ClickHouse/src/Storages/MergeTree/MergeTreeDataPartWriterWide.cpp

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#include <Storages/MergeTree/MergeTreeDataPartWriterWide.h>
#include <Interpreters/Context.h>
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#include <Compression/CompressionFactory.h>
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#include <Compression/CompressedReadBufferFromFile.h>
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namespace DB
{
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namespace ErrorCodes
{
extern const int LOGICAL_ERROR;
}
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namespace
{
constexpr auto DATA_FILE_EXTENSION = ".bin";
}
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namespace
{
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/// Get granules for block using index_granularity
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Granules getGranulesToWrite(const MergeTreeIndexGranularity & index_granularity, size_t block_rows, size_t current_mark, size_t rows_written_in_last_mark)
{
if (current_mark >= index_granularity.getMarksCount())
throw Exception(ErrorCodes::LOGICAL_ERROR, "Request to get granules from mark {} but index granularity size is {}", current_mark, index_granularity.getMarksCount());
Granules result;
size_t current_row = 0;
/// When our last mark is not finished yet and we have to write rows into it
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if (rows_written_in_last_mark > 0)
{
size_t rows_left_in_last_mark = index_granularity.getMarkRows(current_mark) - rows_written_in_last_mark;
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size_t rows_left_in_block = block_rows - current_row;
result.emplace_back(Granule{
.start_row = current_row,
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.rows_to_write = std::min(rows_left_in_block, rows_left_in_last_mark),
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.mark_number = current_mark,
.mark_on_start = false, /// Don't mark this granule because we have already marked it
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.is_complete = (rows_left_in_block >= rows_left_in_last_mark),
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});
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current_row += result.back().rows_to_write;
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current_mark++;
}
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/// Calculating normal granules for block
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while (current_row < block_rows)
{
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size_t expected_rows_in_mark = index_granularity.getMarkRows(current_mark);
size_t rows_left_in_block = block_rows - current_row;
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/// If we have less rows in block than expected in granularity
/// save incomplete granule
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result.emplace_back(Granule{
.start_row = current_row,
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.rows_to_write = std::min(rows_left_in_block, expected_rows_in_mark),
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.mark_number = current_mark,
.mark_on_start = true,
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.is_complete = (rows_left_in_block >= expected_rows_in_mark),
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});
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current_row += result.back().rows_to_write;
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current_mark++;
}
return result;
}
}
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MergeTreeDataPartWriterWide::MergeTreeDataPartWriterWide(
const MergeTreeData::DataPartPtr & data_part_,
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const NamesAndTypesList & columns_list_,
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const StorageMetadataPtr & metadata_snapshot_,
const std::vector<MergeTreeIndexPtr> & indices_to_recalc_,
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const String & marks_file_extension_,
const CompressionCodecPtr & default_codec_,
const MergeTreeWriterSettings & settings_,
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const MergeTreeIndexGranularity & index_granularity_)
: MergeTreeDataPartWriterOnDisk(data_part_, columns_list_, metadata_snapshot_,
indices_to_recalc_, marks_file_extension_,
default_codec_, settings_, index_granularity_)
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{
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const auto & columns = metadata_snapshot->getColumns();
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for (const auto & it : columns_list)
addStreams(it, columns.getCodecDescOrDefault(it.name, default_codec));
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}
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void MergeTreeDataPartWriterWide::addStreams(
const NameAndTypePair & column,
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const ASTPtr & effective_codec_desc)
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{
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IDataType::StreamCallback callback = [&] (const IDataType::SubstreamPath & substream_path, const IDataType & substream_type)
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{
String stream_name = IDataType::getFileNameForStream(column, substream_path);
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/// Shared offsets for Nested type.
