#pragma once #include namespace DB { /** In wide format data of each column is stored in one or several (for complex types) files. * Every data file is followed by marks file. * Can be used in tables with both adaptive and non-adaptive granularity. * This is the regular format of parts for MergeTree and suitable for big parts, as it's the most efficient. * Data part would be created in wide format if it's uncompressed size in bytes or number of rows would exceed * thresholds `min_bytes_for_wide_part` and `min_rows_for_wide_part`. */ class MergeTreeDataPartWide : public IMergeTreeDataPart { public: MergeTreeDataPartWide( const MergeTreeData & storage_, const String & name_, const MergeTreePartInfo & info_, const VolumePtr & volume, const std::optional & relative_path = {}); MergeTreeDataPartWide( MergeTreeData & storage_, const String & name_, const VolumePtr & volume, const std::optional & relative_path = {}); MergeTreeReaderPtr getReader( const NamesAndTypesList & columns, const StorageMetadataPtr & metadata_snapshot, const MarkRanges & mark_ranges, UncompressedCache * uncompressed_cache, MarkCache * mark_cache, const MergeTreeReaderSettings & reader_settings_, const ValueSizeMap & avg_value_size_hints, const ReadBufferFromFileBase::ProfileCallback & profile_callback) const override; MergeTreeWriterPtr getWriter( const NamesAndTypesList & columns_list, const StorageMetadataPtr & metadata_snapshot, const std::vector & indices_to_recalc, const CompressionCodecPtr & default_codec_, const MergeTreeWriterSettings & writer_settings, const MergeTreeIndexGranularity & computed_index_granularity) const override; bool isStoredOnDisk() const override { return true; } bool supportsVerticalMerge() const override { return true; } String getFileNameForColumn(const NameAndTypePair & column) const override; ~MergeTreeDataPartWide() override; bool hasColumnFiles(const String & column, const IDataType & type) const override; private: void checkConsistency(bool require_part_metadata) const override; /// Loads marks index granularity into memory void loadIndexGranularity() override; ColumnSize getColumnSizeImpl(const String & name, const IDataType & type, std::unordered_set * processed_substreams) const; void calculateEachColumnSizes(ColumnSizeByName & each_columns_size, ColumnSize & total_size) const override; }; }