exception("Format " + name + " is not suitable for output", ErrorCodes::FORMAT_IS_NOT_SUITABLE_FOR_OUTPUT); const Settings & settings = context.getSettingsRef(); FormatSettings format_settings = getOutputFormatSetting(settings); /** TODO: Materialization is needed, because formats can use the functions `IDataType`, * which only work with full columns. */ return output_getter(buf, sample, context, callback, format_settings); } void FormatFactory::registerInputFormat(const String & name, InputCreator input_creator) { auto & target = dict[name].input_creator; if (target) throw Exception("FormatFactory: Input format " + name + " is already registered", ErrorCodes::LOGICAL_ERROR); target = std::move(input_creator); } void FormatFactory::registerOutputFormat(const String & name, OutputCreator output_creator) { auto & target = dict[name].output_creator; if (target) throw Exception("FormatFactory: Output format " + name + " is already registered", ErrorCodes::LOGICAL_ERROR); target = std::move(output_creator); } void FormatFactory::registerInputFormatProcessor(const String & name, InputProcessorCreator input_creator) { auto & target = dict[name].input_processor_creator; if (target) throw Exception("FormatFactory: Input format " + name + " is already registered", ErrorCodes::LOGICAL_ERROR); target = std::move(input_creator); } void FormatFactory::registerOutputFormatProcessor(const String & name, OutputProcessorCreator output_creator) { auto & target = dict[name].output_processor_creator; if (target) throw Exception("FormatFactory: Output format " + name + " is already registered", ErrorCodes::LOGICAL_ERROR); target = std::move(output_creator); } void FormatFactory::registerFileSegmentationEngine(const String & name, FileSegmentationEngine file_segmentation_engine) { auto & target = dict[name].file_segmentation_engine; if (target) throw Exception("FormatFactory: File segmentation engine " + name + " is already registered", ErrorCodes::LOGICAL_ERROR); target = file_segmentation_engine; } /// Formats for both input/output. void registerInputFormatNative(FormatFactory & factory); void registerOutputFormatNative(FormatFactory & factory); void registerInputFormatProcessorNative(FormatFactory & factory); void registerOutputFormatProcessorNative(FormatFactory & factory); void registerInputFormatProcessorRowBinary(FormatFactory & factory); void registerOutputFormatProcessorRowBinary(FormatFactory & factory); void registerInputFormatProcessorTabSeparated(FormatFactory & factory); void registerOutputFormatProcessorTabSeparated(FormatFactory & factory); void registerInputFormatProcessorValues(FormatFactory & factory); void registerOutputFormatProcessorValues(FormatFactory & factory); void registerInputFormatProcessorCSV(FormatFactory & factory); void registerOutputFormatProcessorCSV(FormatFactory & factory); void registerInputFormatProcessorTSKV(FormatFactory & factory); void registerOutputFormatProcessorTSKV(FormatFactory & factory); void registerInputFormatProcessorJSONEachRow(FormatFactory & factory); void registerOutputFormatProcessorJSONEachRow(FormatFactory & factory); void registerInputFormatProcessorParquet(FormatFactory & factory); void registerInputFormatProcessorORC(FormatFactory & factory); void registerOutputFormatProcessorParquet(FormatFactory & factory); void registerInputFormatProcessorProtobuf(FormatFactory & factory); void registerOutputFormatProcessorProtobuf(FormatFactory & factory); void registerInputFormatProcessorTemplate(FormatFactory & factory); void registerOutputFormatProcessorTemplate(FormatFactory &factory); /// File Segmentation Engines for parallel reading void registerFileSegmentationEngineJSONEachRow(FormatFactory & factory); void registerFileSegmentationEngineTabSeparated(FormatFactory & factory); //void registerFileSegmentationEngineValues(FormatFactory & factory); void registerFileSegmentationEngineCSV(FormatFactory & factory); void registerFileSegmentationEngineTSKV(FormatFactory & factory); /// Output only (presentational) formats. void registerOutputFormatNull(FormatFactory & factory); void registerOutputFormatProcessorPretty(FormatFactory & factory); void registerOutputFormatProcessorPrettyCompact(FormatFactory & factory); void registerOutputFormatProcessorPrettySpace(FormatFactory & factory); void registerOutputFormatProcessorVertical(FormatFactory & factory); void registerOutputFormatProcessorJSON(FormatFactory & factory); void registerOutputFormatProcessorJSONCompact(FormatFactory & factory); void registerOutputFormatProcessorJSONEachRowWithProgress(FormatFactory & factory); void registerOutputFormatProcessorXML(FormatFactory & factory); void registerOutputFormatProcessorODBCDriver(FormatFactory & factory); void registerOutputFormatProcessorODBCDriver2(FormatFactory & factory); void registerOutputFormatProcessorNull(FormatFactory & factory); #if USE_SSL void registerOutputFormatProcessorMySQLWrite(FormatFactory & factory); #endif /// Input only formats. void registerInputFormatProcessorCapnProto(FormatFactory & factory); FormatFactory::FormatFactory() { registerInputFormatNative(*this); registerOutputFormatNative(*this); registerOutputFormatProcessorJSONEachRowWithProgress(*this); registerInputFormatProcessorNative(*this); registerOutputFormatProcessorNative(*this); registerInputFormatProcessorRowBinary(*this); registerOutputFormatProcessorRowBinary(*this); registerInputFormatProcessorTabSeparated(*this); registerOutputFormatProcessorTabSeparated(*this); registerInputFormatProcessorValues(*this); registerOutputFormatProcessorValues(*this); registerInputFormatProcessorCSV(*this); registerOutputFormatProcessorCSV(*this); registerInputFormatProcessorTSKV(*this); registerOutputFormatProcessorTSKV(*this); registerInputFormatProcessorJSONEachRow(*this); registerOutputFormatProcessorJSONEachRow(*this); registerInputFormatProcessorProtobuf(*this); registerOutputFormatProcessorProtobuf(*this); registerInputFormatProcessorCapnProto(*this); registerInputFormatProcessorORC(*this); registerInputFormatProcessorParquet(*this); registerOutputFormatProcessorParquet(*this); registerInputFormatProcessorTemplate(*this); registerOutputFormatProcessorTemplate(*this); registerFileSegmentationEngineJSONEachRow(*this); registerFileSegmentationEngineTabSeparated(*this); registerFileSegmentationEngineCSV(*this); registerFileSegmentationEngineTSKV(*this); registerOutputFormatNull(*this); registerOutputFormatProcessorPretty(*this); registerOutputFormatProcessorPrettyCompact(*this); registerOutputFormatProcessorPrettySpace(*this); registerOutputFormatProcessorVertical(*this); registerOutputFormatProcessorJSON(*this); registerOutputFormatProcessorJSONCompact(*this); registerOutputFormatProcessorXML(*this); registerOutputFormatProcessorODBCDriver(*this); registerOutputFormatProcessorODBCDriver2(*this); registerOutputFormatProcessorNull(*this); #if USE_SSL registerOutputFormatProcessorMySQLWrite(*this); #endif } FormatFactory & FormatFactory::instance() { static FormatFactory ret; return ret; } }