if (column_streams.count(stream_name))
return;
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CompressionCodecPtr compression_codec;
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/// If we can use special codec then just get it
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if (IDataType::isSpecialCompressionAllowed(substream_path))
compression_codec = CompressionCodecFactory::instance().get(effective_codec_desc, &substream_type, default_codec);
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else /// otherwise return only generic codecs and don't use info about the data_type
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compression_codec = CompressionCodecFactory::instance().get(effective_codec_desc, nullptr, default_codec, true);
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column_streams[stream_name] = std::make_unique<Stream>(
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stream_name,
data_part->volume->getDisk(),
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part_path + stream_name, DATA_FILE_EXTENSION,
part_path + stream_name, marks_file_extension,
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compression_codec,
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settings.max_compress_block_size);
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};
IDataType::SubstreamPath stream_path;
column.type->enumerateStreams(callback, stream_path);
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}
IDataType::OutputStreamGetter MergeTreeDataPartWriterWide::createStreamGetter(
const NameAndTypePair & column, WrittenOffsetColumns & offset_columns) const
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{
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return [&, this] (const IDataType::SubstreamPath & substream_path) -> WriteBuffer *
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{
bool is_offsets = !substream_path.empty() && substream_path.back().type == IDataType::Substream::ArraySizes;
String stream_name = IDataType::getFileNameForStream(column, substream_path);
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/// Don't write offsets more than one time for Nested type.
if (is_offsets && offset_columns.count(stream_name))
return nullptr;
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return &column_streams.at(stream_name)->compressed;
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};
}
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void MergeTreeDataPartWriterWide::shiftCurrentMark(const Granules & granules_written)
{
auto last_granule = granules_written.back();
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/// If we didn't finished last granule than we will continue to write it from new block
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if (!last_granule.is_complete)
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{
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if (settings.blocks_are_granules_size)
throw Exception(ErrorCodes::LOGICAL_ERROR, "Incomplete granules are not allowed while blocks are granules size. "
"Mark number {} (rows {}), rows written in last mark {}, rows to write in last mark from block {} (from row {}), total marks currently {}",
last_granule.mark_number, index_granularity.getMarkRows(last_granule.mark_number), rows_written_in_last_mark,
last_granule.rows_to_write, last_granule.start_row, index_granularity.getMarksCount());
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/// Shift forward except last granule
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setCurrentMark(getCurrentMark() + granules_written.size() - 1);
bool still_in_the_same_granule = granules_written.size() == 1;
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/// We wrote whole block in the same granule, but didn't finished it.
/// So add written rows to rows written in last_mark
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if (still_in_the_same_granule)
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rows_written_in_last_mark += last_granule.rows_to_write;
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else
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rows_written_in_last_mark = last_granule.rows_to_write;
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}
else
{
setCurrentMark(getCurrentMark() + granules_written.size());
rows_written_in_last_mark = 0;
}
}
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void MergeTreeDataPartWriterWide::write(const Block & block, const IColumn::Permutation * permutation)
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{
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/// Fill index granularity for this block
/// if it's unknown (in case of insert data or horizontal merge,
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/// but not in case of vertical part of vertical merge)
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if (compute_granularity)
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{
size_t index_granularity_for_block = computeIndexGranularity(block);
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if (rows_written_in_last_mark > 0)
{
size_t rows_left_in_last_mark = index_granularity.getMarkRows(getCurrentMark()) - rows_written_in_last_mark;
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/// Previous granularity was much bigger than our new block's
/// granularity let's adjust it, because we want add new
/// heavy-weight blocks into small old granule.
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if (rows_left_in_last_mark > index_granularity_for_block)
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{
/// We have already written more rows than granularity of our block.
/// adjust last mark rows and flush to disk.
if (rows_written_in_last_mark >= index_granularity_for_block)
adjustLastMarkIfNeedAndFlushToDisk(rows_written_in_last_mark);
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else /// We still can write some rows from new block into previous granule. So the granule size will be block granularity size.
adjustLastMarkIfNeedAndFlushToDisk(index_granularity_for_block);
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}
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}
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fillIndexGranularity(index_granularity_for_block, block.rows());
}
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auto granules_to_write = getGranulesToWrite(index_granularity, block.rows(), getCurrentMark(), rows_written_in_last_mark);
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auto offset_columns = written_offset_columns ? *written_offset_columns : WrittenOffsetColumns{};
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Block primary_key_block;
if (settings.rewrite_primary_key)
primary_key_block = getBlockAndPermute(block, metadata_snapshot->getPrimaryKeyColumns(), permutation);
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Block skip_indexes_block = getBlockAndPermute(block, getSkipIndicesColumns(), permutation);
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auto it = columns_list.begin();
for (size_t i = 0; i < columns_list.size(); ++i, ++it)
{
const ColumnWithTypeAndName & column = block.getByName(it->name);
if (permutation)
{
if (primary_key_block.has(it->name))
{
const auto & primary_column = *primary_key_block.getByName(it->name).column;
writeColumn(*it, primary_column, offset_columns, granules_to_write);
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}
else if (skip_indexes_block.has(it->name))
{
const auto & index_column = *skip_indexes_block.getByName(it->name).column;
writeColumn(*it, index_column, offset_columns, granules_to_write);
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}
else
{
/// We rearrange the columns that are not included in the primary key here; Then the result is released - to save RAM.
ColumnPtr permuted_column = column.column->permute(*permutation, 0);
writeColumn(*it, *permuted_column, offset_columns, granules_to_write);
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}
}
else
{
writeColumn(*it, *column.column, offset_columns, granules_to_write);
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}
}
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if (settings.rewrite_primary_key)
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calculateAndSerializePrimaryIndex(primary_key_block, granules_to_write);
calculateAndSerializeSkipIndices(skip_indexes_block, granules_to_write);
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shiftCurrentMark(granules_to_write);
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}
void MergeTreeDataPartWriterWide::writeSingleMark(
const NameAndTypePair & column,
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WrittenOffsetColumns & offset_columns,
size_t number_of_rows,
DB::IDataType::SubstreamPath & path)
{
StreamsWithMarks marks = getCurrentMarksForColumn(column, offset_columns, path);
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for (const auto & mark : marks)
flushMarkToFile(mark, number_of_rows);
}
void MergeTreeDataPartWriterWide::flushMarkToFile(const StreamNameAndMark & stream_with_mark, size_t rows_in_mark)
{
Stream & stream = *column_streams[stream_with_mark.stream_name];
writeIntBinary(stream_with_mark.mark.offset_in_compressed_file, stream.marks);
writeIntBinary(stream_with_mark.mark.offset_in_decompressed_block, stream.marks);
if (settings.can_use_adaptive_granularity)
writeIntBinary(rows_in_mark, stream.marks);
}
StreamsWithMarks MergeTreeDataPartWriterWide::getCurrentMarksForColumn(
const NameAndTypePair & column,
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WrittenOffsetColumns & offset_columns,
DB::IDataType::SubstreamPath & path)
{
StreamsWithMarks result;
column.type->enumerateStreams([&] (const IDataType::SubstreamPath & substream_path, const IDataType & /* substream_type */)
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{
bool is_offsets = !substream_path.empty() && substream_path.back().type == IDataType::Substream::ArraySizes;
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String stream_name = IDataType::getFileNameForStream(column, substream_path);
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/// Don't write offsets more than one time for Nested type.
if (is_offsets && offset_columns.count(stream_name))
return;
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Stream & stream = *column_streams[stream_name];
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/// There could already be enough data to compress into the new block.
if (stream.compressed.offset() >= settings.min_compress_block_size)
stream.compressed.next();
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StreamNameAndMark stream_with_mark;
stream_with_mark.stream_name = stream_name;
stream_with_mark.mark.offset_in_compressed_file = stream.plain_hashing.count();
stream_with_mark.mark.offset_in_decompressed_block = stream.compressed.offset();
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result.push_back(stream_with_mark);
}, path);
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return result;
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}
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void MergeTreeDataPartWriterWide::writeSingleGranule(
const NameAndTypePair & name_and_type,
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const IColumn & column,
WrittenOffsetColumns & offset_columns,
IDataType::SerializeBinaryBulkStatePtr & serialization_state,
IDataType::SerializeBinaryBulkSettings & serialize_settings,
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const Granule & granule)
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{
name_and_type.type->serializeBinaryBulkWithMultipleStreams(column, granule.start_row, granule.rows_to_write, serialize_settings, serialization_state);
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/// So that instead of the marks pointing to the end of the compressed block, there were marks pointing to the beginning of the next one.
name_and_type.type->enumerateStreams([&] (const IDataType::SubstreamPath & substream_path, const IDataType & /* substream_type */)
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{
bool is_offsets = !substream_path.empty() && substream_path.back().type == IDataType::Substream::ArraySizes;
String stream_name = IDataType::getFileNameForStream(name_and_type, substream_path);
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/// Don't write offsets more than one time for Nested type.
if (is_offsets && offset_columns.count(stream_name))
return;
column_streams[stream_name]->compressed.nextIfAtEnd();
}, serialize_settings.path);
}
/// Column must not be empty. (column.size() !== 0)
void MergeTreeDataPartWriterWide::writeColumn(
const NameAndTypePair & name_and_type,
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const IColumn & column,
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WrittenOffsetColumns & offset_columns,
const Granules & granules)
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{
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if (granules.empty())
throw Exception(ErrorCodes::LOGICAL_ERROR, "Empty granules for column {}, current mark {}", backQuoteIfNeed(name_and_type.name), getCurrentMark());
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const auto & [name, type] = name_and_type;
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auto [it, inserted] = serialization_states.emplace(name, nullptr);
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if (inserted)
{
IDataType::SerializeBinaryBulkSettings serialize_settings;
serialize_settings.getter = createStreamGetter(name_and_type, offset_columns);
type->serializeBinaryBulkStatePrefix(serialize_settings, it->second);
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}
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const auto & global_settings = storage.global_context.getSettingsRef();
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IDataType::SerializeBinaryBulkSettings serialize_settings;
serialize_settings.getter = createStreamGetter(name_and_type, offset_columns);
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serialize_settings.low_cardinality_max_dictionary_size = global_settings.low_cardinality_max_dictionary_size;
serialize_settings.low_cardinality_use_single_dictionary_for_part = global_settings.low_cardinality_use_single_dictionary_for_part != 0;
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for (const auto & granule : granules)
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{
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data_written = true;
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if (granule.mark_on_start)
{
if (last_non_written_marks.count(name))
throw Exception(ErrorCodes::LOGICAL_ERROR, "We have to add new mark for column, but already have non written mark. Current mark {}, total marks {}, offset {}", getCurrentMark(), index_granularity.getMarksCount(), rows_written_in_last_mark);
last_non_written_marks[name] = getCurrentMarksForColumn(name_and_type, offset_columns, serialize_settings.path);
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}
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writeSingleGranule(
name_and_type,
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column,
offset_columns,
it->second,
serialize_settings,
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granule
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);
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if (granule.is_complete)
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{
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auto marks_it = last_non_written_marks.find(name);
if (marks_it == last_non_written_marks.end())
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throw Exception(ErrorCodes::LOGICAL_ERROR, "No mark was saved for incomplete granule for column {}", backQuoteIfNeed(name));
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for (const auto & mark : marks_it->second)
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flushMarkToFile(mark, index_granularity.getMarkRows(granule.mark_number));
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last_non_written_marks.erase(marks_it);
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}
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}
name_and_type.type->enumerateStreams([&] (const IDataType::SubstreamPath & substream_path, const IDataType & /* substream_type */)
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{
bool is_offsets = !substream_path.empty() && substream_path.back().type == IDataType::Substream::ArraySizes;
if (is_offsets)
{
String stream_name = IDataType::getFileNameForStream(name_and_type, substream_path);
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offset_columns.insert(stream_name);
}
}, serialize_settings.path);
}
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void MergeTreeDataPartWriterWide::validateColumnOfFixedSize(const String & name, const IDataType & type)
{
if (!type.isValueRepresentedByNumber() || type.haveSubtypes())
throw Exception(ErrorCodes::LOGICAL_ERROR, "Cannot validate column of non fixed type {}", type.getName());
auto disk = data_part->volume->getDisk();
String mrk_path = fullPath(disk, part_path + name + marks_file_extension);
String bin_path = fullPath(disk, part_path + name + DATA_FILE_EXTENSION);
DB::ReadBufferFromFile mrk_in(mrk_path);
DB::CompressedReadBufferFromFile bin_in(bin_path, 0, 0, 0);
bool must_be_last = false;
UInt64 offset_in_compressed_file = 0;
UInt64 offset_in_decompressed_block = 0;
UInt64 index_granularity_rows = data_part->index_granularity_info.fixed_index_granularity;
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size_t mark_num;
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for (mark_num = 0; !mrk_in.eof(); ++mark_num)
{
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if (mark_num > index_granularity.getMarksCount())
throw Exception(ErrorCodes::LOGICAL_ERROR, "Incorrect number of marks in memory {}, on disk (at least) {}", index_granularity.getMarksCount(), mark_num + 1);
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DB::readBinary(offset_in_compressed_file, mrk_in);
DB::readBinary(offset_in_decompressed_block, mrk_in);
if (settings.can_use_adaptive_granularity)
DB::readBinary(index_granularity_rows, mrk_in);
else
index_granularity_rows = data_part->index_granularity_info.fixed_index_granularity;
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if (must_be_last)
{
if (index_granularity_rows != 0)
throw Exception(ErrorCodes::LOGICAL_ERROR, "We ran out of binary data but still have non empty mark #{} with rows number {}", mark_num, index_granularity_rows);
if (!mrk_in.eof())
throw Exception(ErrorCodes::LOGICAL_ERROR, "Mark #{} must be last, but we still have some to read", mark_num);
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break;
}
if (index_granularity_rows == 0)
{
auto column = type.createColumn();
type.deserializeBinaryBulk(*column, bin_in, 1000000000, 0.0);
throw Exception(ErrorCodes::LOGICAL_ERROR,
"Still have {} rows in bin stream, last mark #{} index granularity size {}, last rows {}", column->size(), mark_num, index_granularity.getMarksCount(), index_granularity_rows);
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}
if (index_granularity_rows > data_part->index_granularity_info.fixed_index_granularity)
{
throw Exception(ErrorCodes::LOGICAL_ERROR,
"Mark #{} has {} rows, but max fixed granularity is {}, index granularity size {}",
mark_num, index_granularity_rows, data_part->index_granularity_info.fixed_index_granularity, index_granularity.getMarksCount());
}
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if (index_granularity_rows != index_granularity.getMarkRows(mark_num))
throw Exception(
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ErrorCodes::LOGICAL_ERROR, "Incorrect mark rows for part {} for mark #{} (compressed offset {}, decompressed offset {}), in-memory {}, on disk {}, total marks {}",
data_part->getFullPath(), mark_num, offset_in_compressed_file, offset_in_decompressed_block, index_granularity.getMarkRows(mark_num), index_granularity_rows, index_granularity.getMarksCount());
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auto column = type.createColumn();
type.deserializeBinaryBulk(*column, bin_in, index_granularity_rows, 0.0);
if (bin_in.eof())
{
must_be_last = true;
}
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/// Now they must be equal
if (column->size() != index_granularity_rows)
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{
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if (must_be_last)
{
/// The only possible mark after bin.eof() is final mark. When we
/// cannot use adaptive granularity we cannot have last mark.
/// So finish validation.
if (!settings.can_use_adaptive_granularity)
break;
/// If we don't compute granularity then we are not responsible
/// for last mark (for example we mutating some column from part
/// with fixed granularity where last mark is not adjusted)
if (!compute_granularity)
continue;
}
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throw Exception(
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ErrorCodes::LOGICAL_ERROR, "Incorrect mark rows for mark #{} (compressed offset {}, decompressed offset {}), actually in bin file {}, in mrk file {}, total marks {}",
mark_num, offset_in_compressed_file, offset_in_decompressed_block, column->size(), index_granularity.getMarkRows(mark_num), index_granularity.getMarksCount());
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}
}
if (!mrk_in.eof())
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throw Exception(ErrorCodes::LOGICAL_ERROR,
"Still have something in marks stream, last mark #{} index granularity size {}, last rows {}", mark_num, index_granularity.getMarksCount(), index_granularity_rows);
if (!bin_in.eof())
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{
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auto column = type.createColumn();
type.deserializeBinaryBulk(*column, bin_in, 1000000000, 0.0);
throw Exception(ErrorCodes::LOGICAL_ERROR,
"Still have {} rows in bin stream, last mark #{} index granularity size {}, last rows {}", column->size(), mark_num, index_granularity.getMarksCount(), index_granularity_rows);
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}
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}
void MergeTreeDataPartWriterWide::finishDataSerialization(IMergeTreeDataPart::Checksums & checksums, bool sync)
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{
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const auto & global_settings = storage.global_context.getSettingsRef();
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IDataType::SerializeBinaryBulkSettings serialize_settings;
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serialize_settings.low_cardinality_max_dictionary_size = global_settings.low_cardinality_max_dictionary_size;
serialize_settings.low_cardinality_use_single_dictionary_for_part = global_settings.low_cardinality_use_single_dictionary_for_part != 0;
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WrittenOffsetColumns offset_columns;
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if (rows_written_in_last_mark > 0)
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{
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if (settings.blocks_are_granules_size)
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throw Exception(ErrorCodes::LOGICAL_ERROR, "Incomplete granule is not allowed while blocks are granules size even for last granule. "
"Mark number {} (rows {}), rows written for last mark {}, total marks {}",
getCurrentMark(), index_granularity.getMarkRows(getCurrentMark()), rows_written_in_last_mark, index_granularity.getMarksCount());
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adjustLastMarkIfNeedAndFlushToDisk(rows_written_in_last_mark);
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}
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bool write_final_mark = (with_final_mark && data_written);
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{
auto it = columns_list.begin();
for (size_t i = 0; i < columns_list.size(); ++i, ++it)
{
if (!serialization_states.empty())
{
serialize_settings.getter = createStreamGetter(*it, written_offset_columns ? *written_offset_columns : offset_columns);
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it->type->serializeBinaryBulkStateSuffix(serialize_settings, serialization_states[it->name]);
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}
if (write_final_mark)
writeFinalMark(*it, offset_columns, serialize_settings.path);
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}
}
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for (auto & stream : column_streams)
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{
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stream.second->finalize();
stream.second->addToChecksums(checksums);
if (sync)
stream.second->sync();
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}
column_streams.clear();
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serialization_states.clear();
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#ifndef NDEBUG
/// Heavy weight validation of written data. Checks that we are able to read
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/// data according to marks. Otherwise throws LOGICAL_ERROR (equal to abort in debug mode)
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for (const auto & column : columns_list)
{
if (column.type->isValueRepresentedByNumber() && !column.type->haveSubtypes())
validateColumnOfFixedSize(column.name, *column.type);
}
#endif
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}
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void MergeTreeDataPartWriterWide::finish(IMergeTreeDataPart::Checksums & checksums, bool sync)
{
finishDataSerialization(checksums, sync);
if (settings.rewrite_primary_key)
finishPrimaryIndexSerialization(checksums, sync);
finishSkipIndicesSerialization(checksums, sync);
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}
void MergeTreeDataPartWriterWide::writeFinalMark(
const NameAndTypePair & column,
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WrittenOffsetColumns & offset_columns,
DB::IDataType::SubstreamPath & path)
{
writeSingleMark(column, offset_columns, 0, path);
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/// Memoize information about offsets
column.type->enumerateStreams([&] (const IDataType::SubstreamPath & substream_path, const IDataType & /* substream_type */)
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{
bool is_offsets = !substream_path.empty() && substream_path.back().type == IDataType::Substream::ArraySizes;
if (is_offsets)
{
String stream_name = IDataType::getFileNameForStream(column, substream_path);
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offset_columns.insert(stream_name);
}
}, path);
}
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static void fillIndexGranularityImpl(
MergeTreeIndexGranularity & index_granularity,
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size_t index_offset,
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size_t index_granularity_for_block,
size_t rows_in_block)
{
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for (size_t current_row = index_offset; current_row < rows_in_block; current_row += index_granularity_for_block)
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index_granularity.appendMark(index_granularity_for_block);
}
void MergeTreeDataPartWriterWide::fillIndexGranularity(size_t index_granularity_for_block, size_t rows_in_block)
{
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if (getCurrentMark() < index_granularity.getMarksCount() && getCurrentMark() != index_granularity.getMarksCount() - 1)
throw Exception(ErrorCodes::LOGICAL_ERROR, "Trying to add marks, while current mark {}, but total marks {}", getCurrentMark(), index_granularity.getMarksCount());
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size_t index_offset = 0;
if (rows_written_in_last_mark != 0)
index_offset = index_granularity.getLastMarkRows() - rows_written_in_last_mark;
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fillIndexGranularityImpl(
index_granularity,
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index_offset,
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index_granularity_for_block,
rows_in_block);
}
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void MergeTreeDataPartWriterWide::adjustLastMarkIfNeedAndFlushToDisk(size_t new_rows_in_last_mark)
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{
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/// We don't want to split already written granules to smaller
if (rows_written_in_last_mark > new_rows_in_last_mark)
throw Exception(ErrorCodes::LOGICAL_ERROR, "Tryin to make mark #{} smaller ({} rows) then it already has {}",
getCurrentMark(), new_rows_in_last_mark, rows_written_in_last_mark);
/// We can adjust marks only if we computed granularity for blocks.
/// Otherwise we cannot change granularity because it will differ from
/// other columns
if (compute_granularity && settings.can_use_adaptive_granularity)
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{
if (getCurrentMark() != index_granularity.getMarksCount() - 1)
throw Exception(ErrorCodes::LOGICAL_ERROR, "Non last mark {} (with {} rows) having rows offset {}, total marks {}",
getCurrentMark(), index_granularity.getMarkRows(getCurrentMark()), rows_written_in_last_mark, index_granularity.getMarksCount());
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index_granularity.popMark();
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index_granularity.appendMark(new_rows_in_last_mark);
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}
/// Last mark should be filled, otherwise it's a bug
if (last_non_written_marks.empty())
throw Exception(ErrorCodes::LOGICAL_ERROR, "No saved marks for last mark {} having rows offset {}, total marks {}",
getCurrentMark(), rows_written_in_last_mark, index_granularity.getMarksCount());
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if (rows_written_in_last_mark == new_rows_in_last_mark)
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{
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for (const auto & [name, marks] : last_non_written_marks)
{
for (const auto & mark : marks)
flushMarkToFile(mark, index_granularity.getMarkRows(getCurrentMark()));
}
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last_non_written_marks.clear();
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if (compute_granularity && settings.can_use_adaptive_granularity)
{
/// Also we add mark to each skip index because all of them
/// already accumulated all rows from current adjusting mark
for (size_t i = 0; i < skip_indices.size(); ++i)
++skip_index_accumulated_marks[i];
/// This mark completed, go further
setCurrentMark(getCurrentMark() + 1);
/// Without offset
rows_written_in_last_mark = 0;
}
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}
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}
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}